2008 GEOLOGICAL AND GEOCHEMICAL REPORT ON THE GILLIS PROPERTY

Transcription

1 Rimfire Minerals Corporation 2008 GEOLOGICAL AND GEOCHEMICAL REPORT ON THE GILLIS PROPERTY Located in the Nicola Mining Division British Columbia NTS: 92H/14 and 92H/15 Latitude N, Longitude W UTM Zone 10: E, N (NAD 83) -prepared for- RIMFIRE MINERALS CORPORATION Suite 1350, 650 West Georgia Street Vancouver, British Columbia, -prepared by- Sandra Bayliss, B.Sc. RIMFIRE MINERALS CORPORATION Suite 1350, 650 West Georgia Street Vancouver, British Columbia, sandrab@rimfire.bc.ca December, 2008

2 1 SUMMARY The Gillis property consists of 14 contiguous map claims covering 62 km 2 of rolling upland terrain 30 km southwest of the city of Merritt, British Columbia. Access to the property for the 2008 field season was primarily by a Bell 206 helicopter based out of Merritt. Although the areas where most of the exploration is focused are not road accessible, future road access could be facilitated from gravel forestry roads that circle the property. Rimfire Minerals Corporation acquired the Gillis property through an option agreement executed in the fall of 2008 from vendors Ed Balon and Wojtek Jakubowski. Previous work on the Gillis property is limited to reconnaissance stream sediment and soil geochemical surveys carried out by Almaden Minerals Ltd. investigating regional RGS stream sediment geochemical gold anomalies in 2005/2006. There is no other record of previous work on, and no MINFILE occurrences lie within, the Gillis property. During October 2008, Rimfire Minerals Corporation carried out a mapping, prospecting, and geochemical sampling program on the Gillis property. The sampling work was contracted to RIO Minerals Ltd. who completed km of soil lines. A total of 64 rock samples were taken in addition to the 1712 soil samples. Prospecting and mapping was focused on previous soil and silt anomalies located primarily in the western and central portions of the property. Prospecting has led to the discovery of three showings that have anomalous values of Au and Ag in combination with other pathfinder elements. The Fort showing is located in one of the western drainages and is highlighted by rock sample G that returned a value of ppm Au, 201 ppm Ag with anomalous values in Pb, Bi, Sb, Hg and Zn. The SAV area, located 2 km southeast of the Fort showing, is a cluster of four anomalous samples ranging from 1-4 ppm Au. The third area, the South Side, is highlighted by a few anomalous gold float samples which lie within a multi-element soil anomaly with poor outcrop exposure. Mineralization is located within quartz veins that are hosted primarily within the Nicola Group chlorite schist and in one case, silty limestone. Structural trends of the schist unit include a dominant fracture set oriented southwest with a vertical to subvertical dip and prominent foliation striking northwest with varying dips. Some veins appear to follow the dominant fracture set, while others are undulating and do not have distinct orientations. At least three types of quartz veining have been encountered, two of which have returned anomalous Au values. One type is found at the Fort showing where limestone hosts milky white quartz gangue that has a distinctive, shard-like fracture habit and is absent of other alteration products. The second type of veining is hosted in the Nicola Group chlorite schist and consists of fractured quartz that is more translucent and contains sericite and pyrite within sutures. The third vein type resembles the second vein type with the addition of siderite and calcite veins that cross cut the quartz veins. Although the third vein type can be quite large, measuring up to 2-3 m wide, they did not return any anomalous Au values from samples taken. Rimfire Minerals Corporation

3 2 The Nicola Group chlorite schist and the silty limestone units occur predominantly in the central and western portions of the Gillis property. To the south, there is a large intrusion of pink feldspar porphyry which is thought to be analogous to the Late Cretaceous to Early Tertiary Otter suite of intrusions. The Spences Bridge Group underlies the area to the north of the Gillis property including a portion of northern Gillis claims. Structurally, there are a number of northwest-southeast trending faults that cut through the property as well as a myriad of east-west faults that cut just north of the anomalous South soil grid and Nicola Group chlorite schist. Rimfire Minerals Corporation

4 3 TABLE OF CONTENTS SUMMARY... 1 TABLE OF CONTENTS... 3 LIST OF APPENDICES... 3 LIST OF TABLES... 3 LIST OF FIGURES INTRODUCTION PROPERTY TITLE LOCATION, ACCESS AND GEOGRAPHY PROPERTY EXPATION HISTORY EXPATION PROGRAM REGIONAL GEOLOGY PROPERTY GEOLOGY Stratigraphy/Structure/Lithology Structural Trends Alteration Mineralization The Fort showing SAV showing (subalpine vein) South Side GEOCHEMISTRY Soil Geochemistry Rock Geochemistry: Regional Prospecting CONCLUSIONS Appendix A: References Appendix B: Statement of Expenditures Appendix C: Rock Descriptions Appendix D: Soil Analytical Certificates Appendix E: Rock Analytical Certificates LIST OF APPENDICES LIST OF TABLES Table 1 - Gillis Tenure... 5 Table 2 Summary of Previous Geochemical Sampling... 9 Table 3 - Fort Rock Samples Table 4 - SAV Rock Sample Highlights Table 5 - South Side Rock Samples Highlights Table 6 - Soil Geochemistry Percentiles Table 7 - Soil Geochemistry Correlation Matrix Table 8 - Rock Geochemistry Percentiles Table 9 - Rock Geochemistry Correlation Matrix Rimfire Minerals Corporation

5 4 LIST OF FIGURES Figure 1 Location Map... 6 Figure 2 Property Tenure... 7 Figure 3- Regional Geology Figure 4- Property Geology Volume II Figure 5- Soil Sample Locations Volume II Figure 5a- Soil Sample Gold Results Volume II Figure 5b- Soil Sample Arsenic Results Volume II Figure 5c- Soil Sample Silver Results Volume II Figure 5d- Soil Sample Lead Results Volume II Figure 5e- Soil Sample Antimony Results Volume II Figure 6-Rock Rock Locations Volume II Figure 6a- Rock Sample Gold Results Volume II Figure 6b- Rock Sample Arsenic Results Volume II Figure 6c- Rock Sample Silver Results Volume II Figure 6d- Rock Sample Antimony Results Volume II Rimfire Minerals Corporation

6 5 1.0 INTRODUCTION In the fall of 2008, Rimfire Minerals Corporation Rimfire carried out a geological, prospecting and geochemical sampling program on the Gillis property. RIO Minerals Ltd. ( RIO ) was contracted to carry out the majority of the soil sampling. The literature used in compiling this report consisted of government reports and maps, a previous assessment report, and unfiled data supplied by Rimfire. 2.0 PROPERTY TITLE The Gillis property consists of 14 contiguous mineral claims covering an area of approximately 62 km 2, as summarized in Table 1 (Figure 2). Rimfire optioned the GL1-5 claims from Ed Balon and Wojtek Jakubowski and later acquired the GIL6-10 claims through Mineral Titles Online. Table 1 - Gillis Tenure Claim name Tenure No. Area (Ha) Expiry Date GL December 31, 2014 GL December 31, 2014 GL December 31, 2014 GL December 31, 2014 GL December 31, 2014 GIL December 31, 2014 GIL December 31, 2014 GIL December 31, 2014 GIL December 31, 2014 GIL December 31, 2014 GIL December 31, 2014 GIL December 31, 2014 GIL December 31, 2014 GIL December 31, 2014 Total Not properly recorded as such in MTO. 2 Subject to approval of assessment work covered by this report Rimfire Minerals Corporation

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9 8 3.0 LOCATION, ACCESS AND GEOGRAPHY The Gillis property lies within the Nicola Mining Division. The Gillis property is centered 27.5 km southwest of the city of Merritt at latitude N, longitude W (UTM Zone 10: E, N) in NTS map area 92H/15. The western quarter of the property is located in 92H/14 (Figure 1). Access for the 2008 field program was by helicopter based in Merritt and through the use of the gravel forestry roads. The property can be reached by travelling south from Merritt approximately 30 km via Coldwater Road to the old community of Kingsvale, then west via the Maka-Murray (Gillis Lake) gravel forestry road system. This road passes through the northern portion and along the western side of the property over a distance of 18 km, eventually leads past Murray Lake to Exit 240 of the Coquihalla Highway 5, approximately 10 km south of the Gillis property. The eastern and southern portions of the claim block are accessed from the Larson Hill Exit 250 on Highway 5 via the Fig Lake and Fig Lake South forest service roads. This road begins about one km west of Kingsvale. A natural gas pipeline crosses the easternmost claim, and a high voltage electrical power line crosses the northern claims. Located within the Intermontane physiographic region of rolling upland terrain on the Southern Interior (Thompson) Plateau, the Gillis property has topography that is moderate to locally steep. Elevations range from about 800m (2,625ft) above sea level at Kingsvale near the eastern claim boundary to a high point of 1,890m (6,200 ft.) on a ridge in the south-central portion of the property. Local drainages on the eastern side of the Gillis property feed directly into the Coldwater River, and drainages to the west are tributaries of Maka Creek. Tributary streams in the southern half of the property have deeply incised v-shaped gullies. Soil and glacial till cover is extensive and generally shallow, but includes locally deep mounds (to >5m thickness) particularly along the eastern and western margins of the claim block at the lower elevations. Overall bedrock exposure is moderate to locally abundant in road cuts, higher subalpine areas, ridge tops and in upper parts of the stream gullies. Local ice flow direction is shown as southerly to southwesterly (GSC Map 889A) however no glacial striae have been observed in outcrop. Vegetation consists of widely spaced lodgepole pine and Douglas fir at the upper elevations and along ridges. These tree species change to dense balsam fir, spruce and cedar along creek valleys. Patches of aspen and dense brush consisting of alder and grey/red willow are common along most of the stream gullies and in swales between topographic highs. Areas of thick blow-down are typical in stream valleys and on north facing slopes. The northern portion of the Gillis claims around Gillis Lake has been selectively logged several decades ago. There are two old clear cuts that have been replanted along the western portion of the property. Clear-cut logging was active along the western margin of the Gillis claim at lower elevation along Maka Creek. There are recent cut blocks from the past few years that are located on the southern part of the Gillis claims. Cattle grazing is common throughout the area. Rimfire Minerals Corporation

10 9 The climate is semi-arid, with hot dry summers having temperatures that range from 25 0 to 35 0 C at Merritt. Most areas of the property are generally free of snow from late May or early June through October. 4.0 PROPERTY EXPATION HISTORY Prior to the work carried out by Almaden Minerals Ltd, there are no published records of any mineral exploration work in the area covered by the Gillis property and no old claim posts have been found there to date. The nearest known mineral occurrences documented in the BC MINFILE database (Nos. 092HNE045, 062,135,136) are located several kilometers to the northeast of the property. A federal-provincial government Regional Geochemical Survey was carried out in 1981 over the entire Hope (NTS 92H) map sheet. The initial results were published in 1982 as BC RGS 7/GSC Open File 865. The sediment sample pulps were re-analyzed in 1994 by improved techniques and for additional elements including gold. The new data was published as BC RGS 39/GSC Open File 2665 which identified two strong gold-insilt anomalies (12 ppb & 22 ppb Au) in tributaries of Maka Creek on the present western claim boundary, represented by the samples numbered (92H) and (Balon 2007). These two samples also contained elevated to highly anomalous levels of arsenic, antimony, mercury, and base metals. During the course of regional gold exploration in 2005, Almaden personnel (Balon, Tindle) re-sampled the two sites described above and conducted additional stream sediment sampling and reconnaissance prospecting in those and adjacent drainages. The results confirmed both the RGS anomalies and identified weakly anomalous gold-bearing quartz vein float upstream. These results prompted acquisition of the initial GL claims. Post acquisition in 2006, the exploration program consisted of 117 stream sediment samples and further prospecting and reconnaissance geochemical sampling (11 soils and 29 rocks). A 7.8 km soil grid was completed resulting in 159 soil samples being collected. Table 2 Summary of Previous Geochemical Sampling Year Silts Soils Rocks 2005 Almaden Almaden (reccie) 159 (7.8km, 200m by 50m, 3 lines) EXPATION PROGRAM In 2008, Rimfire carried out a mapping, soil sampling and prospecting program. The soil sampling portion of the program was contracted to RIO Minerals Ltd. This work focused on the western and northeastern sections of the property following up on gold in soil anomalies from Almaden s 2005/2006 exploration work. Personnel for this project Rimfire Minerals Corporation

11 10 (Tim Sullivan, Tom Fortier, and Sandra Bayliss) were based out of the Douglas Motel in Merritt, BC. Helicopter support was provided by Valley Helicopters Bell 206 stationed at their Merritt base. A magnetic declination of E was used for all compass measurements. All maps and UTMs are referenced to the 1983 North American Datum (NAD-83). Grid style soil samples were collected over 5 soil grids totaling km of soil lines for 1712 samples. All soil lines were orientated east-west along UTM grid lines, and sampling was carried out using hip chain and compass, in combination with GPS locations (Figure 5). Soil lines were flagged using orange flagging and sample locations were identified using marked blue and orange flagging tape. Good soil development allowed for soil samples to be collected from the B soil horizon, which was typically at a depth of 15-35cm. Two infill lines were carried out by Rimfire personnel and these sample locations were flagged similar to the RIO sites but with Tyvex tags for sample identification. Rock samples were taken from mineralized and altered rocks during the course of prospecting and mapping. A total of 55 samples were taken by employees of Rimfire Minerals (Tim Sullivan, Tom Fortier, and Sandra Bayliss). An additional 6 samples were taken by RIO Minerals during the course of the soil sampling program. Three rock samples taken by David Caulfield during the one day property exam that was carried out during July Rock sample descriptions are attached in Appendix C. Rock sample sites were marked in the field by pink and blue flagging and aluminum tags. The 2008 geological mapping and sample locations are shown in Figure 4 and 6, respectively. All samples were packed in rice sacks and delivered to ALS Chemex in North Vancouver where they were analyzed for Au ( ppb) by fire assay (30 g nominal weight) with aqua regia digest (Au-AA23) and overlimits Au (Au-GRA21). A 35- element ICP-AES aqua regia digest (ME-ICP41) was used to determine other trace elements. Overlimit Ag analysis was used on all samples containing >100ppm Ag (Ag- OG46) (Appendices D, E). Where available, the assays were used for plotting and calculations. 6.0 REGIONAL GEOLOGY The following regional geology description is an excerpt from Balon s 2007 report with minor modifications. The Gillis property lies within the southern Intermontane Belt of the Canadian Cordillera. The regional bedrock geology is shown on Figure 3 compiled and simplified from GSC Maps (Hope, by J.W.H. Monger, 1989) and (Ashcroft, by J.W.H. Monger and W.J. McMillan, 1989). Figure 3 shows lithologies that include successions of Mesozoic to Tertiary volcanic and sedimentary rocks which have been intruded by plutons of various compositions and ages from Late Triassic and/or Jurassic to Miocene (?). Glacial Rimfire Minerals Corporation

12 11 movement from the last Pleistocene glaciation was generally south-southwest in the Gillis area (GSC Map 889A). Locally thick deposits of Pleistocene and recent glacial drift and alluvium are present in all of the major creeks or river valleys. Areas north and east of the Gillis property including the northern extent of the Gillis property are underlain by the Cretaceous Spences Bridge Group (KSB) rocks. The Cretaceous Spences Bridge Group comprise a broad northwest-southeast trending belt of gently folded volcanics with lesser sediments, having variably oriented and generally shallow to moderate dips. A lower assemblage, called the Pimainus Formation, includes intermediate to locally felsic and mafic flows, and volcaniclastics with some sandstone and shale. A basal conglomerate is also present in many locations. An upper division, currently known as the Spius Formation (KSBs), consists primarily of amygdaloidal basaltic andesite lavas with minor pyroclastics and sandstone. This upper division was formerly called the Kingsvale Group by earlier Government geologists (Rice, 1947; Duffell and McTaggart, 1952; and others before Thorkelson, 1985). The Spences Bridge Group unconformably overlies older plutonic and volcanic units exposed on the central and southern Gillis claims and in large areas to the west and south of the property. The plutons include dioritic rocks of the Triassic-Jurassic Mount Lytton Complex (TrJgd) and granodiorite to granite of the Jurassic-Cretaceous Eagle Plutonic Complex (JKgd). These granitoid complexes are collectively referred to as Permian-Jurassic intrusions (PJi) in some recent Government publications (e.g. BC GSB Open File ). The older volcanic units consist mainly of mafic to felsic pyroclastics of the Triassic Jurassic Nicola Group (TrJN). Minor marble and clastic metasediments are also found in the Nicola sequence. Spences Bridge Group rocks are unconformably overlain by Eocene Princeton/Kamloops Group mafic and felsic volcanics. Small Tertiary intrusions of intermediate composition occur locally in contact with the Eocene and Spences Bridge units. Steeply dipping normal faults are the major structural feature in the region. The Spius Creek Fault is a probable southern extension of the Lornex (Big Divide) Fault which transects the Guichon Batholith in the north-central area of Figure 3. The Coldwater, Fig and Kingsvale Faults, roughly parallel to the Spius Creek-Lornex Fault, follow the valley of the Coldwater River. Although regional faults have been mapped with a variety of attitudes, the dominant trends are (Lornex, Spius, Fig, etc, faults) and (Fraser River Fault system). It can be postulated that the Spences Bridge Group represents a stratovolcano assemblage deposited and preserved in a subsiding, fault-bounded basin called the Nicoamen structural depression. Rimfire Minerals Corporation

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15 13 Low sulphidation type epithermal gold mineralization hosted by quartz veins and breccia in altered Spences Bridge volcanics has been found from the Brookmere to the Skoonka Creek properties, a distance of 90 kilometres (Figure 3). Major mineral deposits in the region include those of the world-class porphyry copper producing Highland Valley district, hosted by Triassic-Jurassic intrusive rocks (Guichon Batholith), and the Craigmont copper-iron skarn deposit, hosted by Triassic Nicola Group sediments and limy tuffs. 7.0 PROPERTY GEOLOGY Mapping in 2008 was focused on the western portion of the Gillis property in the area of anomalous soil and stream sediment geochemistry. However, some mapping was carried out on the rest of the property (Figure 4). 7.1 Lithology Upper Triassic Nicola Chlorite/Sericite Schists(Unit TrJN) The Upper Triassic Nicola Group is of interest on the Gillis property because anomalous gold and silver-bearing quartz veins found to date are located primarily within this unit. This unit includes chlorite schist, sericite schist and minor amounts of silty limestone. The chlorite schist is characterized by a dark green colour, a strong foliation fabric and locally, intense fracturing. Some outcrops show relict plagioclase phenocrysts within the chlorite schist. A leucocratic variety of the chlorite schist occurs where sericitization and silicification has altered the schist. The foliation and fractures are still visible in these leucocratic outcrops. The silty limestone occurs as thin lenses interlaminated within the chlorite schist in the sub-alpine region and as a thicker more continuous unit lower down in one of the drainages that drains into Maka Creek on the western part of the Gillis property. The limestone is host to the Fort showing quartz vein which returned ppm Au and 201 ppm Ag (Sample G001310). Permian to Jurassic Diorite/Mylonitic Granite (LTrd) The northern quarter of the property is underlain by plutonic basement rocks that are part of an unnamed diorite intrusion according to current government maps. These units have undergone deformation similar to the Upper Triassic Nicola Group rocks. The area mapped as this unit contains minor amounts of Nicola Group chlorite schist but is predominately granite with gneissic texture due to mylonitic strain. The granitic intrusive is pink in colour and the mafic minerals have been altered to chlorite and epidote. The other main unit is diorite that appears to be part of the Nicola Group rocks and has also undergone deformation. This diorite is fine-grained, plagioclase phyric, and is mafic-rich, imparting a medium grey colour to the rock. These three rock types vary greatly throughout this unit from metre to hundred metre scale. Jurassic Diorite (Jd) An undeformed equigranular, fine- to coarse-grained, hornblende and biotite-rich diorite occurs in the southern part of the property (South Diorite). The mafic minerals within this diorite have been weakly altered by chlorite and epidote. Rimfire Minerals Corporation

16 14 Cretaceous/Tertiary Quartz Feldspar Porphyry - Otter Suite Intrusion (TrJg) Pink feldspar +/- quartz porphyry, thought to be analogous to the Cretaceous/Tertiary Otter Suite of intrusions, is exposed along logging roads in the southeast corner of the property. Plagioclase feldspar phenocrysts range up to 0.5cm and are contained within an aphanitic pink groundmass. Quartz phenocrysts are not as large or as common as feldspar phenocrysts. This unit is monzonitic in composition but can be considered a quartz monzonite in places where quartz phenocrysts are present or quartz can be identified as a microscopic intergrowth with the potassium(?) feldspar (GSC Map 888A). Dykes of this unit can be seen within the South Diorite mentioned above and the Triassic Nicola Group chlorite schist observed to the north. This intrusive unit is shown as older on GSC Map 888A but has since been removed from more current BC geology maps. Both the South Diorite and quartz feldspar porphyry units are non-foliated and do not appear to have undergone the same deformation as the foliated chlorite/sericite schist of the upper Triassic Nicola Group and the intrusive units to the north. Tertiary Dykes Andesite dykes crosscut many of the map units. These dykes are not large enough to be considered a mapable unit and don t appear on the property geology map. These dykes range from being aphanitic to porphyritic with phenocrysts of plagioclase, hornblende and pyroxene. The andesite dykes vary in colour from a light greenish grey to a dark grey. Rhyolite dykes crosscut the quartz feldspar porphyry mapped along a logging road in the southeast corner of the property. Both rhyolite and andesite dykes are abundant at this location occupying fault structures striking approximately north-south and dipping vertical to subvertical. Cretaceous Paleogene Princeton Group (PgTS) The Princeton Group sediments can be found on the eastern side of the Gillis property. Princeton Group sediments are characterized mainly by shales, sandstones and conglomerates with interbedded coal seams. On the eastern side of Gillis property along the pipeline right of way, there is a good exposure of this unit. At this location, the Princeton Group sediments are dominated by inter-bedded sandstone and shale with a centimeter size coal seam. 7.2 Structure The pre-tertiary lithologies in the northern three quarters of the Gillis property have undergone significant structural deformation and this deformation is most apparent in the chlorite/sericite schists of the Nicola Group and is also be seen in the gneiss and diorite in the north. The dominant foliation has a strike ranging from 289 o to 020 o and dipping vertically to sub-vertical to the east. There is a prominent fracture set that strikes between 232 o to 288 o and dips vertical to sub-vertical. The foliation can also be observed in the limestone unit but isn t as distinctive. The diorite to the north has undergone some structural deformation. The rocks have a localized shear fabric but an S1 foliation is not easy to measure obvious. Rimfire Minerals Corporation

17 Alteration Quartz veining and silicification are the dominant types of alteration noted. Silicification around the quartz veins is usually observed in combination with the presence of pyrite, some of which occurs as large cubic grains. In the sub-alpine area, clay alteration and sericitization manifests itself as distinctive bleaching associated with a number of faults in the chlorite/sericite schist. 7.4 Mineralization To date, all mineralization on the property is concentrated in quartz veins with varying appearance, thicknesses and orientations. Different styles of veins include milky white quartz, fractured more translucent bull quartz containing sericite, and quartz- Fe carbonate veins. There is a spectrum between these styles of veins. Sulphide minerals observed in the veins consist of pyrite and lesser amounts of galena, chalcopyrite, sphalerite and in one area (Fort Showing), a soft silvery mineral that may possibly be boulangerite. The most common type of mineralized quartz veining is the fractured quartz type which is typically seen in conjunction with sericite and pyrite along fractures with trace chalcopyrite, sphalerite and more importantly, galena whose presence is usually accompanied by elevated gold and silver values (SAV showing). Sulphide minerals, when present, are often found along the edge of the vein structure or within suture-like fractures parallel to the vein walls. These features may also contain sericite. There are also a number of larger veins in the area of the SAV showing orientated approximately 300 o that are up to 3 m wide and contain siderite and calcite often as secondary veinlets cutting the larger quartz veins. Rarely, galena and chalcopyrite are found in these veins; however, these larger veins do not have anomalous gold or silver values Fort Showing The Fort showing (Figure 6) is located at sample G on the western side of the property. Silty limestone is host to an undulating milky white quartz vein that is exposed in the creek bed. The vein contains less than 0.5% metallic minerals including black jack sphalerite and a soft silvery-grey mineral with a grey streak tentatively identified as boulangerite. Three 5-10 m sections of quartz veining are exposed in the creek bottom, separated by 10 m sections of poor exposure due to overburden. This vein differs from other auriferous quartz veins on the property in the texture of the quartz and the mineralogy. There is no pyrite, chalcopyrite, or noticeable galena. Sample G was taken from the main vein which trends 240 o and appears to be steeply dipping and is a maximum width of 1 m. Downstream, there are ten or more veins that are no more than 5 cm in width that strike essentially north-south. These smaller veins had no visible sulfides/sulphosalts. More sampling is needed to help constrain the extent of mineralization at the Fort showing. Sample G returned values as seen below Rimfire Minerals Corporation

18 16 (Table 3) and also includes anomalous Bi (35 ppm) and Hg (7 ppm); As and Cu are noticeably absent. Table 3 - Fort Rock Samples Sample Type Au (ppb) Ag (ppm) As (ppm) Cu (ppm) Pb (ppm) Sb (ppm) Zn (ppm) G Grab G Grab wall rock G Grab sm. vein E N Soil above G Two additional samples were taken G and G001915, one of the strongly silicified limestone/marble wall rock with large cubic pyrite and one from a smaller 5 cm wide vein that is part of a swarm of quartz veins 15 m downstream from sample G001310; neither of these samples are strongly mineralized SAV Showing (subalpine vein) A vein hosted within Nicola Group chlorite schist, measuring approximately 20 cm wide, is located to the east of the Fort showing in the subalpine area. The vein is exposed for 30 to 50 m and is oriented 300 o /48 o which is parallel to the main fracture orientation within the chlorite schist. The quartz is not as milky white as the Fort showing and appears more fractured. The vein has 1-2% galena and trace amounts of chalcopyrite and pyrite. This vein also contained trace amounts of honey coloured sphalerite. This vein has been sampled in three locations (Samples G to G001808). Sample G was taken from a similar style of veining located approximately 75 m north. From Table 4, it is clear that these veins differ from the Fort vein by the lack of Sb and Hg. Table 4 - SAV Rock Sample Highlights Sample Type Au (ppb) Ag (ppm) As (ppm) Cu (ppm) Pb (ppm) Sb (ppm) Zn (ppm) G Float + Grab < <2 161 G Grab < G Grab <2 457 G Float South Side The South Side, located south of the Fort showing, was highlighted by anomalous gold soil values that resulted in the discovery of two rock samples with anomalous gold values of >1 ppm. This area has poor exposure but the float samples are locally derived. Rimfire Minerals Corporation

19 17 Soil samples in this area are strongly gold anomalous with a maximum value of 1380 ppb Au (sample 27500N 43000E). The quartz vein float that was sampled here is similar to the veining at the SAV showing with a lower percentage of galena and overall fewer sulphides (< 0.5%) Highlights from the South Side are listed in Table 5. Sample G is comprised of two small intersecting veins that were 2 cm wide and were exposed for approximately 2 m. Sample G was taken from a 30 cm vein exposed over a metre. Like the SAV showing, the South Side gold-rich samples lack Sb and Hg. Table 5 - South Side Rock Samples Highlights Sample Type Au (ppb) Ag (ppm) As (ppm) Cu (ppm) Pb (ppm) Sb (ppm) Zn (ppm) Float <2 22 G Grab <2 11 G Float < <2 16 G Float G Grab < GEOCHEMISTRY Geochemical sampling during the 2008 field season included two coarse soil grids (200 m lines, 50 m sample spacing) and three smaller infill grids (two with 50 m lines and 25 m sample spacing; one with 100 m lines and 50 m sample spacing) to better constrain anomalous areas obtained from previous sampling campaigns. Rock samples were also taken from a variety of locations throughout the property focusing on the western areas that have known anomalous soil values. 8.1 Soil Geochemistry Grids were positioned to follow up on anomalous soil and rock values from the 2006 field season. These grids consisted of the South Grid on the south and western part of the Gillis property with three smaller infill grids and a second coarse grid to the north (North Grid). Sample results are shown on Figures 5a-5e and percentile levels and correlations for the data set are given in Tables 6 and 7. Table 6 - Soil Geochemistry Percentiles Percentiles Au (ppb) Ag (ppm) As (ppm) Pb (ppm) Sb (ppm) Zn (ppm) 50 th 5 < < th th th th Max Value Rimfire Minerals Corporation

20 18 The South Grid and the three smaller infill grids (Small Grid 1-3) all returned some values that are within 98 th percentile for Au. Soil samples that contained >53 ppb Au (95 th percentile) are considered strongly anomalous and those Au values >12 ppb (75 th percentile) are considered to be weakly anomalous. For the smaller infill grids, 70% of the values are weakly to strongly anomalous in Au with a maximum value of 1350 ppb gold (Sample N 43000E). The bedrock source for this particular sample, which is bracketed by samples of 548 and 110 ppb Au, has not been found; outcrop exposure is poor in this area. One quartz float sample (G001824) taken south of this area did return anomalous Au (821 ppb) and Ag (38.4 ppm). There are three main areas of interest centered around each of the infill grids on the South Grid. These areas are all underlain by Nicola Group foliated chlorite schist and limestone. The anomalous soil samples show some subtle trends that can partially be accounted for by downhill dispersion. However, some anomalous trends are likely a result of the underlying orientation of the vein structures, showing NNW and NW trends. These patterns can also be seen in As, Sb and Ag. The trend of anomalous Au samples stops abruptly at line N suggesting that an east-west fault exists at this location. With the exception of Ag and Co, there is little correlation between Au and any of the other elements listed in Table 7. On an individual basis, many of the anomalous Au soil samples also had anomalous values in one of the following elements: Pb, Zn, As, Sb, Bi and Cu. For example, Pb often correlates with anomalous Au values, however, anomalous Pb values found in the southeast corner of the South Grid lack anomalous Au. The poor overall correlation is likely a result of different styles of gold mineralization where certain elements can be elevated or absent (see Section 7.4). If one looks at one element, As, there are anomalous soil trends without elevated Au, trends coincident with Au and trends slightly offset from an adjacent anomalous Au trend. Silver on the other hand, correlates well in all the vein types and this is reflected in the correlation matrix for the soil samples. Table 7 - Soil Geochemistry Correlation Matrix Au Ag As Cu Mo Pb Zn Sb Co Bi Ni Au ---- Ag As Cu Mo Pb Zn Sb Co Bi Ni Rimfire Minerals Corporation

21 19 It is apparent from the soil geochemical sampling that this exploration technique is effective in outlining mineralized trends and there remain significant multielement anomalies that have yet to be investigated or explained by the rock sampling to date. The North Grid, unlike the South Grid, contains only scattered Au, As and Pb anomalies; considering the coarse sample grid employed, some of these anomalies may show continuous trends under a tighter sampling regime. 8.2 Rock Geochemistry: Regional Prospecting A two week prospecting program carried out during October 2008 was designed to follow up anomalous silt and soil samples from the 2006 field season. Samples taken consisted primarily of quartz veins and quartz vein float and in some cases, wall rock surrounding vein exposures. Sample locations are shown on Figure 6; results on Figures 6a-d. Percentile levels and correlations for the data set are given in Tables 8 and 9. Anomalous samples comprise the 3 main areas of interest mentioned earlier in section 6.4 Mineralization: Fort showing, SAV showing and the South Side area. Ten samples taken had values greater than 439 ppb Au (90 th percentile). The goldbearing samples show a strong correlation with Sb and Ag and to a lesser extent Pb and Bi. As might be expected, there is a strong correlation between Ag and Pb. The Au:Ag ratio for anomalous gold samples is approximately 1:10. Table 8 - Rock Geochemistry Percentiles Percentiles Au (ppb) Ag (ppm) As (ppm) Pb (ppm) Sb (ppm) Zn (ppm) 30 th th th th th th Max Value Table 9 - Rock Geochemistry Correlation Matrix Au Ag As Cu Mo Pb Zn Sb Co Bi Au ---- Ag As Cu Mo Pb Zn Sb Co Bi Rimfire Minerals Corporation

22 CONCLUSIONS The 2008 exploration program successfully located gold and silver-bearing quartz veins in three separate areas on the Gillis property. A model that can be used to describe the mineralization is still unclear as the mineralization doesn t resemble the significant gold systems known in the region: epithermal occurrences in the Spences Bridge Group and intrusive-hosted mesothermal veins as at the Siwash deposit, east of Merritt. The quartz veining does not have obvious epithermal textures or geochemistry as the Spences Bridge volcanic-hosted mineralization found to the north and east of the Gillis. The foliated Nicola Group, host rocks to the gold-bearing veins, are unique to the Gillis property and the high silver-gold ratio also distinguishes Gillis mineralization from the type occurrences in the region. From the work to date, there appears to be two distinct styles of mineralized quartz veining on the Gillis property in addition to the barren quartz veins. The gold-bearing veins are consistently enriched in Ag and Pb but other pathfinder elements are variable. The Fort showing is located in limestone on the western half of the property in one of the creek gullies that drains in to the Maka Creek. The highest Au grades to date have come from this location with sample G returning ppm Au and 201 ppm Ag from a 30 cm wide sample. The overall quartz vein width is thought to be 1 m. More sampling is necessary to help constrain the extent of mineralization at this location. Two additional samples were taken, one from strongly silicified limestone/marble wall rock with large cubic pyrite and one from a smaller 5 cm wide vein that is part of a swarm of quartz veins 15 m downstream from sample G001310; neither of these samples were strongly mineralized. G001310, while containing impressive precious metal values, is not visually well mineralized with <0.5% metallic minerals. As such, it will take considerable control sampling of this vein and the other veining exposed in this area to determine how much is gold-bearing. Soil sample E N taken directly above sample G return a value of 281 ppb Au. There are many soil samples in South Grid with values in this range; this bodes well for finding additional gold mineralization on the property. The SAV showing is located in the subalpine 2 km southeast of the Fort showing. The SAV showing is comprised of three anomalous grab samples and one float sample that returned values of 1060 ppb, 1445 ppb, 3710 ppb and 3910 ppb. The grab samples are part of a 20 cm wide vein that has an orientation of 300 o /48 o and can be traced along strike for approximately m. The mineralization at this location differs from the Fort showing in terms of the type of quartz veining, associated mineralization and host rock. The soil sample coverage does not extend this far east and future programs should rectify this short coming to aid further prospecting in the surrounding area. The South Side describes an area outlined by very anomalous, multi-element soil geochemistry and a few gold-bearing float samples that were taken 1 km SSW of the Fort Showing. There is limited exposure at this location and the majority of sampling was of Rimfire Minerals Corporation

23 21 small pieces of vein float located around anomalous soil sample sites with the highest gold value in sample which returned 2940 ppb Au. The soil surveys have proved to be a very useful tool for identifying search areas to focus further exploration. Poor exposure at the lower elevations made prospecting anomalous parts of the soil grid difficult; however, float samples that were taken quite often returned positive results. The size of the soil geochemical response is too expansive to be the result of dispersion from a single vein. The broad, strong soil geochemical response and anomalous trends can only be partially explained by vein orientations being aligned at an acute angle to the soil lines in combination with slope dispersion. Constraining the orientation of the known veining may help us to better understand this vast area of anomalous soil geochemistry. Subsequent field work should focus on exposing the Fort showing and identifying the source of the geochemical soil anomalies through trenching. Undoubtedly, this work should help constrain the size, and orientation of the mineralization and help formulate an exploration model for the project. Rimfire Minerals Corporation

24 Appendix A: References

25 BIBLIOGRAPHY BALON, E.A. 2007: 2006 Geochemical, Geological, Prospecting and Trenching Report, PONDEROSA Property, Nicola Mining Division, BC. (BCGS AR 28830) BRITISH COLUMBIA MAPPLACE website: DUFFELL, S. AND MCTAGGART, K. C.1952: Ashcroft Map-Area, British Columbia (BC); Geological Survey of Canada (GSC) Memoir 262, p , (Spences Bridge Group and Kingsvale Group) 1951: GSC map 1010A; Ashcroft, BC; scale 1:253,440. JACKAMAN, W. AND MATYSEK, P. F.1994: British Columbia Regional Geochemical Survey, NTS 92H - Hope, (BC RGS 39/GSC OF 2665), Stream Sediment and Water Geochemical Maps & Data. MEYERS, R.E.; MOORE, J.M.; HUBNER, T.B. AND PETTIPAS, A.R. 1989: Metallogenic Studies in South- Central British Columbia: Mineral Occurrences in the Nicola Lake Region (92I/SE), in Exploration in British Columbia 1989, pp MONGER, J. W. H. AND MCMILLAN, W. J. 1989:Geology, Ashcroft BC; GSC Map , sheet 1, scale 1:250,000. MONGER, J. W. H. 1989: Geology, Hope, BC; GSC Map , sheet 1, scale 1;250, : Structural Evolution of the Southwestern Intermontane Belt, Ashcroft and Hope Map Areas, BC, in Current Research, Part A, GSC Paper 85-1A, p : Geology of Parts of Western Ashcroft Map Area, southwestern BC; in Current Research, Part A, GSC Paper 81-1A, p RICE, H. M. A.1947: Geology and Mineral Deposits of the Princeton Map-Area, BC; GSC Memoir 243 incl. Maps 888A and 889A. RYDER, J. M. 1975: Quaternary Geology - Terrain Inventory, Lytton Map-Area, BC (92I/SW); in Current Research, Part A, GSC Paper 75-1A. SOUTHER, J. G.; GABRIELSE, H. AND YORATH, C.J. (ed.) 1991: Volcanic Regimes, Chapter 14 in Geology of the Cordilleran Orogen in Canada, Geology of Canada, no.4, p (also Geological Society of America, The Geology of North America, v. G-2). THORKELSON, D. J. 1986: Volcanic Stratigraphy and Petrology of the Mid-Cretaceous Spences Bridge Group near Kingsvale, Southwestern BC; M. Sc. Thesis, The University of British Columbia. 1985: Geology of the Mid-Cretaceous

26 24 Volcanic near Kingsvale, Southwestern BC; in Current Research, Part B, GSC Paper 85-1B, p Rimfire Minerals Corporation

27 Appendix B: Statement of Expenditures

28 STATEMENT OF EXPENDITURES Gillis Property September 29, October 19, 2008 PROFESSIONAL FEES AND WAGES: Sandra Bayliss, Contract Geologist $425/day 15, David Caulfield, Supervising Geologist 9.00 $525/day 4, Rob Duncan, Manager Exploration 8.63 $475/day 4, Tim Sullivan, Prospector $400/day 6, Tom Fortier, Prospector $400/day 6, Wes Hodson, Drafting/Logistics $75/hour 12, Clerical 5.00 $35/hour $ 49, EQUIPMENT RENTALS Rental Truck Insurance $10/day EXPENSES: Accomodation $ 6, Aircraft & Helicopter 44, Airfare/Airport Taxes 1, Automotive Expenses 1, Camp Food 1, Camp Rentals - Chemical Analysis 48, Communications 1, Contract Sampling Crews 39, Customs & Brokerage Fees - Data Management/GIS 1, Drilling & Trenching - Equipment Rental - Expediting - First Aid First Nations Consultation - Freight Geophysical - Linecutting - Materials & Supplies 1, Meals 3, Printing, maps & reproductions Project Management Fees - Reclamation - Taxi/Bus - Vehicle Rentals 4, Report (estimated) TOTAL: $ 157, ,878.74

29 Appendix C: Rock Descriptions

30 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Grid East: Grid North: Type: chip Alteratio limonite Au-ICP-ppb Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 0 Ag-ICP-ppm 4.3 Pb-ICP-ppm 3 Elevatio 1765 Sample Width: True Width: 20 Secondarie As-ICP-ppm 2 Sb-ICP-ppm Host : in contact w/andesites Sampled By: Grid East: Grid North: Type: chip Alteratio Au-ICP-ppb Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 1 Ag-ICP-ppm -0.2 Pb-ICP-ppm 2 Elevatio 1672 Sample Width: True Width: Secondarie As-ICP-ppm 5 Sb-ICP-ppm Host : minor sulfides Sampled By: Grid East: Grid North: Type: grab Alteratio Au-ICP-ppb Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 5 Ag-ICP-ppm 0.2 Pb-ICP-ppm 3 Elevatio 1046 Sample Width: True Width: 15 Secondarie As-ICP-ppm 5 Sb-ICP-ppm Host : limonitic massive parallel veins present Sampled By: area of many veins in outcrop possible galena in blebs Grid East: Grid North: Type: grab Alteratio minor vugs Au-ICP-ppb Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 5 Ag-ICP-ppm 10.9 Pb-ICP-ppm 6 Elevatio 1816 Sample Width: True Width: 15 Secondarie As-ICP-ppm 2 Sb-ICP-ppm Host : malchite/azurite staining py/chal as blebs and Sampled By: located at end of line Grid East: Grid North: Type: grab Alteratio limonite on Au-ICP-ppb Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 1 Ag-ICP-ppm 0.8 Pb-ICP-ppm 3 Elevatio 1735 Sample Width: True Width: 0 Secondarie As-ICP-ppm 3 Sb-ICP-ppm Host : massive with 1% py as blebs Sampled By: Friday, February 20, 2009 Rimfire Minerals Corporation Page 1 of 20

31 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Grid East: Grid North: Type: grab Alteratio minor vugs Au-ICP-ppb Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 2 Ag-ICP-ppm 3.1 Pb-ICP-ppm 2 Elevatio 1810 Sample Width: True Width: 0 Secondarie As-ICP-ppm 4 Sb-ICP-ppm Host : located near sample Sampled By: minor vugs and dissem py Grid East: Grid North: Type: Float Alteratio sqz wak Au-ICP-ppb 23 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: trcp trpy Ag-ICP-ppm 3 Pb-ICP-ppm 30 Elevatio 1580 Sample Width: True Width: Secondarie wge vwhe trmc As-ICP-ppm 74 Sb-ICP-ppm -2 Host : Qtz vein with foliated Nicola Volc. Wallrock Sampled By: Dave Caulfield 13m SSW of soil station 7600N/3350E (29.7ppb AU). Up 30cm angular float (local). QZ vein float cockscomb lined cavities. Foliation 135/75 SW. Pinch & swell to veining. SW trend to float Grid East: Grid North: Type: Float Alteratio wms sqz Au-ICP-ppb 2490 Bi-ICP-ppm 19 Gillis UTM E UTM N Strike Length Metallics: 1%GL 1%PY Ag-ICP-ppm 112 Pb-ICP-ppm 1470 Elevatio Sample Width: True Width: Secondarie wge vwhe As-ICP-ppm 12 Sb-ICP-ppm -2 Host : Qtz float Sampled By: Dave Caulfield composite from two locations of qz float up slope NE of soil 7600N 3000E Grid East: Grid North: Type: Float Alteratio mms wak Au-ICP-ppb 5 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: trpy Ag-ICP-ppm 0.5 Pb-ICP-ppm 6 Elevatio 1620 Sample Width: True Width: Secondarie wge As-ICP-ppm 18 Sb-ICP-ppm -2 Host : Qtz vein float Sampled By: Dave Caulfield steep slope up from flats with anamalous Au soils. Bullish qtz with traces of PY in several locatoins along slope G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 49 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1833 Sample Width: True Width: Secondarie Gillis 300 Host : As-ICP-ppm 11 Sb-ICP-ppm -2 Sampled By: Tom Fortier Friday, February 20, 2009 Rimfire Minerals Corporation Page 2 of 20

32 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 5 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 3-4 Metallics: Ag-ICP-ppm -0.2 Pb-ICP-ppm 23 Elevatio 1854 Sample Width: True Width: Secondarie Gillis Host : As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tom Fortier G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 5 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1400 Sample Width: True Width: Secondarie Gillis 320 Host : As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tom Fortier G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 8 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 1-2 Metallics: Ag-ICP-ppm 0.2 Pb-ICP-ppm 101 Elevatio 1586 Sample Width: True Width: Secondarie Gillis 320 Host : As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tom Fortier G Grid East: Grid North: Type: Select Alteratio Au-ICP-ppb -5 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1836 Sample Width: True Width: Secondarie Gillis 300 Host : As-ICP-ppm 4 Sb-ICP-ppm -2 Sampled By: Tom Fortier G Grid East: Grid North: Type: Grab Alteratio Au-ICP-ppb -5 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1500 Sample Width: True Width: Secondarie Gillis 220 Host : As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tom Fortier Friday, February 20, 2009 Rimfire Minerals Corporation Page 3 of 20

33 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 401 Bi-ICP-ppm 2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 4.9 Pb-ICP-ppm 35 Elevatio 1505 Sample Width: True Width: Secondarie Gillis 120 Host : As-ICP-ppm 3 Sb-ICP-ppm -2 Sampled By: Tom Fortier Found above Creek G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 24 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1500 Sample Width: True Width: Secondarie Gillis 110 Host : As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tom Fortier G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 9 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1540 Sample Width: True Width: Secondarie Gillis 70 Host : As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tom Fortier G Grid East: Grid North: Type: Grab Alteratio sqz Au-ICP-ppb Bi-ICP-ppm 35 Gillis UTM E UTM N Strike Length 5 Metallics: 1%SP, unknow Ag-ICP-ppm 201 Pb-ICP-ppm 732 Elevatio 1349 Sample Width: 25 cm True Width: Secondarie Gillis Vein 90 Host : Silty Lmst As-ICP-ppm 6 Sb-ICP-ppm 32 Sampled By: Tom Fortier Found in creek bed outcropping. Surrounded by lmst, QZ vein has brecciated the Lmst in some areas. Very clean bull QZ. More veins but smaller with no mineralization. G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 168 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 1.9 Pb-ICP-ppm 9 Elevatio 1305 Sample Width: True Width: Secondarie Gillis 50 Host : As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tom Fortier Found in Creek Friday, February 20, 2009 Rimfire Minerals Corporation Page 4 of 20

34 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Float Alteratio Au-ICP-ppb 26 Bi-ICP-ppm 2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.7 Pb-ICP-ppm -2 Elevatio 1568 Sample Width: True Width: Secondarie Gillis Host : As-ICP-ppm 3 Sb-ICP-ppm -2 Sampled By: Tom Fortier G Grid East: Grid North: Type: Float Alteratio wcl,wms,sqz Au-ICP-ppb 16 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 1 Metallics: trgl,trpy Ag-ICP-ppm -0.2 Pb-ICP-ppm 39 Elevatio 1742 Sample Width: 10 cm True Width: 10 cm Secondarie sge,mmn,mak Gillis Host : QZ vein in Greenstones As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Quartz float local subcrop possibly striking downhill NE into/out of possible fault zone striking E/W. Saw stockwork in Float boulder in gully possible fault below. G Grid East: Grid North: Type: Float Alteratio wcl,wms,sqz Au-ICP-ppb 13 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 1 Metallics:?AS,trGL,trPY Ag-ICP-ppm -0.2 Pb-ICP-ppm 44 Elevatio 1737 Sample Width: 30 cm True Width: 30 cm Secondarie sge,whe,mak Gillis Host : QZ vein in Metagreenstones As-ICP-ppm 4 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Located just downslope of G G Grid East: Grid North: Type: Float Alteratio mcl,wms,sqz Au-ICP-ppb 39 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics:?AS,trPY Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1737 Sample Width: 15 cm True Width: 15 cm Secondarie sge,mmn Gillis Vein Host : QZ vein in morphed Greenstones As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan G Grid East: Grid North: Type: Grab Alteratio wms,sqz Au-ICP-ppb 17 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 50 Metallics:?AS,<1%CP Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1794 Sample Width: 50 cm True Width: 50 cm Secondarie mge,wmc Gillis Vein Host : Greenstones As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Huge vein up to 3m wide in places with real fine spotty chalco mineralization related to light green possible serricite. Friday, February 20, 2009 Rimfire Minerals Corporation Page 5 of 20

35 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Grab Alteratio wms,sqz Au-ICP-ppb 7 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 50 Metallics:?AS,trCP,?PY Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1800 Sample Width: 50 cm True Width: 50 cm Secondarie mge,wja,trmc Gillis Vein Host : As-ICP-ppm 4 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Vein is 3m wide and consistante very weak mineralization but impressive in size. G Grid East: Grid North: Type: Float + Grab Alteratio mms,sqz Au-ICP-ppb 1060 Bi-ICP-ppm 2 Gillis UTM E UTM N Strike Length 50 Metallics: 2%GL,1%PY,trSP Ag-ICP-ppm 94.1 Pb-ICP-ppm 1000 Elevatio 1778 Sample Width: 20 cm True Width: 20 cm Secondarie mge,mmn Gillis Vein 300 Host : Greenstone As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Some float on strike with nice vein further west, veins are striking 300 parallel with cross cutting fractures in Greenstone in this area some honey sphalerite. G Grid East: Grid North: Type: Grab Alteratio mms,sqz Au-ICP-ppb 3910 Bi-ICP-ppm 3 Gillis UTM E UTM N Strike Length 30- Metallics: trcp,3%gl,1%py Ag-ICP-ppm 213 Pb-ICP-ppm 4580 Elevatio 1786 Sample Width: 20 cm True Width: 20 cm Secondarie mge,mhe,wmc, Gillis Vein Host : Schistose mafic sediments As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Nice vein 20 cm wide possibley continues greater than 50 m Parrallels cross cutting consistant fractures in surrounding greenstones. G Grid East: Grid North: Type: Grab Alteratio mms,sqz Au-ICP-ppb 1445 Bi-ICP-ppm 2 Gillis UTM E UTM N Strike Length 30- Metallics: 2%GL,1%PY,<1 Ag-ICP-ppm 88.4 Pb-ICP-ppm 1580 Elevatio 1786 Sample Width: 20 cm True Width: 20 cm Secondarie wge,whe Gillis Vein Host : Schistose mafic sediments As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Same vein as G and G G Grid East: Grid North: Type: Local Float Alteratio sms,mqz Au-ICP-ppb 3710 Bi-ICP-ppm 6 Gillis UTM E UTM N Strike Length Metallics: trgl,<1%py,trsp Ag-ICP-ppm 144 Pb-ICP-ppm 2700 Elevatio 1770 Sample Width: 20 cm True Width: 20 cm Secondarie sge,wmn Gillis Vein+Joint 300 Host : Serricite altered volcanic sediments As-ICP-ppm 20 Sb-ICP-ppm 2 Sampled By: Tim Sullivan Related to large QZ serricite altered zone that runs up to contact with intrusive about 2-300m up hill possible 5-10m wide striking 300m. Friday, February 20, 2009 Rimfire Minerals Corporation Page 6 of 20

36 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Grab Alteratio scl,sms Au-ICP-ppb 31 Bi-ICP-ppm 11 Gillis UTM E UTM N Strike Length 15 Metallics: trmg,5%py Ag-ICP-ppm 5 Pb-ICP-ppm 280 Elevatio 1661 Sample Width: 20 cm True Width: 20 cm Secondarie sge,smn Gillis Host : Altered Intrusive As-ICP-ppm 3 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Altered intrusice right near contact with volcanic sediments. Bleached and soft with lots of pyrite replacement. On Road. G Grid East: Grid North: Type: Grab Alteratio wms,sqz Au-ICP-ppb 67 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 5 Metallics:?AS,2%PY Ag-ICP-ppm 1.7 Pb-ICP-ppm 14 Elevatio 1653 Sample Width: 4 cm True Width: 4 cm Secondarie sge,she,mja Gillis Vein Host : Altered Greenstones As-ICP-ppm 3 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Lots of PY in wall rock. Small area of QZ stockwork 1-5cm wide veins with some pyrite in veins. Intrusive dykes in this ara this may be altered intrusive or intermediate. G Grid East: Grid North: Type: Grab Alteratio wms,qz Au-ICP-ppb 264 Bi-ICP-ppm 2 Gillis UTM E UTM N Strike Length 3 Metallics: tras,3%py Ag-ICP-ppm 4.1 Pb-ICP-ppm 12 Elevatio 1656 Sample Width: 5 cm True Width: 5 cm Secondarie sge,she Gillis Host : QZ altered Greenstone As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Hard to identify host rock here. In some spots there is strong alteration of wall rock around vein. Stockwork. G Grid East: Grid North: Type: Grab Alteratio mms,sqz Au-ICP-ppb 11 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 15 Metallics: tras,1%py Ag-ICP-ppm -0.2 Pb-ICP-ppm 2 Elevatio 1655 Sample Width: 5 cm True Width: 5 cm Secondarie sge,she Gillis Host : Greenstone As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Veins are more parallel here striking across host rock bedding. Parallel striation on some pyrite crystals that might suggest some AS in rock. G Grid East: Grid North: Type: Grab Alteratio sms,sqz Au-ICP-ppb 355 Bi-ICP-ppm 2 Gillis UTM E UTM N Strike Length 2 Metallics: trpy Ag-ICP-ppm 1.5 Pb-ICP-ppm 6 Elevatio 1495 Sample Width: 2 cm True Width: 2 cm Secondarie Gillis Host : Greenstones As-ICP-ppm 4 Sb-ICP-ppm -2 Sampled By: Tim Sullivan 2 small veins intersecting in greenstones not much else. Friday, February 20, 2009 Rimfire Minerals Corporation Page 7 of 20

37 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Grab Alteratio mms,sqz Au-ICP-ppb 318 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 3 Metallics:?AS,?GL,trPY Ag-ICP-ppm 7.5 Pb-ICP-ppm 5 Elevatio 1625 Sample Width: 6 cm True Width: 6 cm Secondarie Gillis Vein Host : Mafic sediments (Greenstones) As-ICP-ppm 4 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Very little mineralization in vein but in greenstones near andesite dyke some very fine grey to silver mineral in trace amounts. Hand Specimen sucks. G Grid East: Grid North: Type: Float + Grab Alteratio sms,mqz Au-ICP-ppb 78 Bi-ICP-ppm 2 Gillis UTM E UTM N Strike Length 10 Metallics:?AS,3-5%PY Ag-ICP-ppm 0.5 Pb-ICP-ppm -2 Elevatio 1465 Sample Width: 15 cm True Width: 15 cm Secondarie sge,she,sja Gillis Host : Cooked Greenstones As-ICP-ppm 6 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Strong leached cooking pyritic zone in greenstones with fractures and very thin veins cross cutting foliation bringing fluids and mineralization. Seems to be connected to large zones of heavy QZ,MS alteration. G Grid East: Grid North: Type: Float Alteratio sqz Au-ICP-ppb 19 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 1 Metallics: trcp Ag-ICP-ppm -0.2 Pb-ICP-ppm -2 Elevatio 1850 Sample Width: 30 cm True Width: 30 cm Secondarie mge,wmc Gillis Host : As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Two large boulders right at Heli site found as chopper was coming could not follow up near old samples of alteration. This looks like large vein but no to exciting. G Grid East: Grid North: Type: Grab Alteratio wms,sqz Au-ICP-ppb -5 Bi-ICP-ppm 17 Gillis UTM E UTM N Strike Length 15 Metallics: 1-2%PY Ag-ICP-ppm -0.2 Pb-ICP-ppm 2 Elevatio 1033 Sample Width: 60 cm True Width: 60 cm Secondarie sge Gillis Vein Host : As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Vein in Rock Quarry just off Coquihalla saw it o way out through Murray lake scenic drive. Group effort. G Grid East: Grid North: Type: Float Alteratio wms,sqz Au-ICP-ppb 439 Bi-ICP-ppm 41 Gillis UTM E UTM N Strike Length Metallics: tras,<1%gl,1%py Ag-ICP-ppm 21.8 Pb-ICP-ppm 332 Elevatio Sample Width: 15 cm True Width: 15 cm Secondarie mge Gillis Host : As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Just upstream from TF sample I was down here helping him. Nice big QZ boulders in creek. Some alteration boulders close by. Some outcrop in creek so QZ could be fairly local. Friday, February 20, 2009 Rimfire Minerals Corporation Page 8 of 20

38 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Float Alteratio wms,sqz Au-ICP-ppb 8 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: <1%PY Ag-ICP-ppm -0.2 Pb-ICP-ppm 4 Elevatio 1409 Sample Width: 15 cm True Width: 15 cm Secondarie Gillis Host : Greenstone As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Odd Ball silver blue mineral not galena. Just a spec in hand speciment. Small boulder not much left. Poor GPS coverage. G Grid East: Grid North: Type: Float Alteratio sqz Au-ICP-ppb 156 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: <1%GL,<1%PY Ag-ICP-ppm 5.5 Pb-ICP-ppm 54 Elevatio 1362 Sample Width: 10 cm True Width: 10 cm Secondarie Gillis Host : As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Small rectangular boulder in creek, shitty GPS coverage. 50m down from G and just upstream from creek junction. G Grid East: Grid North: Type: Float Alteratio wms,sqz Au-ICP-ppb 1805 Bi-ICP-ppm 36 Gillis UTM E UTM N Strike Length Metallics: 3%CP,1%GL,1% Ag-ICP-ppm 65.8 Pb-ICP-ppm 413 Elevatio 1356 Sample Width: 10 cm True Width: 10 cm Secondarie wge,whe,wmc Gillis Host : As-ICP-ppm 4 Sb-ICP-ppm 16 Sampled By: Tim Sullivan Nice rock very small sample would like to explore creek higher up. Sample located approximately 100m downstream from G G Grid East: Grid North: Type: Float Alteratio wms,sqz Au-ICP-ppb 15 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics:?AS,PY,?SB Ag-ICP-ppm -0.2 Pb-ICP-ppm 2 Elevatio Sample Width: 10 cm True Width: 10 cm Secondarie mge,mhe Gillis Host : As-ICP-ppm 3 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Elongate silvery mineral hard to see and I didn't get a good Hand speciment possibly stibnite or arsenopyrite. G Grid East: Grid North: Type: Grab Alteratio sqz Au-ICP-ppb 821 Bi-ICP-ppm 78 Gillis UTM E UTM N Strike Length 1 Metallics: tras,trpy Ag-ICP-ppm 38.4 Pb-ICP-ppm 436 Elevatio 1501 Sample Width: 30 cm True Width: 30 cm Secondarie sge,mhe,wja Gillis Host : As-ICP-ppm 11 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Large QZ sticking out of duff above super high soil. Doesn't look exciting but is close to soil. Friday, February 20, 2009 Rimfire Minerals Corporation Page 9 of 20

39 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Grab Alteratio mcb,sms,sqz,sa Au-ICP-ppb 37 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 1 Metallics: <1%AS,1%PY Ag-ICP-ppm -0.2 Pb-ICP-ppm 6 Elevatio 1543 Sample Width: 30 cm True Width: 30 cm Secondarie mge,wja Gillis Host : QZ carbonate shot Greenstone As-ICP-ppm 4 Sb-ICP-ppm 2 Sampled By: Tim Sullivan Cool zon3, hard to dig up qtz carbonate zone rock is totally shot with qtz from sugar to glassy. Specks of Arsenopyrite and dissemminated pyrite. G Grid East: Grid North: Type: Grab Alteratio mcb,mms,sqz,s Au-ICP-ppb 14 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 1 Metallics: tras,trpy Ag-ICP-ppm -0.2 Pb-ICP-ppm 5 Elevatio 1545 Sample Width: 25 cm True Width: 25 cm Secondarie mge,wja Gillis bedding,vein Host : QZ Carbonate vein/alteration As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Tim Sullivan Nice zone of Qtz carbonate rock just noticed DAC also sampled near by making zone maybe 15m wide. Sugary texture. G Grid East: Grid North: Type: Float Alteratio mcb,mqz Au-ICP-ppb 20 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 1%PY Ag-ICP-ppm -0.2 Pb-ICP-ppm 12 Elevatio 1544 Sample Width: 10 cm True Width: 10 cm Secondarie mge Gillis Host : QZ shot altered Greenstone As-ICP-ppm 7 Sb-ICP-ppm 3 Sampled By: Tim Sullivan Next to DAC sample G Grid East: Grid North: Type: Select Alteratio Au-ICP-ppb 1260 Bi-ICP-ppm 4 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 20.5 Pb-ICP-ppm 46 Elevatio 1507 Sample Width: True Width: Secondarie Gillis 200 Host : As-ICP-ppm 3 Sb-ICP-ppm 2 Sampled By: Tom Fortier Given a sample number back at motel because no sample No initially given. G Grid East: Grid North: Type: Float Alteratio mcl,mms,sqz Au-ICP-ppb 178 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 20 Metallics:?GL,<1%PY Ag-ICP-ppm 2.1 Pb-ICP-ppm 39 Elevatio 1729 Sample Width: 15 cm True Width: Secondarie mge Gillis Host : Foliated metavolcanic/metased Nicola As-ICP-ppm 3 Sb-ICP-ppm -2 Sampled By: Sandra Bayliss QZ with Pyrite cues up to 2mm trace amounts of possible galena, The host rock is moderately foliated pyrite might be from Host rocks. Friday, February 20, 2009 Rimfire Minerals Corporation Page 10 of 20

40 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Grab Alteratio wms,sqz Au-ICP-ppb 11 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 6 Metallics: tpy Ag-ICP-ppm 0.2 Pb-ICP-ppm 2 Elevatio 1814 Sample Width: 20 cm True Width: Secondarie mge,mhe Gillis Vein Host : Foliated metavolcanic/metased Nicola As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Sandra Bayliss Large quartz vein possibly vertical secondary smaller vein 10m along strike west of current location in Gully (Fault). Vein within mafic rich rock moderately foliated. Mineralization seen is minimal but large vein so sampled. G Grid East: Grid North: Type: Float + Grab Alteratio mcl,wms,sqz Au-ICP-ppb 23 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 50 Metallics: tcp Ag-ICP-ppm 0.8 Pb-ICP-ppm 4 Elevatio 1850 Sample Width: 10 cm True Width: Secondarie mge,mhe,mmc Gillis Vein 300 Host : Foliated metavolcanic/metased Nicola As-ICP-ppm 4 Sb-ICP-ppm -2 Sampled By: Sandra Bayliss QZ float very close to being in place subcrop more float along strike approximately 300 degrees. Host rock is strongly foliated Nicola with QZ vein max 2 m wide may be due to how it is exposed not true width. G Grid East: Grid North: Type: Float Alteratio sqz Au-ICP-ppb 7 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: tcp,<1% Ag-ICP-ppm 2.3 Pb-ICP-ppm 6 Elevatio 1859 Sample Width: 20 cm True Width: Secondarie taz,mge,mhe,tmc Gillis Host : Foliated metavolcanic/metased Nicola As-ICP-ppm 2 Sb-ICP-ppm 2 Sampled By: Sandra Bayliss CP is disseminated finely. The host rock is CL and MS altered and containes a dominant foliation. QZ is subcrop and more veins/float boulders noted in the area. G Grid East: Grid North: Type: Float Alteratio scl,sep,mms,sq Au-ICP-ppb -5 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: <1% Ag-ICP-ppm -0.2 Pb-ICP-ppm 2 Elevatio 1779 Sample Width: 25 cm True Width: Secondarie wge Gillis Host : Fsp porphorytic Metavolcanic/metased As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Sandra Bayliss Brecciated Nicola. Brecciation because of QZ vein there is Ep alteration and noticable PY dissemenated in the host rock. G Grid East: Grid North: Type: Float Alteratio mcl,ssi Au-ICP-ppb 33 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 1%PY Ag-ICP-ppm -0.2 Pb-ICP-ppm 3 Elevatio 1563 Sample Width: 20 cm True Width: Secondarie mge,whe Gillis Host : Nicola Metavolcanic/metased As-ICP-ppm 9 Sb-ICP-ppm 2 Sampled By: Sandra Bayliss Dug out of the soil very little outcrop in the area. Rock is altered PY and CL are pervaisive through the rock. Friday, February 20, 2009 Rimfire Minerals Corporation Page 11 of 20

41 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Float Alteratio sqz Au-ICP-ppb 95 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 1 Metallics:?AS,2%PY Ag-ICP-ppm 0.7 Pb-ICP-ppm 4 Elevatio 1486 Sample Width: 30 cm True Width: Secondarie mge,whe Gillis Vein Host : Foliated metavolcanic/metased Nicola As-ICP-ppm 2 Sb-ICP-ppm 3 Sampled By: Sandra Bayliss Lots of disseminated PY in host rock. PY may be AS QZ sampled may be subcrop. G Grid East: Grid North: Type: Float Alteratio mcl,mms,sqz Au-ICP-ppb 11 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 1 Metallics: tcp Ag-ICP-ppm 0.9 Pb-ICP-ppm 2 Elevatio 1610 Sample Width: 10 cm True Width: Secondarie mge,whe,trmc Gillis Host : Foliated metavolcanic/metased Nicola As-ICP-ppm 2 Sb-ICP-ppm -2 Sampled By: Sandra Bayliss Small QZ boulder in float no too far from outcrop. Boulder is likely part of a QZ vein within the Nicola rocks. CP is in small blebs within the QZ G Grid East: Grid North: Type: Float + Grab Alteratio wca,wms,sqz,m Au-ICP-ppb 107 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: tras,1%py Ag-ICP-ppm 0.9 Pb-ICP-ppm 8 Elevatio 1522 Sample Width: 20 cm True Width: Secondarie mge,mhe Gillis Vein Host : Silicified altered metavolcanic/metased Nicola As-ICP-ppm 2 Sb-ICP-ppm 2 Sampled By: Sandra Bayliss Soil is very red. Host rock is likely Nicola that has been flushed with fluids and is strongly silicified with disseminated pyrite. This rock is located within 25-30m of a soil sample that ran 116ppb Au. There is also some Andesite float boulders in the area. G Grid East: Grid North: Type: Float Alteratio sqz Au-ICP-ppb 6 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.2 Pb-ICP-ppm 2 Elevatio 1453 Sample Width: 5 cm True Width: Secondarie mge,she Gillis Vein Host : Unknown As-ICP-ppm 2 Sb-ICP-ppm 2 Sampled By: Sandra Bayliss QZ boulder found in float. Quartz is very pink-red. QZ fractures very readily. Found close to an Andesite dyke that was outcrop. G Grid East: Grid North: Type: Grab Alteratio mcl,wms,sqz Au-ICP-ppb 13 Bi-ICP-ppm 2 Gillis UTM E UTM N Strike Length 80 Metallics: tras,<1%gl,1%py Ag-ICP-ppm 1.6 Pb-ICP-ppm 905 Elevatio 1825 Sample Width: 20 cm True Width: Secondarie mge,whe Gillis Vein Host : Foliated metavolcanic/metased Nicola As-ICP-ppm 2 Sb-ICP-ppm 2 Sampled By: Sandra Bayliss Vein can be traced intermittently for a max of 80m. GL is fine and disseminated with some large cubes of PY. Surrounding rock is partially silicified. Vein is a max of 1.5m wide but hard to determine the dip. Friday, February 20, 2009 Rimfire Minerals Corporation Page 12 of 20

42 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: Gillis G Grid East: Grid North: Type: Grab Alteratio scl,mep,wqz Au-ICP-ppb 8 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 35 Metallics: trcp,1%py Ag-ICP-ppm -0.2 Pb-ICP-ppm 4 Elevatio 1563 Sample Width: 10 cm True Width: Secondarie wmc Gillis Altn Host : Altered Diorite with areas of Nicola As-ICP-ppm -2 Sb-ICP-ppm -2 Sampled By: Sandra Bayliss Blebs of CP in foliated CL rich rock. Rock is very fine graid with disseminated PY. NO QZ veining. G Grid East: Grid North: Type: Grab Alteratio wca,wms,sqz Au-ICP-ppb 49 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length 5 Metallics: trgl Ag-ICP-ppm 1 Pb-ICP-ppm 104 Elevatio 1566 Sample Width: 25 cm True Width: Secondarie sge,whe,wak Gillis Vein Host : Foliated metavolcanic/metased Nicola As-ICP-ppm -2 Sb-ICP-ppm 2 Sampled By: Sandra Bayliss Possible siderite within the vein. Vein appears to be slightly folded. Foliation of the surrounding rocks is 230/42 the vein cuts the foliation. Picture taken G Grid East: Grid North: Type: Float + Grab Alteratio ssi Au-ICP-ppb 16 Bi-ICP-ppm -2 Gillis UTM E UTM N Strike Length Metallics: 3%PY Ag-ICP-ppm 0.3 Pb-ICP-ppm 4 Elevatio 1338 Sample Width: 5 cm True Width: Secondarie mge,mhe Gillis Host : Limestone rock is strongly silicified As-ICP-ppm 28 Sb-ICP-ppm 2 Sampled By: Sandra Bayliss Wall rock is strongly silicified with large cubes of pyrite. Sample take next to TF vein with soft silvery mineral. Rock is subcrop to outcrop. Sampled with DAC and Ed Balon. G Grid East: Grid North: Type: Grab Alteratio mqz,ssi Au-ICP-ppb 105 Bi-ICP-ppm 3 Gillis UTM E UTM N Strike Length Metallics: 2%PY Ag-ICP-ppm 3.2 Pb-ICP-ppm 46 Elevatio 1325 Sample Width: 2 cm True Width: Secondarie mge,mhe Gillis Host : Silicified foliated metavolcanics/metased Nicola As-ICP-ppm 3 Sb-ICP-ppm 3 Sampled By: Sandra Bayliss Sample take downstream from TF vein. 2cm wide QZ vein with PY sample was within silicified Nicola with DAC and Ed Balon. K-R10 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 0.8 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 10 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 41.6 Sb-ICP-ppm 0.3 Host : Volc. Sampled By: Chips from single pc 8.5x11x15 cm (subrnd). 95% replaced by light blue-gy silica (chert?). No visible sulfides. Friday, February 20, 2009 Rimfire Minerals Corporation Page 13 of 20

43 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: K-R11 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 5.6 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 9.9 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 12.7 Sb-ICP-ppm 0.2 Host : Sampled By: Composite QV float grabs 3 pcs fairly rnded 6-8.5cm thick by up to 10x13cm. K-R12 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 1.4 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 8.7 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 7.4 Sb-ICP-ppm 0.1 Host : QV. Sampled By: Single tabular subrnd pc QV float in old cut bank. 11x15x18cm. K-R14 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 15.1 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 4.1 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 6 Sb-ICP-ppm 0.3 Host : Felsite. Sampled By: Ang talus fgmnts in roadcut. Rhyolite or fgr intrsv(?). K-R15 Grid East: Grid North: Type: Alteratio Au-ICP-ppb -0.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.3 Pb-ICP-ppm 29 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 3 Sb-ICP-ppm 0.1 Host : QV/CL schist. Sampled By: Subang pc 13x20x30cm in till bank. K-R16 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 15.4 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 0.6 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.7 Sb-ICP-ppm 0.1 Host : QV Sampled By: Tabular 3.5x10x15cm pc rnded edges slickensided. Non-epithermal type. Friday, February 20, 2009 Rimfire Minerals Corporation Page 14 of 20

44 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: K-R17 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 0.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 0.6 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.5 Sb-ICP-ppm -0.1 Host : QV. Sampled By: Tabular 5x6x12cm pc subang. Non-epithermal type. K-R18 Grid East: Grid North: Type: Alteratio Au-ICP-ppb -0.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 4.5 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.8 Sb-ICP-ppm -0.1 Host : AV/QV. Sampled By: Ang rubble on small knoll CB altn zone. 12x16x18cm pc. K-R19 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 55.2 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.7 Pb-ICP-ppm 12.6 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.9 Sb-ICP-ppm 0.2 Host : QV. Sampled By: Main ck 12x14X16cm angular lt rust on frx. K-R20 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 37.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 1 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 2 Sb-ICP-ppm 0.1 Host : QZbx epithermal type. Sampled By: Multiple ang talus fgmnts over 7.5m length. Pcs 2.5-7cm thick. K-R21 Grid East: Grid North: Type: Alteratio Au-ICP-ppb Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 11.2 Pb-ICP-ppm 57.2 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm -0.5 Sb-ICP-ppm 0.1 Host : QV. Sampled By: Rnded cobble 8x10x15cm wht/clr crsgr QZ. Friday, February 20, 2009 Rimfire Minerals Corporation Page 15 of 20

45 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: K-R22 Grid East: Grid North: Type: Alteratio Au-ICP-ppb Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 6.2 Pb-ICP-ppm 95 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.6 Sb-ICP-ppm -0.1 Host : QV. Sampled By: Rnded pc 10.5x11x13cm wht/transluc crsgr QZ w/feo on frx. K-R23 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.1 Pb-ICP-ppm 4.5 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 5 Sb-ICP-ppm 1.4 Host : KSB lapilli tuff w/qvs. Sampled By: Chips from several talus fgmnts. Irreg wht/pale gy QVs/sts to 2cm width. K-R24 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 6.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.1 Pb-ICP-ppm 1.7 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm -0.5 Sb-ICP-ppm -0.1 Host : QV hosted by Nicola metaav (mylonite). Sampled By: Irreg vn/lenses 10-50cm width over ~15m strike NW/dip~90. K-R25 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 7 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 0.7 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.9 Sb-ICP-ppm 0.2 Host : Foliated QZ-rich metavolc w/qvs. Sampled By: Chips from several ang fgmnts in roots of deadfall. QVs/sts <1-5cm. K-R26 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 35.2 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.3 Pb-ICP-ppm 1.8 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 1.5 Sb-ICP-ppm 0.1 Host : Foliated QZ-rich metavolc w/qvs AD contact. Sampled By: Chips from several points on ~10x10m of oc. Larger vns than in R25. Friday, February 20, 2009 Rimfire Minerals Corporation Page 16 of 20

46 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: K-R27 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 80.1 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.8 Pb-ICP-ppm 1.1 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 3.9 Sb-ICP-ppm 0.2 Host : Foliated QZ-rich metavolc w/qvs AD contact. Sampled By: Selected oc & rubble chips w/best sulfides. K-R28 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 4.1 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.2 Pb-ICP-ppm 3.9 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.7 Sb-ICP-ppm 0.1 Host : FP volc(?) near RV dyke(?) contact. Sampled By: Selected rubble chips w/best sulfides. Other various igneous rock types nearby. K-R29 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 15 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.1 Pb-ICP-ppm 1.7 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 4.5 Sb-ICP-ppm 1 Host : Foliated QZ-rich metavolc w/qvs. Sampled By: QVs/sts stockworks ~15m wide oc in ck bed dom foliation N/S. K-R30 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 1.8 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 1.3 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.7 Sb-ICP-ppm -0.1 Host : Foliated QZ-rich metavolc w/qvs. Sampled By: QVs/sts 1mm-3cm width. PY mainly in hostrock. Grabs from 2 points 10m apart. K-R31 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 3 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 0.4 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm -0.5 Sb-ICP-ppm 0.1 Host : QV foliated metavolc host. Sampled By: 30x30x10cm fgmnt rusty frx. Friday, February 20, 2009 Rimfire Minerals Corporation Page 17 of 20

47 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: K-R42 Grid East: Grid North: Type: Alteratio Au-ICP-ppb -0.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 6.3 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 1.4 Sb-ICP-ppm 0.1 Host : Intrsv w/ QZ segregationss. Sampled By: Host rock very silic. Found in ck approx 10m dnstrm of K35-3. Est loc. 1 pc ang 14x10x8cm. K-R43 Grid East: Grid North: Type: Alteratio Au-ICP-ppb -0.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 14.2 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm -0.5 Sb-ICP-ppm 0.1 Host : QV. Sampled By: Hostrock fgr volc light colour silic. Xtln irreg QV up to 3cm. Chips over 1mx1m area. K-R44 Grid East: Grid North: Type: Alteratio Au-ICP-ppb -0.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 4.3 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 6.1 Sb-ICP-ppm 0.1 Host : QZ/CA vein. Sampled By: QZ/CA vn fgmnt 7x9x26cm rnded msv wht grainy QZ w/ca sts incls. K-R45 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 3.6 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 4.2 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.8 Sb-ICP-ppm 0.1 Host : QV. Sampled By: Tabular pc 5x10x12cm. Float in K34-6 branch. K-R46 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 142 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 2.9 Pb-ICP-ppm 10.3 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.6 Sb-ICP-ppm 0.1 Host : QV. Sampled By: Tabular pc 22x12x7cm. Xtln w/1cm QV cross cutting large QV. Friday, February 20, 2009 Rimfire Minerals Corporation Page 18 of 20

48 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: K-R47 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 11.4 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.2 Pb-ICP-ppm 2.4 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 1.1 Sb-ICP-ppm -0.1 Host : QV. Sampled By: QV 11cm wide. More QVs in local area in meta volc hostrock. K-R48 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 1.4 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 3.7 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 2.9 Sb-ICP-ppm 0.5 Host : QV. Sampled By: Single pc subrnd 4-6x10x15cm. Some very altd (OX) hostrock incls. K-R49 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 2.3 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.2 Pb-ICP-ppm 2.4 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm -0.5 Sb-ICP-ppm -0.1 Host : Fgr leucocratic intrsv. Sampled By: 1 ang pc 15x10x4cm from altn zone in old rdcut. K-R50 Grid East: Grid North: Type: Alteratio Au-ICP-ppb -0.5 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 5.6 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 0.6 Sb-ICP-ppm 0.2 Host : Medgr QZ-rich leucocratic intrsv. Sampled By: 1 pc 25x12x8cm subang. K-R6 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 39.3 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 1.1 Pb-ICP-ppm 9.3 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 5.4 Sb-ICP-ppm 0.7 Host : Glassy QV. Sampled By: Composite of several pcs glassy QV float rnded +subrnded fragments up to 5x8x11cm. Not epithermal QZ. Friday, February 20, 2009 Rimfire Minerals Corporation Page 19 of 20

49 Rock s Project: Project Name Operator: Rimfire Minerals Corporation Project ID: K-R7 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 13 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 0.2 Pb-ICP-ppm 2.3 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 11.9 Sb-ICP-ppm 0.3 Host : QV. Sampled By: Grab of several pcs QZbx float + rusty orng brn QZ/CB alt'd rock w/ QZ stringers. Subrnd + subang pcs. K-R8 Grid East: Grid North: Type: Alteratio Au-ICP-ppb Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm 4 Pb-ICP-ppm 47.8 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm 2.8 Sb-ICP-ppm 1 Host : QV. Sampled By: Chips from several pcs subang-subrnd milky white greasy bullish looking QZ 6-10cm in thickness. K-R9 Grid East: Grid North: Type: Alteratio Au-ICP-ppb 2.1 Bi-ICP-ppm 0 UTM E UTM N Strike Length Metallics: Ag-ICP-ppm -0.1 Pb-ICP-ppm 0.9 Elevatio Sample Width: True Width: Secondarie As-ICP-ppm -0.5 Sb-ICP-ppm -0.1 Host : Highly silic fgr rock (felsite). Sampled By: Single ang pc 8x8x14cm. Rusty orng & red-brn weathering. Friday, February 20, 2009 Rimfire Minerals Corporation Page 20 of 20

50 Appendix D: Soil Certificates

51 Table 3 Gillis Soil Grid Summary Large Gillis Grid NAD83 Zone m line spacing 50m sample density Start End Line Number Easting1 Northing1 Easting2 Northing2 Distance No. Samples Small Grid 1 South NAD83 Zone 10 50m line spacing 25m sample density Start End Line Number Easting1 Northing1 Easting2 Northing * samples every 50m on this line 400 not completed * samples every 50m on this line Small Grid 2 North NAD83 Zone 10 50m line spacing 25m sample density Start End Line Number Easting1 Northing1 Easting2 Northing * samples every 50m on this line * samples every 50m on this line Large North Grid NAD83 Zone m line spacing 50m sample density Start End Line Number Easting1 Northing1 Easting2 Northing Small Grid 3 RIO total NAD83 Zone 10 Grand Tota Start End Line Number Easting1 Northing1 Easting2 Northing Not Complete

52 Page: 1 Finalized Date: 10-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

53 Page: 2 - A Finalized Date: 10-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28800N 41400E 0.42 <0.005 < <0.5 < L28800N 41450E 0.42 <0.005 < <10 70 <0.5 < L28800N 41500E 0.38 <0.005 < <2 < <0.5 < < L28800N 41550E 0.33 <0.005 < < <0.5 < < L28800N 41600E < < <0.5 < < L28800N 41650E 0.36 <0.005 < <2 < <0.5 < < L28800N 41700E 0.43 <0.005 < <10 80 <0.5 < < L28800N 41750E < <10 80 <0.5 < < L28800N 41800E 0.37 <0.005 < <2 < <0.5 < < L28800N 41850E < <10 60 <0.5 < < L28800N 41900E 0.38 <0.005 < <2 < <0.5 < < L28800N 41950E 0.39 <0.005 < <2 <10 80 <0.5 < < L28800N 42000E 0.33 <0.005 < <2 < <0.5 < < L28800N 42050E 0.35 <0.005 < <2 < <0.5 < < L28800N 42100E 0.36 < < <0.5 < < L28800N 42150E 0.35 <0.005 < < <0.5 < L28800N 42200E < <0.5 < L28800N 42250E 0.38 <0.005 < < <0.5 < L28800N 42300E 0.35 < < <0.5 < < L28800N 42350E 0.33 <0.005 < < <0.5 < < L28800N 42400E 0.43 <0.005 < < <0.5 < < L28800N 42450E 0.41 < <2 < <0.5 < < L28800N 42500E < <0.5 < < L28800N 42550E < <10 80 <0.5 < < L28800N 42600E 0.39 < < <0.5 < < L28800N 42650E 0.36 <0.005 < < <0.5 < < L28800N 42700E 0.38 <0.005 < < <0.5 < L28800N 42750E 0.34 < < <0.5 < L28800N 42800E < < <0.5 < < L28800N 42850E < < <0.5 < < L28800N 42900E 0.42 <0.005 < < <0.5 < < L28800N 42950E < <0.5 < < L28800N 43000E 0.31 <0.005 < < <0.5 < < L28800N 43050E < < < < L28800N 43100E 0.28 <0.005 < < <0.5 < < L28800N 43150E 0.31 <0.005 < < <0.5 < < L28800N 43200E < <0.5 < L28800N 43250E 0.36 < < <0.5 < L28800N 43300E 0.38 < < <0.5 < L28800N 43350E 0.40 <0.005 < < <0.5 < <

54 Page: 2 - B Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28800N 41400E <10 < < <2 <1 362 L28800N 41450E < < < L28800N 41500E <10 < < < < L28800N 41550E 10 < < < < L28800N 41600E 10 < < < L28800N 41650E <10 < < < < < L28800N 41700E <10 < < < < L28800N 41750E < < < < L28800N 41800E 10 < < < < L28800N 41850E < < < < L28800N 41900E 10 < < < < L28800N 41950E < < < < L28800N 42000E < < < L28800N 42050E 10 < < < < < L28800N 42100E 10 < < < < < L28800N 42150E 10 < < < L28800N 42200E <10 < < < L28800N 42250E 10 < < < < L28800N 42300E 10 < < < < L28800N 42350E 10 < < < < L28800N 42400E <10 < < < L28800N 42450E 10 < < < < L28800N 42500E 10 < < < < L28800N 42550E 10 < < < < L28800N 42600E 10 < < < L28800N 42650E < < < L28800N 42700E 10 < < < L28800N 42750E 10 < < < L28800N 42800E 10 < < < L28800N 42850E < < L28800N 42900E < < L28800N 42950E 10 < < < L28800N 43000E 10 < < < < L28800N 43050E 10 < < L28800N 43100E < < L28800N 43150E 10 < < < L28800N 43200E 10 < < < L28800N 43250E < L28800N 43300E < < L28800N 43350E 10 < < <

55 Page: 2 - C Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28800N 41400E < < <10 5 L28800N 41450E < <10 <10 65 <10 73 L28800N 41500E < <10 <10 38 <10 70 L28800N 41550E < <10 <10 33 <10 57 L28800N 41600E < <10 <10 67 <10 74 L28800N 41650E < <10 <10 46 <10 59 L28800N 41700E < <10 <10 49 <10 51 L28800N 41750E < <10 <10 48 <10 51 L28800N 41800E < <10 <10 45 <10 86 L28800N 41850E < <10 < <10 59 L28800N 41900E < <10 <10 54 <10 59 L28800N 41950E < <10 <10 51 <10 55 L28800N 42000E < <10 <10 64 <10 60 L28800N 42050E < <10 <10 46 <10 66 L28800N 42100E < <10 <10 47 < L28800N 42150E < <10 <10 34 < L28800N 42200E < <10 <10 39 < L28800N 42250E < <10 <10 49 < L28800N 42300E < <10 <10 49 < L28800N 42350E < <10 <10 56 < L28800N 42400E < <10 <10 52 < L28800N 42450E < <10 <10 54 < L28800N 42500E < <10 <10 44 < L28800N 42550E < <10 <10 69 <10 74 L28800N 42600E < <10 <10 57 < L28800N 42650E < <10 <10 44 < L28800N 42700E < <10 <10 57 <10 93 L28800N 42750E < <10 <10 55 < L28800N 42800E < <10 <10 53 <10 82 L28800N 42850E < <10 <10 37 <10 81 L28800N 42900E < <10 <10 42 <10 84 L28800N 42950E < <10 <10 59 <10 91 L28800N 43000E < <10 <10 48 <10 60 L28800N 43050E < <10 <10 60 <10 82 L28800N 43100E < <10 <10 50 <10 76 L28800N 43150E < <10 <10 50 <10 81 L28800N 43200E < <10 <10 40 < L28800N 43250E < <10 <10 58 < L28800N 43300E < <10 <10 56 < L28800N 43350E < <10 <10 92 <10 93

56 Page: 3 - A Finalized Date: 10-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28800N 43400E 0.30 < <10 90 <0.5 < < L28800N 43450E 0.35 < < <0.5 < < L28800N 43500E 0.30 < <10 60 <0.5 < L28800N 43550E 0.30 < <10 50 <0.5 < L28800N 43600E 0.30 < < <0.5 < < L28800N 43650E 0.33 < <10 80 <0.5 < < L28800N 43700E 0.34 < <10 60 <0.5 < < L28800N 43750E < < <0.5 < < L28800N 43800E < < < < L28800N 43850E < <10 70 <0.5 < < L28800N 43900E <10 80 < < L28800N 43950E < < < L28800N 44000E 0.35 < <10 50 <0.5 < < L28800N 44050E 0.31 <0.005 < <10 70 <0.5 < < L28800N 44100E 0.37 <0.005 < < <0.5 < < L28800N 44150E 0.31 < < < < L28800N 44200E 0.33 < <10 80 <0.5 < < L28800N 44250E 0.36 < < <0.5 < < L28800N 44300E < <0.5 < < L28800N 44350E 0.32 < < < L28800N 44400E 0.34 <0.005 < < <0.5 < < L28800N 44450E 0.28 <0.005 < <10 30 <0.5 < <

57 Page: 3 - B Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28800N 43400E < <0.01 < L28800N 43450E < < <0.01 < L28800N 43500E < < <0.01 < L28800N 43550E <10 < < < <2 <1 184 L28800N 43600E < < <0.01 < L28800N 43650E < <0.01 < L28800N 43700E < < L28800N 43750E 10 < < <0.01 < L28800N 43800E <0.01 < L28800N 43850E < < <0.01 < L28800N 43900E 10 < < L28800N 43950E < <0.01 < L28800N 44000E < < < L28800N 44050E < <0.01 < L28800N 44100E 10 < < <0.01 < L28800N 44150E < < L28800N 44200E < < < L28800N 44250E 10 < < <0.01 < L28800N 44300E < <0.01 < L28800N 44350E < L28800N 44400E < <0.01 < L28800N 44450E 10 < < <0.01 <2 2 6

58 Page: 3 - C Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28800N 43400E < <10 <10 67 <10 78 L28800N 43450E < <10 <10 73 <10 86 L28800N 43500E < <10 <10 50 < L28800N 43550E <20 <0.01 <10 <10 6 <10 19 L28800N 43600E < <10 <10 42 <10 41 L28800N 43650E < <10 <10 43 <10 51 L28800N 43700E < <10 <10 51 <10 42 L28800N 43750E < <10 <10 61 <10 46 L28800N 43800E < <10 <10 74 <10 54 L28800N 43850E < <10 <10 62 <10 42 L28800N 43900E < <10 <10 68 <10 45 L28800N 43950E < <10 <10 69 <10 55 L28800N 44000E < <10 <10 60 <10 39 L28800N 44050E < <10 <10 59 <10 42 L28800N 44100E < <10 <10 72 <10 55 L28800N 44150E < <10 <10 70 <10 52 L28800N 44200E < <10 <10 65 <10 47 L28800N 44250E < <10 <10 51 <10 63 L28800N 44300E < <10 <10 64 <10 53 L28800N 44350E < <10 <10 54 <10 55 L28800N 44400E < <10 <10 69 <10 52 L28800N 44450E < <10 <10 33 <10 18

59 Page: 1 Finalized Date: 11-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 69 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

60 Page: 2 - A Finalized Date: 11-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27900N 43450E < <0.5 < < L27900N 43475E < <0.5 < < L27900N 43500E < <0.5 < < L27900N 43525E <10 80 <0.5 < < L27900N 43550E < <0.5 < L27900N 43575E <10 90 <0.5 < < L27900N 43600E < <0.5 < < L27900N 43625E <10 80 <0.5 < < L27900N 43650E < <0.5 < < L27900N 43675E < <0.5 < < L27900N 43700E < < < L27900N 43725E < < < L27900N 43750E < <0.5 < < L27900N 43775E < <0.5 < < L27900N 43800E < <0.5 < L27900N 43825E < <0.5 < < L27900N 43850E < <0.5 < < L27900N 43875E < < < L27900N 43900E <10 80 <0.5 < < L27900N 43925E < <0.5 < < L27900N 43950E < <0.5 < < L27900N 43975E <10 90 <0.5 < < L27900N 44000E < <0.5 < < L27950N 43450E <10 90 <0.5 < < L27950N 43475E < < < L27950N 43500E <10 80 <0.5 < < L27950N 43525E < <0.5 < < L27950N 43550E < <0.5 < < L27950N 43575E < <0.5 < < L27950N 43600E < < <0.5 < < L27950N 43625E <10 90 <0.5 < < L27950N 43650E <10 90 <0.5 < < L27950N 43675E < <0.5 < < L27950N 43700E < <0.5 < < L27950N 43725E < < < L27950N 43750E <10 70 <0.5 < < L27950N 43775E <10 90 <0.5 < < L27950N 43800E < <0.5 < < L27950N 43825E < < < L27950N 43850E < <0.5 < <

61 Page: 2 - B Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27900N 43450E L27900N 43475E 10 < < L27900N 43500E 10 < L27900N 43525E < L27900N 43550E L27900N 43575E 10 < < L27900N 43600E < L27900N 43625E 10 < < < L27900N 43650E 10 < < L27900N 43675E L27900N 43700E < L27900N 43725E 10 < < L27900N 43750E 10 < < L27900N 43775E 10 < < L27900N 43800E 10 < < L27900N 43825E 10 < L27900N 43850E 10 < L27900N 43875E 10 < < L27900N 43900E 10 < < < L27900N 43925E < L27900N 43950E 10 < L27900N 43975E 10 < < < < L27900N 44000E 10 < < < < L27950N 43450E 10 < < < < L27950N 43475E 10 < < L27950N 43500E 10 < < < < L27950N 43525E < < L27950N 43550E 10 < < < L27950N 43575E 10 < < < L27950N 43600E 10 < < < L27950N 43625E < < L27950N 43650E 10 < < < <0.01 < L27950N 43675E 10 < < < < L27950N 43700E < <0.01 < L27950N 43725E 10 < < <0.01 < L27950N 43750E 10 < < < < L27950N 43775E <10 < < < L27950N 43800E 10 < < < L27950N 43825E 10 < < L27950N 43850E 10 < <

62 Page: 2 - C Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27900N 43450E < <10 <10 73 <10 56 L27900N 43475E < <10 <10 79 <10 61 L27900N 43500E < <10 <10 87 <10 65 L27900N 43525E < <10 <10 76 <10 52 L27900N 43550E < <10 <10 59 <10 52 L27900N 43575E < <10 <10 85 <10 43 L27900N 43600E < <10 <10 80 <10 59 L27900N 43625E < <10 <10 88 <10 54 L27900N 43650E < <10 <10 91 <10 57 L27900N 43675E < <10 <10 87 <10 54 L27900N 43700E < <10 <10 86 <10 67 L27900N 43725E < <10 <10 78 <10 60 L27900N 43750E < <10 <10 74 <10 50 L27900N 43775E < <10 <10 82 <10 55 L27900N 43800E < <10 <10 42 <10 49 L27900N 43825E < <10 <10 85 <10 50 L27900N 43850E < <10 <10 90 <10 62 L27900N 43875E < <10 <10 78 <10 52 L27900N 43900E < <10 <10 91 <10 48 L27900N 43925E < <10 <10 82 <10 60 L27900N 43950E < <10 <10 78 <10 75 L27900N 43975E < <10 <10 73 <10 67 L27900N 44000E < <10 <10 96 <10 71 L27950N 43450E < <10 <10 82 <10 51 L27950N 43475E < <10 <10 72 <10 57 L27950N 43500E < <10 <10 77 <10 50 L27950N 43525E < <10 <10 79 <10 56 L27950N 43550E < <10 <10 85 <10 58 L27950N 43575E < <10 <10 92 <10 59 L27950N 43600E < <10 < <10 65 L27950N 43625E < <10 < <10 62 L27950N 43650E < <10 <10 86 <10 51 L27950N 43675E < <10 <10 76 <10 54 L27950N 43700E < <10 <10 83 <10 50 L27950N 43725E < <10 <10 79 <10 60 L27950N 43750E < <10 < <10 50 L27950N 43775E < <10 <10 46 <10 39 L27950N 43800E < <10 <10 84 <10 65 L27950N 43825E < <10 <10 72 <10 78 L27950N 43850E < <10 <10 78 <10 68

63 Page: 3 - A Finalized Date: 11-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27950N 43875E < < L27950N 43900E < <0.5 < < L27950N 43925E <10 90 <0.5 < < L27950N 43950E < <0.5 < < L27950N 43975E < <0.5 < < L27950N 44000E < <0.5 < < L28050N 43450E < <0.5 < L28050N 43475E < < < L28050N 43500E < <0.5 < < L28050N 43525E <10 90 <0.5 < < L28050N 43550E < < < L28050N 43575E < <0.5 < L28050N 43600E < <0.5 < L28050N 43625E < <0.5 < < L28050N 43650E < <0.5 < L28050N 43675E <10 80 <0.5 < < L28050N 43700E < < L28050N 43725E < <0.5 < < L28050N 43750E < < < L28050N 43775E < <0.5 < < L28050N 43800E <10 70 < < L28050N 43825E <10 90 <0.5 < < L28050N 43850E < <0.5 < < L28050N 43875E < <0.5 < < L28050N 43900E < < < L28050N 43925E < <0.5 < < L28050N 43950E < <0.5 < < L28050N 43975E < <0.5 < < L28050N 44000E < <0.5 < <

64 Page: 3 - B Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27950N 43875E <10 < < L27950N 43900E 10 < < L27950N 43925E 10 < < L27950N 43950E 10 < < < < L27950N 43975E 10 < < < < L27950N 44000E < <0.01 < L28050N 43450E 10 < < < L28050N 43475E < L28050N 43500E 10 < < L28050N 43525E <10 < < < L28050N 43550E < L28050N 43575E 10 < < L28050N 43600E <10 < < L28050N 43625E 10 < < < < L28050N 43650E < <0.01 < L28050N 43675E 10 < < < < L28050N 43700E 10 < < L28050N 43725E 10 < < L28050N 43750E 10 < L28050N 43775E <10 < L28050N 43800E 10 < < < L28050N 43825E 10 < < L28050N 43850E 10 < < <0.01 < L28050N 43875E 10 < < <2 <0.01 < L28050N 43900E 10 < < < L28050N 43925E 10 < < < <0.01 < L28050N 43950E 10 < < L28050N 43975E 10 < < < < L28050N 44000E 10 < < < <0.01 <2 4 18

65 Page: 3 - C Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27950N 43875E < <10 <10 71 <10 86 L27950N 43900E < <10 <10 70 <10 70 L27950N 43925E < <10 <10 81 <10 63 L27950N 43950E < <10 <10 84 <10 64 L27950N 43975E < <10 < <10 93 L27950N 44000E < <10 <10 87 <10 95 L28050N 43450E < <10 <10 75 <10 75 L28050N 43475E < <10 <10 68 <10 67 L28050N 43500E < <10 <10 76 <10 59 L28050N 43525E < <10 <10 62 <10 86 L28050N 43550E < <10 < <10 72 L28050N 43575E < <10 <10 70 < L28050N 43600E < <10 <10 76 <10 86 L28050N 43625E < <10 < <10 59 L28050N 43650E < <10 <10 79 <10 73 L28050N 43675E < <10 <10 99 <10 50 L28050N 43700E < <10 <10 64 <10 59 L28050N 43725E < <10 <10 80 <10 63 L28050N 43750E < <10 <10 81 <10 70 L28050N 43775E < <10 <10 65 <10 52 L28050N 43800E < <10 <10 74 <10 57 L28050N 43825E < <10 <10 63 <10 54 L28050N 43850E < <10 <10 79 <10 72 L28050N 43875E < <10 <10 79 <10 56 L28050N 43900E < <10 <10 71 <10 80 L28050N 43925E < <10 <10 93 <10 70 L28050N 43950E < <10 <10 87 <10 99 L28050N 43975E < <10 <10 84 <10 72 L28050N 44000E < <10 <10 87 <10 75

66 Page: 1 Finalized Date: 4-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 66 Soil samples submitted to our lab in Vancouver, BC, Canada on 19-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

67 Page: 2 - A Finalized Date: 4-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 43950E < < N 44000E < < N 44050E < N 44100E 0.44 < < < < N 44150E 0.46 <0.005 < < < < N 44200E 0.42 <0.005 < < < < N 44250E 0.44 <0.005 < < < N 44300E 0.42 < < < < N 44350E 0.34 < < < < N 44400E 0.40 <0.005 < < < N 44450E 0.40 <0.005 < < < < N 44500E 0.34 <0.005 < <2 < < < N 44550E 0.36 <0.005 < <2 < < N 44600E 0.38 < < N 44650E 0.32 <0.005 < < <0.5 < < N 44700E 0.38 <0.005 < < < < N 44750E 0.28 <0.005 < <2 < < < N 44800E 0.34 <0.005 < <2 < <0.5 < < N 44850E < <10 80 < < N 44900E 0.34 < < < N 44950E 0.42 < <2 <10 30 < < N 45000E 0.34 < <2 < < N 43950E < < < < N 44000E 0.44 < < < < N 44050E 0.48 <0.005 < < < < N 44100E 0.34 < < < N 44150E 0.44 < < < < N 44200E < < < < N 44250E <2 < < < N 44300E < < < N 44350E < < N 44400E < < < N 44450E < <10 60 <0.5 < < N 44500E < N 44550E <2 < < N 44600E 0.38 < < < N 44650E 0.34 < < < < N 44700E < < N 44750E 0.38 <0.005 < <2 < < < N 44800E 0.34 <0.005 < <2 < < <

68 Page: 2 - B Finalized Date: 4-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 43950E 10 < N 44000E < N 44050E 10 < < N 44100E 10 < < N 44150E 10 < < N 44200E 10 < N 44250E 10 < < N 44300E 10 < < N 44350E 10 < < N 44400E 10 < < N 44450E 10 < < N 44500E 10 < < N 44550E 10 < < N 44600E 10 < N 44650E 10 < < N 44700E 10 < < N 44750E <10 < < N 44800E 10 < < < N 44850E 10 < < < N 44900E 10 < < < N 44950E 10 < < <2 < N 45000E 10 < < N 43950E 10 < < N 44000E 10 < < N 44050E 10 < N 44100E 10 < < N 44150E 10 < < N 44200E 10 < N 44250E 10 < < < N 44300E 10 < < N 44350E 10 < < N 44400E 10 < N 44450E 10 < < N 44500E 10 < N 44550E N 44600E 10 < < N 44650E 10 < N 44700E 10 < N 44750E 10 < < N 44800E 10 <

69 Page: 2 - C Finalized Date: 4-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 43950E < <10 <10 75 < N 44000E < <10 <10 78 < N 44050E < <10 <10 99 < N 44100E < <10 <10 87 < N 44150E < <10 <10 90 < N 44200E < <10 <10 85 < N 44250E < <10 <10 77 < N 44300E < <10 <10 75 < N 44350E < <10 <10 70 < N 44400E < <10 <10 79 < N 44450E < <10 <10 78 < N 44500E < <10 < < N 44550E < <10 <10 59 < N 44600E < < < N 44650E < <10 <10 53 < N 44700E < < < N 44750E < <10 <10 34 < N 44800E < <10 <10 49 < N 44850E < <10 <10 61 < N 44900E < <10 <10 36 < N 44950E < <10 <10 18 < N 45000E < <10 <10 15 < N 43950E < <10 <10 87 < N 44000E < <10 <10 90 < N 44050E < <10 <10 85 < N 44100E < <10 <10 84 < N 44150E < < < N 44200E < <10 <10 90 < N 44250E < <10 <10 59 < N 44300E < <10 <10 74 < N 44350E < <10 <10 72 < N 44400E < <10 <10 73 < N 44450E < <10 <10 60 < N 44500E < < < N 44550E < < < N 44600E < <10 <10 66 < N 44650E < <10 <10 55 < N 44700E < < < N 44750E < <10 <10 71 < N 44800E < <10 <10 59 <10 95

70 Page: 3 - A Finalized Date: 4-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 44850E < < < N 44900E < <2 <10 50 <0.5 < < N 44950E 0.28 <0.005 < < < < N 45000E <2 < < < N 43950E < < < < N 44000E 0.40 <0.005 < <2 < < < N 44050E < < < < N 44100E < < < < N 44150E < < < < N 44200E < < < N 44250E 0.40 <0.005 < < < < N 44300E < < < < N 44350E < < < < N 44400E < <2 <10 70 <0.5 < < N 44450E < < < N 44500E < < < < N 44550E 0.30 < < < N 44600E 0.44 <0.005 < < < < N 44650E < < < < N 44700E < < < < N 44750E <10 50 <0.5 < < N 44800E < < < < N 44850E < <10 60 <0.5 < < N 44900E 0.34 <0.005 < <2 <10 60 <0.5 < < N 44950E < < < < N 45000E < <2 < < <

71 Page: 3 - B Finalized Date: 4-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 44850E 10 < < N 44900E 10 < < < N 44950E 10 < < < N 45000E 10 < < N 43950E 10 < < < N 44000E 10 < N 44050E 10 < < N 44100E 10 < < < N 44150E 10 < < N 44200E 10 < < N 44250E 10 < < < < N 44300E 10 < < N 44350E 10 < < N 44400E 10 < < < N 44450E 10 < < N 44500E 10 < < N 44550E 10 < < N 44600E 10 < < < N 44650E 10 < < N 44700E 10 < < < N 44750E 10 < < < N 44800E 10 < < N 44850E 10 < < < N 44900E 10 < < < < N 44950E 10 < < N 45000E 10 < < <2 1 7

72 Page: 3 - C Finalized Date: 4-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 44850E < <10 <10 47 < N 44900E < <10 <10 47 < N 44950E < <10 <10 56 < N 45000E < <10 <10 41 < N 43950E < <10 <10 95 < N 44000E < <10 <10 65 < N 44050E < <10 <10 78 < N 44100E < <10 <10 78 < N 44150E < <10 <10 84 < N 44200E < <10 <10 72 < N 44250E < <10 <10 82 < N 44300E < <10 <10 76 < N 44350E < <10 <10 83 < N 44400E < <10 <10 58 < N 44450E < <10 <10 71 < N 44500E < <10 <10 62 < N 44550E < <10 <10 69 < N 44600E < <10 <10 60 < N 44650E < <10 <10 63 < N 44700E < <10 <10 71 < N 44750E < <10 <10 44 < N 44800E < <10 <10 47 < N 44850E < <10 <10 48 < N 44900E < <10 <10 42 < N 44950E < <10 <10 53 < N 45000E < <10 <10 51 <10 115

73 Page: 1 Finalized Date: 4-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 73 Soil samples submitted to our lab in Vancouver, BC, Canada on 19-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

74 Page: 2 - A Finalized Date: 4-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 41400E 0.44 <0.005 < < <0.5 < < N 41450E < < <0.5 < < N 41500E < < <0.5 < < N 41550E 0.42 <0.005 < < <0.5 < < N 41600E < <0.5 < < N 41650E < < <0.5 < < N 41700E < <10 90 <0.5 < < N 41750E < < <0.5 < < N 41800E 0.34 < <10 90 <0.5 < < N 41850E < < <0.5 < < N 41900E 0.40 <0.005 < <2 < <0.5 < < N 41950E < < <0.5 < < N 42000E 0.38 <0.005 < < <0.5 < < N 42050E < <10 80 <0.5 < < N 42100E < <10 90 <0.5 < < N 42150E < <10 90 <0.5 < < N 42200E < <2 < <0.5 < < N 42250E < < <0.5 < < N 42300E < < <0.5 < < N 42350E < <2 < < < N 42400E < <2 < <0.5 < < N 42450E 0.36 <0.005 < < <0.5 < < N 42500E < < <0.5 < < N 42550E < < <0.5 < < N 42600E < < <0.5 < < N 42650E < < <0.5 < < N 42700E < < < < N 42750E <2 < <0.5 < < N 42800E < < <0.5 < < N 42850E < < <0.5 < < N 42900E < < <0.5 < < N 42950E < <2 < <0.5 < < N 43000E 0.40 <0.005 < < <0.5 < < N 43050E 0.34 <0.005 < <10 80 <0.5 < < N 43100E 0.44 <0.005 < < <0.5 < < N 43150E 0.40 < <10 70 <0.5 < < N 43200E 0.34 < <10 90 <0.5 < N 43250E 0.40 <0.005 < <10 60 <0.5 < < N 43300E 0.38 < <10 90 <0.5 < < N 43350E 0.42 <0.005 < <2 < <0.5 < <

75 Page: 2 - B Finalized Date: 4-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 41400E 10 < < < < N 41450E <10 < < < N 41500E 10 < < < < N 41550E 10 < < < < N 41600E <10 < < < N 41650E <10 < < < < < N 41700E 10 < < < < N 41750E 10 < < < N 41800E 10 < < < N 41850E 10 < < N 41900E 10 < < < < N 41950E 10 < < < < N 42000E 10 < < < < N 42050E <10 < < < < N 42100E <10 < < < < N 42150E 10 < < < < N 42200E 10 < < < < N 42250E <10 < < < < N 42300E 10 < < < N 42350E 10 < < < N 42400E 10 < < < N 42450E 10 < < < < N 42500E 10 < < < N 42550E 10 < < < N 42600E 10 < < < N 42650E <10 < < N 42700E 10 < < N 42750E 10 < < < N 42800E <10 < < < N 42850E 10 < < < N 42900E 10 < < N 42950E 10 < < < < N 43000E 10 < < < N 43050E 10 < < < < N 43100E 10 < < < < N 43150E 10 < < < N 43200E 10 < < < N 43250E < <1 < N 43300E 10 < < < < N 43350E 10 < < <

76 Page: 2 - C Finalized Date: 4-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 41400E < <10 <10 65 < N 41450E < <10 <10 67 < N 41500E < <10 <10 72 < N 41550E < <10 <10 63 < N 41600E < <10 <10 65 < N 41650E < <10 <10 74 < N 41700E < <10 <10 86 < N 41750E < <10 <10 85 < N 41800E < <10 <10 85 < N 41850E < <10 <10 79 < N 41900E < <10 <10 73 < N 41950E < <10 <10 80 < N 42000E < <10 <10 68 < N 42050E < <10 <10 58 < N 42100E < <10 <10 59 < N 42150E < <10 <10 55 < N 42200E < <10 <10 63 < N 42250E < <10 <10 61 < N 42300E < <10 <10 71 < N 42350E < <10 <10 76 < N 42400E < <10 <10 76 < N 42450E < <10 <10 73 < N 42500E < <10 <10 69 < N 42550E < <10 <10 72 < N 42600E < <10 <10 78 < N 42650E < <10 <10 77 < N 42700E < <10 <10 79 < N 42750E < <10 <10 92 < N 42800E < <10 <10 92 < N 42850E < <10 <10 95 < N 42900E < <10 <10 85 < N 42950E < <10 <10 94 < N 43000E < <10 <10 98 < N 43050E < <10 <10 93 < N 43100E < <10 < < N 43150E < <10 < < N 43200E < <10 < < N 43250E < <10 < < N 43300E < <10 < < N 43350E < <10 < <10 103

77 Page: 3 - A Finalized Date: 4-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 43400E 0.38 <0.005 < < <0.5 < < N 43450E 0.42 <0.005 < <2 < < < N 43500E 0.38 <0.005 < <2 < < < N 43550E 0.40 <0.005 < <2 < <0.5 < < N 43600E 0.34 <0.005 < < < < N 43650E 0.36 <0.005 < < < < N 43700E 0.36 <0.005 < < < < N 43750E 0.30 <0.005 < <2 < <0.5 < < N 43800E 0.34 <0.005 < < < < N 43850E 0.32 <0.005 < <2 < < < N 43900E 0.36 <0.005 < < <0.5 < N 43950E 0.30 <0.005 < < < < N 44000E 0.30 < < < < N 44050E 0.34 <0.005 < < < < N 44100E 0.36 <0.005 < <2 < < < N 44150E 0.38 < < < < N 44200E 0.48 <0.005 < < < < N 44250E 0.40 <0.005 < <2 < < < N 44300E 0.28 <0.005 < <2 < <0.5 < < N 44350E 0.34 <0.005 < < < < N 44400E 0.34 <0.005 < < < < N 44450E 0.30 <0.005 < < <0.5 < < N 44500E 0.38 <0.005 < < < < N 44550E 0.38 <0.005 < < < < N 44600E 0.42 <0.005 < < < < N 44650E 0.30 <0.005 < < < < N 44700E 0.38 <0.005 < <2 <10 70 <0.5 < < N 44750E 0.40 <0.005 < <10 60 <0.5 < < N 44800E 0.22 <0.005 < <2 <10 80 <0.5 < < N 44850E 0.30 <0.005 < <10 70 <0.5 < < N 44900E < < < N 44950E 0.30 < <2 < < < N 45000E 0.30 < <2 < <

78 Page: 3 - B Finalized Date: 4-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 43400E 10 < < < N 43450E 10 < < N 43500E 10 < < < < N 43550E 10 < < < N 43600E 10 < < N 43650E 10 < < < N 43700E 10 < < < N 43750E 10 < N 43800E 10 < < < N 43850E 10 < < < N 43900E 10 < < < N 43950E 10 < < < N 44000E 10 < < N 44050E 10 < < N 44100E 10 < < N 44150E 10 < N 44200E 10 < < N 44250E 10 < < N 44300E 10 < < < N 44350E 10 < < N 44400E 10 < < N 44450E 10 < < < N 44500E 10 < < N 44550E 10 < < N 44600E 10 < < N 44650E 10 < < N 44700E 10 < < < N 44750E 10 < < N 44800E <10 < < <2 < N 44850E 10 < < N 44900E 10 < < N 44950E 10 < < N 45000E 10 < <2 2 37

79 Page: 3 - C Finalized Date: 4-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 43400E < <10 < < N 43450E < <10 < < N 43500E < <10 < < N 43550E < <10 < < N 43600E < <10 < < N 43650E < <10 <10 93 < N 43700E < <10 < < N 43750E < <10 <10 99 < N 43800E < <10 <10 85 < N 43850E < <10 <10 68 < N 43900E < <10 <10 61 < N 43950E < <10 <10 69 < N 44000E < <10 <10 55 < N 44050E < <10 <10 57 < N 44100E < <10 <10 62 < N 44150E < <10 <10 54 < N 44200E < <10 <10 73 < N 44250E < <10 <10 69 < N 44300E < <10 <10 72 < N 44350E < <10 <10 76 < N 44400E < <10 <10 64 < N 44450E < <10 <10 67 < N 44500E < <10 <10 73 < N 44550E < <10 <10 61 < N 44600E < <10 <10 73 < N 44650E < <10 <10 76 < N 44700E < <10 <10 35 < N 44750E < <10 <10 45 < N 44800E < <10 <10 26 < N 44850E < <10 <10 41 < N 44900E < <10 <10 56 < N 44950E < <10 <10 44 < N 45000E < <10 <10 42 <10 168

80 Page: 1 Finalized Date: 6-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 73 Soil samples submitted to our lab in Vancouver, BC, Canada on 19-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

81 Page: 2 - A Finalized Date: 6-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 41400E < < <0.5 < < N 41450E 0.34 <0.005 < < <0.5 < < N 41500E < <0.5 < < N 41550E 0.30 <0.005 < < <0.5 < < N 41600E 0.30 < < <0.5 < < N 41650E 0.46 <0.005 < < <0.5 < < N 41700E 0.40 <0.005 < < <0.5 < < N 41750E 0.42 < < <0.5 < < N 41800E <10 90 <0.5 < < N 41850E 0.44 <0.005 < < <0.5 < < N 41900E 0.44 <0.005 < < <0.5 < < N 41950E 0.42 <0.005 < < <0.5 < < N 42000E 0.46 < < <0.5 < < N 42050E 0.34 <0.005 < < <0.5 < < N 42100E < <0.5 < < N 42150E < < < < N 42200E 0.36 <0.005 < < < < N 42250E 0.46 <0.005 < < < N 42300E 0.36 <0.005 < < < N 42350E 0.36 <0.005 < < < < N 42400E 0.46 <0.005 < < < < N 42450E 0.38 <0.005 < < < < N 42500E 0.40 <0.005 < < < < N 42550E 0.32 <0.005 < < < < N 42600E < < < < N 42650E < < < < N 42700E 0.30 <0.005 < < < < N 42750E < <2 <10 80 < < N 42800E 0.30 <0.005 < < < < N 42850E < < < < N 42900E < < < < N 42950E 0.34 <0.005 < < < < N 43000E 0.40 <0.005 < < < < N 43050E 0.36 <0.005 < <10 90 < < N 43100E 0.34 <0.005 < <10 90 < < N 43150E 0.34 <0.005 < < < N 43200E 0.34 < < N 43250E 0.34 <0.005 < <10 90 < N 43300E 0.32 <0.005 < <2 <10 90 < < N 43350E 0.34 <0.005 < <2 < < <

82 Page: 2 - B Finalized Date: 6-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 41400E 10 < < < < N 41450E 10 < < < < N 41500E 10 < < < < N 41550E 10 < < < < N 41600E 10 < < < < N 41650E 10 < < N 41700E 10 < < < N 41750E 10 < < < N 41800E 10 < < N 41850E 10 < < < < N 41900E 10 < < < < N 41950E 10 < < < < N 42000E <10 < < < N 42050E 10 < < < < N 42100E 10 < < < N 42150E 10 < N 42200E 10 < < < N 42250E 10 < < N 42300E 10 < < N 42350E 10 < < N 42400E 10 < < N 42450E 10 < < < N 42500E 10 < < N 42550E 10 < N 42600E 10 < < N 42650E 10 < N 42700E 10 < < < N 42750E 10 < < N 42800E 10 < < N 42850E 10 < < N 42900E 10 < < N 42950E 10 < < N 43000E 10 < < N 43050E 10 < < N 43100E 10 < < < N 43150E 10 < < N 43200E 10 < < N 43250E 10 < < < N 43300E 10 < < < N 43350E 10 < <

83 Page: 2 - C Finalized Date: 6-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 41400E < <10 <10 89 < N 41450E < <10 <10 79 < N 41500E < <10 <10 89 < N 41550E < <10 <10 78 < N 41600E < <10 <10 85 < N 41650E < <10 <10 81 < N 41700E < <10 <10 75 < N 41750E < <10 <10 79 < N 41800E < <10 <10 91 < N 41850E < <10 <10 89 < N 41900E < <10 <10 82 < N 41950E < <10 <10 69 < N 42000E < <10 <10 64 < N 42050E < <10 <10 51 < N 42100E < <10 <10 69 < N 42150E < <10 <10 66 < N 42200E < <10 <10 63 < N 42250E < <10 <10 58 < N 42300E < <10 <10 70 < N 42350E < <10 <10 72 < N 42400E < <10 <10 79 < N 42450E < <10 <10 66 < N 42500E < <10 <10 83 < N 42550E < <10 <10 75 < N 42600E < <10 <10 78 < N 42650E < <10 <10 89 < N 42700E < <10 <10 82 < N 42750E < <10 <10 90 < N 42800E < <10 <10 88 < N 42850E < <10 <10 79 < N 42900E < <10 <10 75 < N 42950E < <10 <10 88 < N 43000E < <10 < < N 43050E < <10 <10 99 < N 43100E < <10 < < N 43150E < <10 < < N 43200E < <10 < < N 43250E < <10 < < N 43300E < <10 < < N 43350E < <10 < <10 101

84 Page: 3 - A Finalized Date: 6-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 43400E 0.34 <0.005 < < < < N 43450E 0.44 <0.005 < < < N 43500E 0.36 <0.005 < < < < N 43550E 0.34 <0.005 < < < N 43600E 0.30 <0.005 < < < < N 43650E 0.32 <0.005 < < < N 43700E 0.34 <0.005 < < < N 43750E 0.32 <0.005 < < N 43800E 0.26 <0.005 < < N 43850E < < < N 43900E 0.30 <0.005 < < < N 43950E 0.26 <0.005 < < < N 44000E 0.24 <0.005 < <10 90 < < N 44050E 0.30 <0.005 < < < N 44100E 0.34 <0.005 < < < N 44150E 0.38 <0.005 < < < N 44200E 0.36 <0.005 < < < N 44250E 0.34 <0.005 < < N 44300E < < < N 44350E 0.34 <0.005 < < < N 44400E 0.26 <0.005 < < < N 44450E 0.32 <0.005 < < < < N 44500E < <10 80 < < N 44550E 0.34 <0.005 < < < N 44600E 0.30 <0.005 < < N 44650E 0.34 <0.005 < < N 44700E 0.30 <0.005 < <10 60 < < N 44750E 0.30 <0.005 < <10 80 < < N 44800E < < < N 44850E 0.36 <0.005 < < < N 44900E 0.34 <0.005 < < N 44950E 0.34 <0.005 < < N 45000E 0.30 <0.005 < <10 80 < <

85 Page: 3 - B Finalized Date: 6-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 43400E 10 < < N 43450E 10 < < N 43500E 10 < < N 43550E 10 < < N 43600E 10 < < < N 43650E 10 < < < N 43700E 10 < < N 43750E 10 < < N 43800E 10 < < N 43850E < N 43900E 10 < < N 43950E 10 < < N 44000E 10 < < < N 44050E 10 < N 44100E 10 < < N 44150E 10 < < N 44200E 10 < < N 44250E 10 < N 44300E 10 < < N 44350E 10 < < N 44400E 10 < N 44450E 10 < N 44500E 10 < < N 44550E 10 < N 44600E 10 < N 44650E 10 < < N 44700E 10 < < N 44750E 10 < < N 44800E 10 < < N 44850E 10 < < N 44900E 10 < < N 44950E 10 < < N 45000E 10 < < <2 1 11

86 Page: 3 - C Finalized Date: 6-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 43400E < <10 < < N 43450E < <10 < < N 43500E < <10 <10 91 < N 43550E < <10 <10 91 < N 43600E < <10 <10 82 < N 43650E < <10 <10 77 < N 43700E < <10 <10 83 < N 43750E < <10 <10 89 < N 43800E < <10 <10 82 < N 43850E < <10 <10 66 < N 43900E < <10 <10 57 < N 43950E < <10 <10 48 < N 44000E < <10 <10 45 < N 44050E < <10 <10 73 < N 44100E < <10 <10 68 < N 44150E < <10 <10 55 < N 44200E < <10 <10 74 < N 44250E < <10 <10 86 < N 44300E < <10 <10 93 < N 44350E < <10 <10 85 < N 44400E < <10 <10 80 < N 44450E < <10 <10 73 < N 44500E < <10 <10 62 < N 44550E < <10 <10 76 < N 44600E < <10 <10 67 < N 44650E < <10 <10 36 < N 44700E < <10 <10 46 < N 44750E < <10 <10 48 < N 44800E < <10 <10 65 < N 44850E < <10 <10 55 < N 44900E < <10 <10 61 < N 44950E < <10 <10 64 < N 45000E < <10 <10 56 <10 57

87 Page: 1 Finalized Date: 8-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 73 Soil samples submitted to our lab in Vancouver, BC, Canada on 19-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight SCR-41 Screen to -180um and save both LOG-22 Sample login - Rcd w/o BarCode ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

88 Page: 2 - A Finalized Date: 8-OCT-2008 VA WEI-21 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga kg ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm N 41400E < <0.5 < < N 41450E < <0.5 < < N 41500E < <0.5 < < N 41550E < <0.5 < < N 41600E < <0.5 < < N 41650E 0.42 < < <0.5 < < N 41700E < <0.5 < < N 41750E < <0.5 < < N 41800E < <0.5 < < N 41850E <10 90 <0.5 < < N 41900E < <0.5 < < N 41950E < <0.5 < < N 42000E 0.44 < < <0.5 < < < N 42050E < < < N 42100E < <0.5 < < N 42150E < <0.5 < < < N 42200E < < N 42250E < <0.5 < < N 42300E <10 80 <0.5 < < N 42350E < <0.5 < < N 42400E <10 80 <0.5 < < N 42450E < < < N 42500E <2 < < < N 42550E <10 70 <0.5 < < N 42600E <2 < < < N 42650E < < < N 42700E <2 <10 70 <0.5 < < N 42750E 0.34 < <2 < < < N 42800E <10 90 <0.5 < < N 42850E < < < N 42900E <10 70 <0.5 < < N 42950E <2 < <0.5 < < N 43000E < < < N 43050E < < N 43100E 0.34 < < <0.5 < < N 43150E < < N 43200E < <0.5 < < N 43250E <10 80 <0.5 < < N 43300E < <0.5 < < N 43350E <2 < <0.5 < <

89 Page: 2 - B Finalized Date: 8-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Th ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm ppm N 41400E < < < N 41450E < < < N 41500E < < < <0.01 < < N 41550E < <0.01 < < N 41600E < < < N 41650E < < < N 41700E < < < N 41750E < < < N 41800E < <0.01 < < N 41850E < <0.01 < < N 41900E < <0.01 < < N 41950E < < < < N 42000E < < < N 42050E < < < < N 42100E < < < N 42150E < < < < N 42200E < < < < N 42250E < < < N 42300E < <2 4 9 < N 42350E < < < N 42400E < <2 5 9 < N 42450E < < < N 42500E < < < N 42550E < <2 5 9 < N 42600E < < < N 42650E < < < N 42700E < < <2 4 8 < N 42750E < < < N 42800E < < N 42850E < < < N 42900E < < < N 42950E < < N 43000E < < < N 43050E < < < N 43100E < < < < N 43150E < < < N 43200E < < < N 43250E < < < < N 43300E < < < N 43350E < < < <20

90 Page: 2 - C Finalized Date: 8-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Au-AA23 Ti Tl U V W Zn Au % ppm ppm ppm ppm ppm ppm N 41400E 0.18 <10 <10 93 <10 86 < N 41450E 0.16 <10 <10 93 <10 91 < N 41500E 0.15 <10 <10 95 <10 89 < N 41550E 0.09 <10 <10 84 < N 41600E 0.09 <10 <10 86 <10 85 < N 41650E 0.07 <10 <10 85 < N 41700E 0.12 <10 <10 90 <10 91 < N 41750E 0.13 <10 <10 85 < < N 41800E 0.13 <10 <10 90 < N 41850E 0.12 <10 <10 78 <10 77 < N 41900E 0.12 <10 <10 88 <10 81 < N 41950E 0.15 <10 <10 63 <10 75 < N 42000E 0.12 <10 <10 67 <10 73 < N 42050E 0.10 <10 <10 64 < N 42100E 0.09 <10 <10 72 <10 82 < N 42150E 0.10 <10 <10 66 <10 78 < N 42200E 0.08 <10 <10 66 <10 91 < N 42250E 0.09 <10 <10 64 <10 90 < N 42300E 0.10 <10 <10 69 <10 86 < N 42350E 0.10 <10 <10 74 < < N 42400E 0.09 <10 <10 82 < < N 42450E 0.09 <10 <10 70 < < N 42500E 0.08 <10 <10 79 < N 42550E 0.08 <10 <10 79 < < N 42600E 0.09 <10 <10 79 < < N 42650E 0.16 <10 <10 98 < < N 42700E 0.12 <10 <10 97 <10 78 < N 42750E 0.13 <10 < < N 42800E 0.09 <10 < <10 73 < N 42850E 0.10 <10 <10 77 <10 75 < N 42900E 0.08 <10 <10 65 <10 83 < N 42950E 0.06 <10 < < < N 43000E 0.03 <10 < <10 85 < N 43050E 0.07 <10 <10 86 <10 89 < N 43100E 0.07 <10 <10 92 <10 91 < N 43150E 0.09 <10 <10 77 < N 43200E 0.08 <10 < < < N 43250E 0.16 <10 < < < N 43300E 0.13 <10 <10 78 < < N 43350E 0.18 <10 < < <0.005

91 Page: 3 - A Finalized Date: 8-OCT-2008 VA WEI-21 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga kg ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm N 43400E 0.36 < < <0.5 < < N 43450E <10 90 <0.5 < < N 43500E <10 70 <0.5 < < N 43550E <10 60 <0.5 < < N 43600E <10 90 <0.5 < < N 43650E 0.36 < <2 < < < N 43700E 0.34 < < < < N 43750E 0.26 < < < < N 43800E 0.36 < <10 70 <0.5 < < N 43850E 0.32 < < < N 43900E <2 < < N 43950E <10 50 <0.5 < < N 44000E 0.32 < <10 50 <0.5 < < N 44050E 0.36 < <2 < < < N 44100E <2 < < < N 44150E 0.34 < <2 < < < N 44200E 0.30 < <2 <10 50 <0.5 < < N 44250E <2 <10 50 <0.5 < < N 44300E <2 < <0.5 < < N 44350E 0.40 < < < < N 44400E <2 < < < N 44450E <2 < < < N 44500E 0.44 < < < < N 44550E 0.40 < < < < N 44600E <2 < < N 44650E < N 44700E < < N 44750E 0.36 < < < < N 44800E < < N 44850E < < < N 44900E < < N 44950E 0.34 < <2 < < N 45000E <2 <10 50 <0.5 < <

92 Page: 3 - B Finalized Date: 8-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Th ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm ppm N 43400E < < < < N 43450E < < < N 43500E < < < N 43550E < < < N 43600E < < < N 43650E < < < < N 43700E < < < N 43750E < < < N 43800E < < N 43850E < < < N 43900E < < < N 43950E < < N 44000E < < < N 44050E < <2 1 9 < N 44100E < < N 44150E < < N 44200E < < < < N 44250E < < N 44300E < < < N 44350E < < < N 44400E < < < N 44450E < < < N 44500E < < N 44550E < < < N 44600E < < N 44650E < < N 44700E < < < N 44750E < < N 44800E < < < N 44850E < < N 44900E < < < N 44950E < < < N 45000E <2 1 6 <20

93 Page: 3 - C Finalized Date: 8-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Au-AA23 Ti Tl U V W Zn Au % ppm ppm ppm ppm ppm ppm N 43400E 0.14 <10 < < < N 43450E 0.07 <10 <10 95 <10 82 < N 43500E 0.12 <10 <10 76 <10 63 < N 43550E 0.08 <10 <10 62 <10 67 < N 43600E 0.08 <10 <10 74 <10 66 < N 43650E 0.07 <10 <10 77 <10 85 < N 43700E 0.08 <10 <10 78 <10 81 < N 43750E 0.05 <10 <10 58 <10 53 < N 43800E 0.13 <10 < <10 74 < N 43850E 0.21 <10 < < < N 43900E 0.13 <10 <10 78 < < N 43950E 0.08 <10 <10 61 <10 56 < N 44000E 0.07 <10 <10 60 <10 45 < N 44050E 0.01 <10 <10 77 <10 69 < N 44100E 0.05 <10 <10 58 <10 50 < N 44150E 0.03 <10 <10 48 <10 47 < N 44200E 0.07 <10 <10 52 <10 33 < N 44250E 0.06 <10 <10 63 <10 69 < N 44300E 0.08 <10 <10 65 <10 66 < N 44350E 0.12 <10 <10 65 <10 77 < N 44400E 0.06 <10 <10 70 < < N 44450E 0.06 <10 <10 57 < < N 44500E 0.02 <10 <10 66 < < N 44550E 0.03 <10 <10 62 < < N 44600E 0.06 <10 <10 52 < < N 44650E 0.03 <10 <10 60 < < N 44700E 0.04 < < < N 44750E 0.09 <10 <10 78 < < N 44800E 0.05 <10 <10 61 < < N 44850E 0.05 <10 <10 68 < < N 44900E 0.05 < < < N 44950E 0.05 <10 <10 56 < < N 45000E 0.08 <10 <10 31 <10 27 <0.005

94 Page: 1 Finalized Date: 10-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 19-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

95 Page: 2 - A Finalized Date: 10-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 41400E 0.32 <0.005 < < <0.5 < < N 41450E < < <0.5 < < N 41500E 0.34 <0.005 < < <0.5 < < N 41550E < < <0.5 < < N 41600E < < <0.5 < < N 41650E < <10 90 <0.5 < < N 41700E < <10 80 <0.5 < < N 41750E < <0.5 < < N 41800E < < <0.5 < < N 41850E < < <0.5 < < N 41900E < < <0.5 < < N 41950E 0.36 <0.005 < < <0.5 < < N 42000E 0.40 <0.005 < < <0.5 < < N 42050E 0.42 <0.005 < < < < N 42100E 0.40 < < <0.5 < < N 42150E < <0.5 < < N 42200E < < < N 42250E 0.36 <0.005 < < < < N 42300E 0.34 <0.005 < < <0.5 < < N 42350E < < <0.5 < < N 42400E 0.28 < < <0.5 < N 42450E < < < < N 42500E 0.32 <0.005 < < <0.5 < < N 42550E < < <0.5 < N 42600E 0.36 <0.005 < < <0.5 < N 42650E < < <0.5 < < N 42700E < <2 <10 90 <0.5 < < N 42750E 0.28 <0.005 < < <0.5 < < N 42800E 0.30 <0.005 < < <0.5 < < N 42850E < < <0.5 < < N 42900E 0.38 <0.005 < < <0.5 < < N 42950E < < <0.5 < < N 43000E 0.32 <0.005 < < < < N 43050E 0.26 <0.005 < <2 <10 70 <0.5 < < N 43100E < < < < N 43150E < < < < N 43200E 0.36 <0.005 < <10 90 <0.5 < < N 43250E < < < N 43300E 0.26 <0.005 < <10 80 <0.5 < < N 43350E 0.30 < <10 90 <0.5 < <

96 Page: 2 - B Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 41400E < <0.01 < N 41450E 10 < < < <0.01 < N 41500E 10 < < < < N 41550E 10 < < < < N 41600E 10 < < N 41650E 10 < < < N 41700E 10 < < N 41750E 10 < < < N 41800E 10 < < < N 41850E < <0.01 < N 41900E 10 < < < < N 41950E 10 < < < < N 42000E 10 < < < < N 42050E <1 < < N 42100E < <1 < < N 42150E 10 < < < N 42200E 10 < <0.01 < N 42250E 10 < < N 42300E < N 42350E 10 < < N 42400E 10 < < N 42450E 10 < < N 42500E 10 < < < < N 42550E 10 < < < N 42600E < N 42650E 10 < < < N 42700E 10 < <1 < <0.01 < N 42750E < <1 < < N 42800E 10 < < < N 42850E 10 < < < < N 42900E < < N 42950E 10 < < < < N 43000E < N 43050E 10 < < < < N 43100E 10 < < N 43150E 10 < < N 43200E 10 < < < N 43250E 10 < < < N 43300E 10 < < < <0.01 < N 43350E 10 < < <

97 Page: 2 - C Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 41400E < <10 <10 94 < N 41450E < <10 < < N 41500E < <10 <10 83 < N 41550E < <10 < < N 41600E < <10 <10 92 < N 41650E < <10 <10 83 < N 41700E < <10 <10 84 < N 41750E < <10 <10 90 < N 41800E < <10 < < N 41850E < <10 <10 95 < N 41900E < <10 <10 74 < N 41950E < <10 <10 89 < N 42000E < <10 <10 79 < N 42050E < <10 <10 84 < N 42100E < <10 <10 76 < N 42150E < <10 <10 95 < N 42200E < <10 <10 77 < N 42250E < <10 <10 73 < N 42300E < <10 <10 76 < N 42350E < <10 <10 67 < N 42400E < <10 <10 32 < N 42450E < <10 <10 94 < N 42500E < <10 < < N 42550E < <10 <10 93 < N 42600E < <10 <10 89 < N 42650E < <10 < < N 42700E < <10 <10 54 < N 42750E < <10 <10 80 < N 42800E < <10 <10 72 < N 42850E < <10 <10 67 < N 42900E < <10 <10 63 < N 42950E < <10 <10 84 < N 43000E < <10 <10 96 < N 43050E < <10 <10 71 < N 43100E < <10 <10 88 < N 43150E < <10 < < N 43200E < <10 <10 74 < N 43250E < <10 <10 75 < N 43300E < <10 <10 73 < N 43350E < <10 <10 87 <10 78

98 Page: 3 - A Finalized Date: 10-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 43400E 0.28 < <10 50 <0.5 < < N 43450E 0.28 < <10 40 <0.5 < < N 43500E 0.28 < < < < N 43550E 0.28 < <10 60 <0.5 < < N 43600E 0.32 <0.005 < < < < N 43650E 0.32 <0.005 < <10 50 <0.5 < < N 43700E 0.36 <0.005 < <10 90 <0.5 < < N 43750E 0.32 <0.005 < < < < N 43800E 0.34 <0.005 < < < < N 43850E 0.30 <0.005 < <10 60 <0.5 < < N 43900E 0.34 <0.005 < <10 80 <0.5 < < N 43950E 0.32 <0.005 < <10 80 <0.5 < < N 44000E 0.34 <0.005 < < < N 44050E < < < N 44100E 0.34 <0.005 < < < N 44150E 0.36 < < < N 44200E < < < < N 44250E 0.32 <0.005 < <10 60 <0.5 < < N 44300E 0.28 <0.005 < < < N 44350E 0.28 <0.005 < <10 60 <0.5 < < N 44400E 0.30 <0.005 < < <0.5 < < N 44450E 0.30 <0.005 < <10 80 <0.5 < <

99 Page: 3 - B Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 43400E 10 < < < < N 43450E 10 < < < < N 43500E 10 < < N 43550E < < N 43600E 10 < < N 43650E < < <0.01 < N 43700E 10 < < < <0.01 < N 43750E 10 < < N 43800E 10 < < < N 43850E 10 < < < N 43900E 10 < < < N 43950E 10 < < < N 44000E < < N 44050E 10 < < < N 44100E 10 < < N 44150E 10 < < < N 44200E 10 < < < N 44250E 10 < < < < N 44300E 10 < < < N 44350E < < < N 44400E 10 < < < N 44450E 10 < < <2 1 11

100 Page: 3 - C Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 43400E < <10 <10 62 < N 43450E < <10 <10 65 < N 43500E < <10 <10 89 < N 43550E < <10 <10 67 < N 43600E < <10 <10 80 < N 43650E < <10 <10 54 < N 43700E < <10 <10 86 < N 43750E < <10 <10 78 < N 43800E < <10 < < N 43850E < <10 < < N 43900E < <10 <10 88 < N 43950E < <10 <10 68 < N 44000E < <10 <10 70 < N 44050E < <10 <10 68 < N 44100E < <10 <10 67 < N 44150E < <10 <10 67 < N 44200E < <10 <10 69 < N 44250E < <10 <10 61 < N 44300E < <10 <10 70 < N 44350E < <10 <10 55 < N 44400E < <10 <10 83 < N 44450E < <10 <10 74 <10 56

101 Page: 1 Finalized Date: 7-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 21-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

102 Page: 2 - A Finalized Date: 7-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 41400E 0.42 <0.005 < < <0.5 < < N 41450E <10 90 <0.5 < < N 41500E < <0.5 < < N 41550E < <0.5 < < N 41600E 0.46 < < <0.5 < < N 41650E < < <0.5 < < N 41700E < <0.5 < < N 41750E < < < N 41800E < <0.5 < N 41850E < <0.5 < < N 41900E 0.34 < <10 90 <0.5 < < N 41950E < <0.5 < < N 42000E 0.26 < < < N 42050E 0.34 < < <0.5 < N 42100E 0.30 < < < < N 42150E < <0.5 < < N 42200E 0.40 < <10 80 <0.5 < < N 42250E 0.38 < <10 90 <0.5 < N 42300E < <0.5 < N 42350E < <0.5 < N 42400E 0.30 < <10 90 <0.5 < N 42450E < <0.5 < N 42500E 0.36 < <10 80 < N 42550E < <0.5 < N 42600E 0.36 < < <0.5 < < N 42650E < < N 42700E <10 90 <0.5 < N 42750E < < < N 42800E 0.38 < < <0.5 < < N 42850E 0.38 < <10 90 <0.5 < < N 42900E 0.28 < < <0.5 < < N 42950E < < N 43000E 0.36 < <10 80 <0.5 < < N 43050E 0.32 < < <0.5 < < N 43100E 0.32 < < < < N 43150E 0.34 < < < N 43200E 0.26 < < < < N 43250E < < < N 43300E 0.32 < <10 70 <0.5 < < N 43350E 0.38 < <10 90 <0.5 < <

103 Page: 2 - B Finalized Date: 7-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 41400E 10 < < < < N 41450E 10 < N 41500E < < N 41550E 10 < < N 41600E 10 < < < < N 41650E 10 < < < N 41700E < N 41750E 10 < < N 41800E 10 < N 41850E < < N 41900E < < N 41950E 10 < < < N 42000E 10 < < N 42050E < < N 42100E 10 < < < N 42150E 10 < < N 42200E < < N 42250E 10 < < N 42300E 10 < < < N 42350E 10 < < < N 42400E < < N 42450E < N 42500E < < N 42550E < N 42600E 10 < < < < N 42650E < < N 42700E 10 < < < N 42750E < < N 42800E 10 < < < N 42850E 10 < < < < N 42900E < < < N 42950E < < N 43000E <10 < < <1 < <0.01 < N 43050E < N 43100E < < N 43150E < < N 43200E 10 < < < N 43250E 10 < < < N 43300E < N 43350E 10 < < <2 6 20

104 Page: 2 - C Finalized Date: 7-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 41400E < <10 <10 82 < N 41450E < <10 <10 81 < N 41500E < <10 <10 76 < N 41550E < <10 <10 86 < N 41600E < <10 < < N 41650E < <10 <10 94 < N 41700E < <10 < < N 41750E < <10 <10 76 < N 41800E < <10 <10 81 < N 41850E < <10 <10 76 < N 41900E < <10 <10 86 < N 41950E < <10 <10 66 < N 42000E < <10 <10 49 < N 42050E < <10 <10 77 < N 42100E < <10 <10 91 < N 42150E < <10 <10 73 < N 42200E < <10 <10 74 < N 42250E < <10 <10 86 < N 42300E < <10 <10 87 < N 42350E < <10 <10 74 < N 42400E < <10 <10 85 < N 42450E < <10 <10 81 < N 42500E < <10 <10 88 < N 42550E < <10 <10 73 < N 42600E < <10 <10 77 < N 42650E < <10 <10 56 < N 42700E < <10 <10 68 < N 42750E < <10 <10 79 < N 42800E < <10 <10 86 < N 42850E < <10 <10 86 < N 42900E < <10 <10 91 < N 42950E < <10 <10 95 < N 43000E < <10 <10 82 < N 43050E < <10 <10 96 < N 43100E < <10 <10 81 < N 43150E < <10 <10 75 < N 43200E < <10 <10 88 < N 43250E < <10 < < N 43300E < <10 < < N 43350E < <10 < <10 79

105 Page: 3 - A Finalized Date: 7-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 43400E 0.28 < <10 90 <0.5 < < N 43450E 0.30 < <10 50 <0.5 < < N 43500E 0.40 < < < N 43550E 0.28 < <2 < < N 43600E 0.36 < < < N 43650E 0.34 < <10 40 <0.5 < < N 43700E 0.34 < < < < N 43750E 0.40 <0.005 < < < < N 43800E 0.34 < < < < N 43850E 0.30 < < < N 43900E 0.34 <0.005 < < < < N 43950E 0.38 <0.005 < <10 90 <0.5 < < N 44000E 0.38 < < N 44050E < < < N 44100E 0.40 <0.005 < < < N 44150E 0.28 <0.005 < <10 50 <0.5 < < N 44200E 0.30 < < <0.5 < < N 44250E 0.34 < < < N 44300E < < N 44350E < <2 <10 90 <0.5 < < N 44400E 0.32 < <2 <10 40 <0.5 < < N 44450E <10 60 <0.5 < <

106 Page: 3 - B Finalized Date: 7-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 43400E 10 < < < < N 43450E 10 < < < < N 43500E 10 < < < N 43550E 10 < < < N 43600E 10 < < N 43650E 10 < < < N 43700E 10 < N 43750E 10 < < N 43800E 10 < N 43850E 10 < < N 43900E 10 < < N 43950E 10 < < < < N 44000E 10 < < N 44050E 10 < < < N 44100E 10 < < N 44150E 10 < < < < N 44200E 10 < < N 44250E < N 44300E 10 < < N 44350E 10 < < N 44400E <10 < < < <0.01 < N 44450E 10 < <2 1 16

107 Page: 3 - C Finalized Date: 7-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 43400E < <10 < < N 43450E < <10 < < N 43500E < <10 <10 91 < N 43550E < <10 <10 69 < N 43600E < <10 <10 85 < N 43650E < <10 <10 78 < N 43700E < <10 <10 74 < N 43750E < <10 <10 87 < N 43800E < <10 <10 81 < N 43850E < <10 <10 91 < N 43900E < <10 <10 88 < N 43950E < <10 <10 76 < N 44000E < <10 <10 81 < N 44050E < <10 <10 83 < N 44100E < <10 <10 78 < N 44150E < <10 <10 74 < N 44200E < <10 <10 77 < N 44250E < <10 <10 84 < N 44300E < <10 < < N 44350E < <10 <10 94 < N 44400E < <10 <10 56 < N 44450E < <10 <10 58 <10 41

108 Page: 1 Finalized Date: 6-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 19-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

109 Page: 2 - A Finalized Date: 6-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 41400E < < <0.5 < < N 41450E < < <0.5 < < N 41500E < < <0.5 < < N 41550E < < <0.5 < < N 41600E 0.28 <0.005 < < <0.5 < < N 41650E < <0.5 < N 41700E < < <0.5 < < N 41750E < <2 < <0.5 < < N 41800E < < <0.5 < < N 41850E < < <0.5 < N 41900E 0.44 < < <0.5 < < N 41950E < <0.5 < < N 42000E < < N 42050E < <0.5 < N 42100E < < < N 42150E 0.34 < < < < N 42200E < < < N 42250E 0.28 < <2 < < < N 42300E 0.30 <0.005 < <2 < <0.5 < < N 42350E 0.38 < <10 90 <0.5 < < N 42400E 0.30 <0.005 < < <0.5 < N 42450E 0.36 <0.005 < <2 <10 90 <0.5 < N 42500E <2 < < N 42550E 0.36 < < < < N 42600E <2 < < N 42650E < <0.5 < < N 42700E <10 90 <0.5 < < N 42750E < <0.5 < < N 42800E 0.40 <0.005 < < <0.5 < < N 42850E 0.38 <0.005 < <10 80 <0.5 < < N 42900E < <0.5 < < N 42950E <10 70 <0.5 < < N 43000E 0.38 <0.005 < < <0.5 < < N 43050E 0.38 <0.005 < < <0.5 < < N 43100E 0.38 < < <0.5 < < N 43150E 0.32 < < < < N 43200E 0.28 < < < N 43250E < < N 43300E <10 70 <0.5 < < N 43350E 0.38 < < <0.5 < <

110 Page: 2 - B Finalized Date: 6-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 41400E 10 < < < < N 41450E 10 < < N 41500E 10 < < N 41550E 10 < < < N 41600E 10 < < < < N 41650E 10 < <0.01 < N 41700E 10 < < < N 41750E < < <0.01 < N 41800E 10 < < <0.01 < N 41850E 10 < < <0.01 < N 41900E 10 < < <0.01 < N 41950E 10 < <0.01 < N 42000E <0.01 < N 42050E 10 < <0.01 < N 42100E 10 < < N 42150E 10 < <0.01 < N 42200E 10 < < <0.01 < N 42250E 10 < < < N 42300E 10 < < < N 42350E 10 < <0.01 < N 42400E 10 < <0.01 < N 42450E 10 < <0.01 < N 42500E 10 < < N 42550E <0.01 < N 42600E 10 < <0.01 < N 42650E 10 < <0.01 < N 42700E 10 < < <0.01 < N 42750E 10 < < <0.01 < N 42800E 10 < <0.01 < N 42850E 10 < < <0.01 < N 42900E 10 < < <0.01 < N 42950E 10 < < < <0.01 < N 43000E < <0.01 < N 43050E 10 < < < <0.01 < N 43100E 10 < < <0.01 < N 43150E 10 < < <0.01 < N 43200E 10 < <0.01 < N 43250E <0.01 < N 43300E 10 < < < N 43350E 10 < < <0.01 <2 5 24

111 Page: 2 - C Finalized Date: 6-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 41400E < <10 <10 88 < N 41450E < <10 <10 72 < N 41500E < <10 <10 94 < N 41550E < <10 <10 81 < N 41600E < <10 <10 54 < N 41650E < <10 <10 65 < N 41700E < <10 <10 86 < N 41750E < <10 < < N 41800E < <10 < < N 41850E < <10 <10 86 < N 41900E < <10 <10 88 < N 41950E < <10 <10 76 < N 42000E < <10 <10 75 < N 42050E < <10 <10 75 < N 42100E < <10 <10 60 < N 42150E < <10 <10 81 < N 42200E < <10 <10 73 < N 42250E < <10 <10 58 < N 42300E < <10 <10 72 < N 42350E < <10 <10 47 < N 42400E < <10 <10 62 < N 42450E < <10 <10 88 < N 42500E < <10 <10 54 < N 42550E < <10 <10 73 < N 42600E < <10 <10 73 < N 42650E < <10 <10 84 < N 42700E < <10 <10 75 < N 42750E < <10 < < N 42800E < <10 <10 80 < N 42850E < <10 <10 71 < N 42900E < <10 <10 76 < N 42950E < <10 <10 80 < N 43000E < <10 <10 86 < N 43050E < <10 <10 83 < N 43100E < <10 <10 83 < N 43150E < <10 <10 66 < N 43200E < <10 <10 80 < N 43250E < <10 < < N 43300E < <10 < < N 43350E < <10 <10 89 <10 56

112 Page: 3 - A Finalized Date: 6-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 43400E 0.32 < <10 70 <0.5 < < N 43450E 0.36 < < < N 43500E 0.34 < <10 80 <0.5 < < N 43550E 0.36 < < < < N 43600E < <0.5 < < N 43650E 0.38 < <10 80 <0.5 < < N 43700E <2 < < < N 43750E <10 70 <0.5 < < N 43800E < < < N 43850E < < < N 43900E < <0.5 < < N 43950E 0.28 < < < N 44000E < < < N 44050E 0.32 < < < < N 44100E 0.34 < < < < N 44150E 0.30 < < < < N 44200E < < N 44250E <2 <10 70 <0.5 < < N 44300E < < <0.5 < < N 44350E 0.28 < <10 70 <0.5 < < N 44400E 0.32 < < < < N 44450E 0.36 < < < <

113 Page: 3 - B Finalized Date: 6-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 43400E 10 < < <0.01 < N 43450E < N 43500E 10 < < N 43550E 10 < < < N 43600E 10 < < N 43650E 10 < < < N 43700E 10 < < <0.01 < N 43750E 10 < < < N 43800E 10 < < N 43850E 10 < < N 43900E 10 < < N 43950E 10 < < N 44000E 10 < < N 44050E < N 44100E 10 < < N 44150E 10 < < N 44200E 10 < < N 44250E 10 < < N 44300E 10 < < N 44350E 10 < < < N 44400E 10 < < N 44450E 10 < <2 4 23

114 Page: 3 - C Finalized Date: 6-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 43400E < <10 <10 92 < N 43450E < <10 < < N 43500E < <10 <10 94 < N 43550E < <10 <10 81 < N 43600E < <10 <10 74 < N 43650E < <10 <10 69 < N 43700E < <10 <10 78 < N 43750E < <10 <10 84 < N 43800E < <10 <10 94 < N 43850E < <10 <10 74 < N 43900E < <10 <10 90 < N 43950E < <10 <10 77 < N 44000E < <10 <10 91 < N 44050E < <10 <10 84 < N 44100E < <10 <10 80 < N 44150E < <10 <10 74 < N 44200E < <10 <10 75 < N 44250E < <10 <10 70 < N 44300E < <10 <10 83 < N 44350E < <10 <10 79 < N 44400E < <10 <10 72 < N 44450E < <10 <10 85 <10 70

115 Page: 1 Finalized Date: 7-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 19-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON DOROTHY MILLER SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

116 Page: 2 - A Finalized Date: 7-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 41400E < < < < N 41450E < <0.5 < < N 41500E < < < N 41550E < <0.5 < N 41600E < <0.5 < < N 41650E < <2 < <0.5 < < N 41700E < <10 10 <0.5 < < N 41750E < < <0.5 < < N 41800E < < <0.5 < < N 41850E <10 80 <0.5 < < N 41900E < <0.5 < < N 41950E < < <0.5 < < N 42000E < <0.5 < < N 42050E < <0.5 < < N 42100E < <0.5 < < N 42150E < < <0.5 < < N 42200E < <2 < < < N 42250E < < < < N 42300E < <2 < < < N 42350E < <2 <10 60 <0.5 < < N 42400E < <2 < <0.5 < < N 42450E < <2 <10 70 <0.5 < < N 42500E < <10 90 <0.5 < < N 42550E < <2 <10 80 <0.5 < < N 42600E < <10 80 <0.5 < < N 42650E <2 < <0.5 < < N 42700E < <10 80 <0.5 < < N 42750E < < <0.5 < < N 42800E < < <0.5 < < N 42850E < < <0.5 < < N 42900E < <10 90 <0.5 < < N 42950E < < <0.5 < < N 43000E < < <0.5 < < N 43050E < <10 60 <0.5 < < N 43100E < <2 < < N 43150E < < <0.5 < < N 43200E < < <0.5 < < N 43250E < < <0.5 < < N 43300E < < <0.5 < < N 43350E < <10 80 <0.5 < <

117 Page: 2 - B Finalized Date: 7-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 41400E 10 < < < N 41450E 10 < < <0.01 < N 41500E <10 < < < <0.01 < N 41550E 10 < < N 41600E 10 < < < N 41650E 10 < < < N 41700E <10 < < < <2 <0.01 < N 41750E 10 < < < N 41800E 10 < < < N 41850E 10 < < <0.01 < N 41900E 10 < < <0.01 < N 41950E < N 42000E 10 < < N 42050E 10 < < N 42100E 10 < <0.01 < N 42150E <0.01 < N 42200E 10 < < N 42250E < N 42300E 10 < < N 42350E 10 < < N 42400E 10 < < N 42450E 10 < < N 42500E 10 < < N 42550E 10 < < <0.01 < N 42600E 10 < < < N 42650E < < N 42700E 10 < < <0.01 < N 42750E 10 < < <0.01 < N 42800E 10 < < < N 42850E 10 < < < N 42900E 10 < < < <0.01 < N 42950E 10 < < <0.01 < N 43000E 10 < < <0.01 < N 43050E 10 < < < <0.01 < N 43100E 10 < < N 43150E 10 < < < N 43200E 10 < < < N 43250E 10 < < < N 43300E 10 < < < < N 43350E 10 < < < <0.01 <2 4 17

118 Page: 2 - C Finalized Date: 7-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 41400E < <10 <10 55 < N 41450E < <10 < < N 41500E < <10 <10 69 < N 41550E < <10 <10 76 < N 41600E < <10 <10 83 < N 41650E < <10 <10 67 < N 41700E < <10 <10 71 < N 41750E < <10 < < N 41800E < <10 < < N 41850E < <10 <10 65 < N 41900E < <10 <10 91 < N 41950E < <10 <10 68 < N 42000E < <10 <10 63 < N 42050E < <10 <10 53 < N 42100E < <10 <10 56 < N 42150E < <10 <10 65 < N 42200E < <10 <10 60 < N 42250E < <10 <10 93 < N 42300E < <10 <10 61 < N 42350E < <10 <10 49 < N 42400E < <10 <10 52 < N 42450E < <10 <10 62 < N 42500E < <10 <10 69 < N 42550E < <10 <10 77 < N 42600E < <10 <10 71 < N 42650E < <10 < < N 42700E < <10 <10 94 < N 42750E < <10 <10 73 < N 42800E < <10 <10 74 < N 42850E < <10 <10 78 < N 42900E < <10 <10 75 < N 42950E < <10 <10 70 < N 43000E < <10 <10 73 < N 43050E < <10 <10 76 < N 43100E < <10 <10 60 < N 43150E < <10 <10 86 < N 43200E < <10 <10 78 < N 43250E < <10 <10 76 < N 43300E < <10 <10 69 < N 43350E < <10 <10 80 <10 63

119 Page: 3 - A Finalized Date: 7-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % N 43400E < <2 < <0.5 < < N 43450E < <10 80 <0.5 < < N 43500E < < <0.5 < < N 43550E < <10 80 <0.5 < < N 43600E < <10 70 <0.5 < < N 43650E 0.38 <0.005 < <10 90 <0.5 < < N 43700E < < <0.5 < < N 43750E 0.42 <0.005 < <2 < <0.5 < < N 43800E < <10 90 <0.5 < < N 43850E 0.40 <0.005 < <10 90 <0.5 < < N 43900E < < < < N 43950E < < < < N 44000E < < <0.5 < < N 44050E < <2 < < < N 44100E < < <0.5 < < N 44150E < <2 < <0.5 < N 44200E < < < N 44250E 0.34 <0.005 < <2 < < < N 44300E < <2 < < N 44350E <2 < < N 44400E 0.28 <0.005 < <2 < < < N 44450E 0.30 <0.005 < <2 < < <

120 Page: 3 - B Finalized Date: 7-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm N 43400E 10 < < <0.01 < N 43450E 10 < < < < N 43500E 10 < < < < N 43550E <10 < < < <0.01 < N 43600E 10 < < N 43650E 10 < < < N 43700E 10 < < < N 43750E 10 < < N 43800E 10 < < < < N 43850E 10 < < < N 43900E 10 < < < N 43950E < N 44000E < <0.01 < N 44050E 10 < < N 44100E 10 < <0.01 < N 44150E 10 < < N 44200E < N 44250E 10 < < N 44300E 10 < < N 44350E 10 < < N 44400E 10 < < N 44450E 10 < <2 6 39

121 Page: 3 - C Finalized Date: 7-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm N 43400E < <10 <10 79 < N 43450E < <10 <10 70 < N 43500E < <10 <10 75 < N 43550E < <10 <10 79 < N 43600E < <10 <10 70 < N 43650E < <10 <10 75 < N 43700E < <10 <10 81 < N 43750E < <10 <10 81 < N 43800E < <10 <10 82 < N 43850E < <10 <10 86 < N 43900E < <10 <10 80 < N 43950E < <10 <10 87 < N 44000E < <10 <10 85 < N 44050E < <10 <10 89 < N 44100E < <10 <10 81 < N 44150E < <10 <10 94 < N 44200E < <10 <10 77 < N 44250E < <10 <10 87 < N 44300E < <10 <10 77 < N 44350E < < < N 44400E < <10 <10 76 < N 44450E < <10 <10 84 <10 99

122 Page: 1 Finalized Date: 13-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 63 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

123 Page: 2 - A Finalized Date: 13-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27000N 41400E < <0.5 < < L27000N 41450E < < <0.5 < < L27000N 41500E Not Recvd L27000N 41550E < <10 80 <0.5 < < L27000N 41600E < < <0.5 < < L27000N 41650E < < <0.5 < < L27000N 41700E < <0.5 < < L27000N 41750E < <0.5 < < L27000N 41800E < <0.5 < < L27000N 41850E < <0.5 < < L27000N 41900E < < < < L27000N 41950E < <0.5 < < L27000N 42000E < < < < L27000N 42050E < < <0.5 < < L27000N 42100E < < L27000N 42150E < < <0.5 < < L27000N 42200E < <2 < < < L27000N 42250E < <2 < <0.5 < < L27000N 42300E < <10 90 <0.5 < < L27000N 42350E < < < L27000N 42400E < <10 90 <0.5 < < L27000N 42450E <2 <10 80 <0.5 < < L27000N 42500E < <10 90 <0.5 < < L27000N 42550E < <0.5 < < L27000N 42600E < <10 80 <0.5 < < L27000N 42650E < < <0.5 < < L27000N 42700E < < < L27000N 42750E < <0.5 < < L27000N 42800E < <10 80 <0.5 < < L27000N 42850E < < < < L27000N 42900E < < <0.5 < < L27000N 42950E < < <0.5 < < L27000N 43000E < <2 <10 90 <0.5 < < L27000N 43050E < < <0.5 < < L27000N 43100E < < <0.5 < < L27000N 43150E < < <0.5 < < L27000N 43200E < < <0.5 < < L27000N 43250E 0.34 <0.005 < < <0.5 < < L27000N 43300E 0.30 <0.005 < < <0.5 < < L27000N 43350E < <10 80 <0.5 < <

124 Page: 2 - B Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27000N 41400E 10 < L27000N 41450E 10 < < < L27000N 41500E L27000N 41550E 10 < < <0.01 < L27000N 41600E <10 < < <0.01 < L27000N 41650E 10 < < <0.01 < L27000N 41700E 10 < < <0.01 < L27000N 41750E 10 < < < L27000N 41800E 10 < < < L27000N 41850E 10 < < <0.01 < L27000N 41900E 10 < < <0.01 < L27000N 41950E 10 < < < L27000N 42000E 10 < L27000N 42050E 10 < L27000N 42100E <10 < < L27000N 42150E 10 < L27000N 42200E 10 < L27000N 42250E 10 < L27000N 42300E 10 < < L27000N 42350E 10 < < < L27000N 42400E 10 < < < L27000N 42450E 10 < < < L27000N 42500E 10 < < L27000N 42550E 10 < < L27000N 42600E 10 < < L27000N 42650E 10 < < L27000N 42700E 10 < L27000N 42750E 10 < < L27000N 42800E <10 < < < L27000N 42850E <10 < < < L27000N 42900E <10 < < < L27000N 42950E <10 < < < L27000N 43000E <10 < < < < L27000N 43050E 10 < < < L27000N 43100E 10 < < < L27000N 43150E 10 < < < < L27000N 43200E 10 < < < < L27000N 43250E 10 < < < < L27000N 43300E 10 < < < L27000N 43350E 10 < < < <2 4 17

125 Page: 2 - C Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27000N 41400E < <10 <10 66 <10 57 L27000N 41450E < <10 <10 66 <10 57 L27000N 41500E L27000N 41550E < <10 <10 69 <10 57 L27000N 41600E < <10 <10 64 <10 67 L27000N 41650E < <10 <10 81 <10 72 L27000N 41700E < <10 <10 77 < L27000N 41750E < <10 <10 77 <10 73 L27000N 41800E < <10 <10 80 <10 55 L27000N 41850E < <10 <10 84 <10 83 L27000N 41900E < <10 <10 78 <10 56 L27000N 41950E < <10 <10 80 <10 83 L27000N 42000E < <10 <10 61 <10 72 L27000N 42050E < <10 <10 71 <10 59 L27000N 42100E < <10 <10 55 <10 69 L27000N 42150E < <10 <10 82 <10 60 L27000N 42200E < <10 <10 59 <10 63 L27000N 42250E < <10 <10 50 <10 60 L27000N 42300E < <10 <10 55 <10 91 L27000N 42350E < <10 <10 69 < L27000N 42400E < <10 <10 74 <10 66 L27000N 42450E < <10 <10 70 <10 52 L27000N 42500E < <10 <10 85 <10 96 L27000N 42550E < <10 <10 73 <10 70 L27000N 42600E < <10 <10 63 <10 64 L27000N 42650E < <10 <10 75 <10 51 L27000N 42700E < <10 <10 70 <10 51 L27000N 42750E < <10 <10 80 <10 57 L27000N 42800E < <10 <10 76 <10 56 L27000N 42850E < <10 <10 70 <10 59 L27000N 42900E < <10 <10 81 < L27000N 42950E < <10 <10 73 <10 59 L27000N 43000E < <10 <10 70 <10 44 L27000N 43050E < <10 <10 67 <10 42 L27000N 43100E < <10 <10 67 <10 50 L27000N 43150E < <10 <10 66 <10 59 L27000N 43200E < <10 <10 74 <10 57 L27000N 43250E < <10 <10 68 <10 64 L27000N 43300E < <10 <10 94 <10 61 L27000N 43350E < <10 <10 70 <10 56

126 Page: 3 - A Finalized Date: 13-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27000N 43400E < < <0.5 < < L27000N 43450E 0.34 <0.005 < < <0.5 < < L27000N 43500E 0.30 <0.005 < < < < L27000N 43550E 0.30 <0.005 < < < < L27000N 43600E 0.30 <0.005 < < <0.5 < < L27000N 43650E 0.30 <0.005 < < <0.5 < < L27000N 43700E 0.32 <0.005 < < < < L27000N 43750E 0.32 <0.005 < < <0.5 < < L27000N 43800E 0.34 <0.005 < < <0.5 < < L27000N 43850E 0.36 <0.005 < < <0.5 < < L27000N 43900E < < <0.5 < < L27000N 43950E 0.44 <0.005 < < < < L27000N 44000E < < < < L27000N 44050E 0.46 <0.005 < < <0.5 < < L27000N 44100E < < < < L27000N 44150E 0.44 <0.005 < < < L27000N 44200E < < < < L27000N 44250E < < < < L27000N 44300E 0.44 <0.005 < < < < L27000N 44350E 0.38 < < < L27000N 44400E 0.42 <0.005 < < < < L27000N 44450E 0.52 <0.005 < < < < L25600N42500E < <10 90 <0.5 < <

127 Page: 3 - B Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27000N 43400E 10 < < < L27000N 43450E 10 < < L27000N 43500E 10 < < L27000N 43550E 10 < L27000N 43600E 10 < < L27000N 43650E 10 < < < L27000N 43700E 10 < L27000N 43750E 10 < < L27000N 43800E 10 < <1 < < L27000N 43850E 10 < <1 < < L27000N 43900E 10 < <1 < < L27000N 43950E 10 < <1 < <0.01 < L27000N 44000E 10 < <1 < < L27000N 44050E 10 < <1 < L27000N 44100E 10 < < L27000N 44150E 10 < < <1 < < L27000N 44200E 10 < < < L27000N 44250E 10 < < < L27000N 44300E 10 < < L27000N 44350E 10 < < < L27000N 44400E 10 < < <0.01 < L27000N 44450E 10 < < < L25600N42500E 10 < < <

128 Page: 3 - C Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27000N 43400E < <10 <10 75 <10 66 L27000N 43450E < <10 <10 78 <10 63 L27000N 43500E < <10 <10 87 <10 69 L27000N 43550E < <10 <10 89 <10 66 L27000N 43600E < <10 <10 86 <10 57 L27000N 43650E < <10 <10 83 <10 68 L27000N 43700E < <10 <10 89 <10 80 L27000N 43750E < <10 <10 81 <10 60 L27000N 43800E < <10 <10 80 <10 75 L27000N 43850E < <10 <10 83 <10 78 L27000N 43900E < <10 <10 85 <10 76 L27000N 43950E < <10 <10 82 <10 76 L27000N 44000E < <10 <10 79 <10 85 L27000N 44050E < <10 <10 70 <10 81 L27000N 44100E < <10 <10 75 < L27000N 44150E < <10 <10 72 < L27000N 44200E < <10 <10 79 <10 88 L27000N 44250E < <10 <10 79 <10 72 L27000N 44300E < <10 <10 74 <10 78 L27000N 44350E < <10 <10 72 <10 88 L27000N 44400E < <10 <10 87 <10 70 L27000N 44450E < <10 <10 87 <10 92 L25600N42500E < <10 <10 63 <10 62

129 Page: 1 Finalized Date: 11-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

130 Page: 2 - A Finalized Date: 11-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27200N 41400E < <10 90 <0.5 < < L27200N 41450E < < <0.5 < < L27200N 41500E < < <0.5 < < L27200N 41550E < <10 80 <0.5 < < L27200N 41600E < < < < L27200N 41650E < < <0.5 < < L27200N 41700E < < <0.5 < L27200N 41750E < < <0.5 < < L27200N 41800E < < <0.5 < L27200N 41850E < < <0.5 < L27200N 41900E < < <0.5 < < L27200N 41950E < < <0.5 < < L27200N 42000E < < < < L27200N 42050E < <10 80 <0.5 < < L27200N 42100E < <10 70 <0.5 < < L27200N 42150E < <10 80 <0.5 < < L27200N 42200E < <10 60 <0.5 < < L27200N 42250E < < <0.5 < < L27200N 42300E < < <0.5 < < L27200N 42350E < <10 90 <0.5 < < L27200N 42400E < <10 80 <0.5 < < L27200N 42450E < <0.5 < < L27200N 42500E < <0.5 < < L27200N 42550E <10 90 <0.5 < < L27200N 42600E < <10 80 <0.5 < < L27200N 42650E <10 90 <0.5 < < L27200N 42700E < < <0.5 < < L27200N 42750E < <10 80 <0.5 < < L27200N 42800E <10 70 <0.5 < < L27200N 42850E < <0.5 < < L27200N 42900E < < < L27200N 42950E < < < L27200N 43000E 0.40 < <10 90 <0.5 < < L27200N 43050E 0.36 < <10 90 <0.5 < < L27200N 43100E 0.38 < <10 90 <0.5 < < L27200N 43150E <10 80 <0.5 < < L27200N 43200E <10 90 <0.5 < < L27200N 43250E < <0.5 < < L27200N 43300E 0.32 < < <0.5 < < L27200N 43350E <10 70 <

131 Page: 2 - B Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27200N 41400E 10 < <1 < < L27200N 41450E 10 < <1 < < L27200N 41500E 10 < <1 < < L27200N 41550E 10 < <1 < < L27200N 41600E 10 < <1 < < L27200N 41650E 10 < <1 < < L27200N 41700E 10 < <1 < < L27200N 41750E 10 < <1 < <0.01 < L27200N 41800E 10 < < < L27200N 41850E 10 < <1 < L27200N 41900E 10 < <1 < < L27200N 41950E 10 < < < L27200N 42000E 10 < <1 < < L27200N 42050E 10 < <1 < <0.01 < L27200N 42100E 10 < <1 < < L27200N 42150E 10 < <1 < < L27200N 42200E 10 < < <1 < <0.01 < L27200N 42250E 10 < <1 < < L27200N 42300E 10 < <1 < < L27200N 42350E 10 < <1 < <0.01 < L27200N 42400E 10 < <1 < <0.01 < L27200N 42450E 10 < < L27200N 42500E 10 < < L27200N 42550E < < L27200N 42600E < L27200N 42650E 10 < < < L27200N 42700E < L27200N 42750E 10 < < L27200N 42800E 10 < < < L27200N 42850E 10 < < < L27200N 42900E 10 < < < L27200N 42950E < L27200N 43000E 10 < < < L27200N 43050E 10 < < < < L27200N 43100E < < < L27200N 43150E < < L27200N 43200E < < L27200N 43250E 10 < L27200N 43300E < L27200N 43350E < <2 3 16

132 Page: 2 - C Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27200N 41400E < <10 <10 61 <10 79 L27200N 41450E < <10 <10 62 <10 69 L27200N 41500E < <10 <10 59 <10 63 L27200N 41550E < <10 <10 70 <10 55 L27200N 41600E < <10 <10 71 <10 60 L27200N 41650E < <10 <10 71 <10 72 L27200N 41700E < <10 <10 60 <10 62 L27200N 41750E < <10 <10 62 <10 60 L27200N 41800E < <10 <10 67 <10 74 L27200N 41850E < <10 <10 65 <10 75 L27200N 41900E < <10 <10 70 <10 60 L27200N 41950E < <10 <10 77 <10 66 L27200N 42000E < <10 <10 71 <10 78 L27200N 42050E < <10 <10 71 <10 47 L27200N 42100E < <10 <10 80 <10 81 L27200N 42150E < <10 <10 77 <10 64 L27200N 42200E < <10 <10 46 <10 61 L27200N 42250E < <10 <10 75 <10 54 L27200N 42300E < <10 <10 71 <10 53 L27200N 42350E < <10 <10 77 <10 54 L27200N 42400E < <10 <10 76 <10 51 L27200N 42450E < <10 <10 70 <10 55 L27200N 42500E < <10 <10 70 <10 52 L27200N 42550E < <10 <10 67 <10 49 L27200N 42600E < <10 <10 72 <10 57 L27200N 42650E < <10 <10 76 <10 69 L27200N 42700E < <10 <10 75 <10 72 L27200N 42750E < <10 <10 72 <10 62 L27200N 42800E < <10 <10 57 <10 41 L27200N 42850E < <10 <10 67 <10 53 L27200N 42900E < <10 <10 74 <10 63 L27200N 42950E < <10 <10 53 <10 42 L27200N 43000E < <10 <10 63 <10 45 L27200N 43050E < <10 <10 56 <10 40 L27200N 43100E < <10 <10 68 <10 55 L27200N 43150E < <10 <10 80 <10 58 L27200N 43200E < <10 <10 76 <10 58 L27200N 43250E < <10 <10 75 <10 61 L27200N 43300E < <10 <10 77 <10 48 L27200N 43350E < <10 <10 64 <10 54

133 Page: 3 - A Finalized Date: 11-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27200N 43400E < < L27200N 43450E 0.36 < < <0.5 < < L27200N 43500E < <0.5 < L27200N 43550E < < L27200N 43600E < <0.5 < < L27200N 43650E < <0.5 < < L27200N 43700E < < < L27200N 43750E < < < L27200N 43800E < <0.5 < < L27200N 43850E < < < L27200N 43900E < <0.5 < < L27200N 43950E < < < L27200N 44000E < < <0.5 < < L27200N 44050E < < < L27200N 44100E <10 80 <0.5 < < L27200N 44150E <10 90 <0.5 < < L27200N 44200E < < < L27200N 44250E < <10 90 <0.5 < < L27200N 44300E < < <0.5 < < L27200N 44350E 0.28 <0.005 < <10 50 < < L27200N 44400E < < L27200N 44450E < < < <

134 Page: 3 - B Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27200N 43400E 10 < < < L27200N 43450E < L27200N 43500E 10 < < L27200N 43550E < L27200N 43600E < L27200N 43650E < < L27200N 43700E 10 < < L27200N 43750E 10 < L27200N 43800E < L27200N 43850E 10 < < L27200N 43900E < L27200N 43950E < L27200N 44000E < L27200N 44050E 10 < < L27200N 44100E < L27200N 44150E < < L27200N 44200E < L27200N 44250E 10 < < L27200N 44300E 10 < < < L27200N 44350E 10 < < <2 1 8 L27200N 44400E 10 < L27200N 44450E 10 <

135 Page: 3 - C Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27200N 43400E < <10 <10 64 <10 69 L27200N 43450E < <10 <10 74 <10 59 L27200N 43500E < <10 <10 73 <10 86 L27200N 43550E < <10 <10 79 <10 67 L27200N 43600E < <10 <10 83 <10 61 L27200N 43650E < <10 <10 76 <10 72 L27200N 43700E < <10 <10 74 <10 61 L27200N 43750E < <10 <10 77 <10 65 L27200N 43800E < <10 <10 81 <10 71 L27200N 43850E < <10 <10 83 <10 73 L27200N 43900E < <10 <10 86 <10 68 L27200N 43950E < <10 <10 79 <10 71 L27200N 44000E < <10 <10 88 <10 75 L27200N 44050E < <10 <10 78 <10 71 L27200N 44100E < <10 <10 77 <10 67 L27200N 44150E < <10 <10 70 <10 68 L27200N 44200E < <10 <10 70 <10 86 L27200N 44250E < <10 <10 70 <10 78 L27200N 44300E < <10 <10 64 <10 66 L27200N 44350E < <10 <10 50 <10 42 L27200N 44400E < <10 <10 66 < L27200N 44450E < <10 <10 75 <10 91

136 Page: 1 Finalized Date: 11-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

137 Page: 2 - A Finalized Date: 11-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27400N 41400E < <10 80 <0.5 < < L27400N 41450E < < <0.5 < < L27400N 41500E < < <0.5 < L27400N 41550E < < <0.5 < < L27400N 41600E < < <0.5 < < L27400N 41650E < < <0.5 < < L27400N 41700E < < <0.5 < < L27400N 41750E < < <0.5 < < L27400N 41800E < < <0.5 < < L27400N 41850E < < <0.5 < < L27400N 41900E < < <0.5 < < L27400N 41950E < <10 70 <0.5 < < L27400N 42000E < < <0.5 < < L27400N 42050E < < <0.5 < < L27400N 42100E < <10 50 <0.5 < < L27400N 42150E < <10 80 <0.5 < < L27400N 42200E < < <0.5 < < L27400N 42250E < <10 90 <0.5 < < L27400N 42300E < <10 70 <0.5 < < L27400N 42350E < <10 90 <0.5 < < L27400N 42400E < < <0.5 < < L27400N 42450E < < <0.5 < < L27400N 42500E < < <0.5 < < L27400N 42550E < <10 70 <0.5 < < L27400N 42600E < < <0.5 < < L27400N 42650E < < <0.5 < < L27400N 42700E <10 80 <0.5 < L27400N 42750E <10 80 <0.5 < L27400N 42800E <10 90 <0.5 < < L27400N 42850E < <0.5 < L27400N 42900E < < <0.5 < < L27400N 42950E < < <0.5 < L27400N 43000E < < <0.5 < < L27400N 43050E < < <0.5 < < L27400N 43100E < < < < L27400N 43150E < < <0.5 < < L27400N 43200E < < <0.5 < L27400N 43250E < < <0.5 < L27400N 43300E < < < < L27400N 43350E < < <

138 Page: 2 - B Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27400N 41400E 10 < < < < L27400N 41450E 10 < < < < L27400N 41500E 10 < L27400N 41550E 10 < < L27400N 41600E 10 < < < L27400N 41650E 10 < < L27400N 41700E <10 < < < L27400N 41750E <10 < < < L27400N 41800E 10 < < L27400N 41850E 10 < < L27400N 41900E 10 < < L27400N 41950E 10 < < L27400N 42000E 10 < < L27400N 42050E 10 < < < L27400N 42100E 10 < < L27400N 42150E 10 < < L27400N 42200E 10 < < < L27400N 42250E 10 < < < L27400N 42300E 10 < L27400N 42350E 10 < < < L27400N 42400E 10 < < < L27400N 42450E 10 < < L27400N 42500E 10 < < < L27400N 42550E 10 < < < L27400N 42600E 10 < < L27400N 42650E 10 < L27400N 42700E 10 < < L27400N 42750E 10 < < L27400N 42800E 10 < < L27400N 42850E 10 < < L27400N 42900E 10 < L27400N 42950E 10 < < L27400N 43000E 10 < < L27400N 43050E 10 < <1 < L27400N 43100E 10 < <1 < L27400N 43150E 10 < <1 < < L27400N 43200E 10 < < L27400N 43250E 10 < < < L27400N 43300E 10 < <1 < < L27400N 43350E 10 < <

139 Page: 2 - C Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27400N 41400E < <10 <10 84 < L27400N 41450E < <10 <10 62 <10 87 L27400N 41500E < <10 <10 65 <10 84 L27400N 41550E < <10 <10 65 <10 73 L27400N 41600E < <10 <10 57 <10 71 L27400N 41650E < <10 <10 60 <10 64 L27400N 41700E < <10 <10 56 <10 63 L27400N 41750E < <10 <10 56 <10 75 L27400N 41800E < <10 <10 64 <10 89 L27400N 41850E < <10 <10 54 <10 48 L27400N 41900E < <10 <10 57 <10 85 L27400N 41950E < <10 <10 64 <10 59 L27400N 42000E < <10 <10 72 <10 62 L27400N 42050E < <10 <10 61 <10 63 L27400N 42100E < <10 <10 68 <10 55 L27400N 42150E < <10 <10 67 <10 59 L27400N 42200E < <10 <10 64 <10 55 L27400N 42250E < <10 <10 68 <10 59 L27400N 42300E < <10 <10 70 <10 63 L27400N 42350E < <10 <10 76 <10 62 L27400N 42400E < <10 <10 70 <10 63 L27400N 42450E < <10 <10 72 <10 59 L27400N 42500E < <10 <10 61 <10 68 L27400N 42550E < <10 <10 69 <10 65 L27400N 42600E < <10 <10 57 <10 79 L27400N 42650E < <10 <10 63 <10 89 L27400N 42700E < <10 < < L27400N 42750E < <10 < < L27400N 42800E < <10 < < L27400N 42850E < <10 <10 92 < L27400N 42900E < <10 <10 84 < L27400N 42950E < <10 <10 76 <10 97 L27400N 43000E < <10 <10 76 <10 73 L27400N 43050E < <10 <10 74 <10 72 L27400N 43100E < <10 <10 70 <10 75 L27400N 43150E < <10 <10 74 <10 59 L27400N 43200E < <10 <10 66 <10 75 L27400N 43250E < <10 <10 64 <10 70 L27400N 43300E < <10 <10 82 <10 79 L27400N 43350E < <10 <10 71 <10 73

140 Page: 3 - A Finalized Date: 11-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27400N 43400E < < <0.5 < L27400N 43450E < <0.5 < < L27400N 43500E < < < < L27400N 43550E < <0.5 < < L27400N 43600E < < <0.5 < < L27400N 43650E < < <0.5 < < L27400N 43700E < < < < L27400N 43750E < <0.5 < < L27400N 43800E < < L27400N 43850E < < < L27400N 43900E < < < < L27400N 43950E < < <0.5 < < L27400N 44000E < < < < L27400N 44050E 0.36 < <10 90 <0.5 < L27400N 44100E < < < < L27400N 44150E < < <0.5 < < L27400N 44200E < < < L27400N 44250E < < <0.5 < < L27400N 44300E 0.36 <0.005 < < <0.5 < < L27400N 44350E < <0.5 < < L27400N 44400E 0.48 <0.005 < < <0.5 < < L27400N 44450E < < < <

141 Page: 3 - B Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27400N 43400E 10 < < L27400N 43450E 10 < <1 < < L27400N 43500E 10 < < < L27400N 43550E 10 < L27400N 43600E 10 < <1 < <0.01 < L27400N 43650E 10 < <1 < <0.01 < L27400N 43700E 10 < <1 < < L27400N 43750E 10 < <1 < < L27400N 43800E 10 < <1 < L27400N 43850E 10 < L27400N 43900E 10 < <0.01 < L27400N 43950E 10 < < < L27400N 44000E 10 < < <0.01 < L27400N 44050E 10 < < < L27400N 44100E 10 < < < L27400N 44150E 10 < < < <0.01 < L27400N 44200E 10 < < < L27400N 44250E 10 < < < L27400N 44300E 10 < < < < L27400N 44350E 10 < < < < L27400N 44400E 10 < < < L27400N 44450E 10 < < <2 4 42

142 Page: 3 - C Finalized Date: 11-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27400N 43400E < <10 <10 72 < L27400N 43450E < <10 < <10 79 L27400N 43500E < <10 <10 91 <10 74 L27400N 43550E < <10 <10 61 <10 42 L27400N 43600E < <10 <10 66 <10 44 L27400N 43650E < <10 <10 79 <10 55 L27400N 43700E < <10 <10 72 <10 53 L27400N 43750E < <10 <10 81 <10 54 L27400N 43800E < <10 <10 55 <10 55 L27400N 43850E < <10 <10 53 <10 47 L27400N 43900E < <10 <10 76 <10 66 L27400N 43950E < <10 <10 76 <10 56 L27400N 44000E < <10 <10 76 <10 74 L27400N 44050E < <10 <10 67 <10 48 L27400N 44100E < <10 <10 79 <10 85 L27400N 44150E < <10 <10 90 <10 79 L27400N 44200E < <10 <10 66 <10 69 L27400N 44250E < <10 <10 73 <10 76 L27400N 44300E < <10 <10 70 <10 86 L27400N 44350E < <10 <10 69 <10 72 L27400N 44400E < <10 <10 76 <10 70 L27400N 44450E < <10 <10 71 <10 84

143 Page: 1 Finalized Date: 12-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 41 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

144 Page: 2 - A Finalized Date: 12-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27600N 44000E < < <0.5 < < L27600N 44050E < < <0.5 < < L27600N 44100E < < <0.5 < < L27600N 44150E < < <0.5 < < L27600N 44200E < <0.5 < L27600N 44250E < <0.5 < < L27600N 44300E < <0.5 < < L27600N 44350E < <0.5 < < L27600N 44400E < < <0.5 < < L27600N 44450E < < <0.5 < < L27800N 44000E < < < L27800N 44050E < <0.5 < < L27800N 44100E < <0.5 < < L27800N 44150E <10 90 <0.5 < < L27800N 44200E < <0.5 < < L27800N 44250E < <0.5 < < L27800N 44300E < < L27800N 44350E < <0.5 < < L27800N 44400E < <0.5 < < L27800N 44450E < <0.5 < < L28000N 44000E < <0.5 < < L28000N 44050E < <0.5 < < L28000N 44100E < <0.5 < < L28000N 44150E < < <0.5 < < L28000N 44200E < <0.5 < < L28000N 44250E < <0.5 < < L28000N 44300E < <0.5 < < L28000N 44350E <10 60 <0.5 < L28000N 44400E < <0.5 < < L28000N 44450E < <10 90 <0.5 < < L28000N 43475E < <10 90 <0.5 < < L28000N 43525E < <0.5 < < L28000N 43575E < <0.5 < < L28000N 43625E < < <0.5 < < L28000N 43675E < < < L28000N 43725E < <0.5 < < L28000N 43775E < <0.5 < < L28000N 43825E < <0.5 < < L28000N 43875E < <0.5 < < L28000N 43925E < <0.5 < <

145 Page: 2 - B Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27600N 44000E 10 < < < L27600N 44050E 10 < < < <0.01 < L27600N 44100E 10 < < < < L27600N 44150E 10 < < < <0.01 < L27600N 44200E <10 < < < L27600N 44250E 10 < < <1 < <0.01 < L27600N 44300E 10 < < <1 < <0.01 < L27600N 44350E 10 < <1 < <0.01 < L27600N 44400E 10 < < <1 < <0.01 < L27600N 44450E 10 < < <1 < < L27800N 44000E 10 < <1 < < L27800N 44050E 10 < < <1 < <0.01 < L27800N 44100E 10 < < <1 < <0.01 < L27800N 44150E 10 < < <1 < <0.01 <2 5 8 L27800N 44200E 10 < <1 < <0.01 < L27800N 44250E 10 < < <1 < < L27800N 44300E 10 < <1 < < L27800N 44350E 10 < <1 < <0.01 < L27800N 44400E 10 < < <1 < <0.01 < L27800N 44450E 10 < < <1 < < L28000N 44000E 10 < < <1 < <0.01 < L28000N 44050E 10 < < <1 < <0.01 < L28000N 44100E 10 < < <1 < <0.01 < L28000N 44150E 10 < < <1 < <0.01 < L28000N 44200E 10 < <1 < < L28000N 44250E 10 < < <1 < <0.01 < L28000N 44300E 10 < < <1 < <0.01 < L28000N 44350E <10 < <1 < < L28000N 44400E 10 < < <1 < <0.01 < L28000N 44450E 10 < < <1 < <0.01 < L28000N 43475E 10 < < < <0.01 < L28000N 43525E 10 < < < <0.01 < L28000N 43575E 10 < < <1 < <0.01 < L28000N 43625E 10 < < <1 < <0.01 < L28000N 43675E 10 < <1 < < L28000N 43725E 10 < < < <0.01 < L28000N 43775E <10 < < L28000N 43825E 10 < < <1 < <0.01 < L28000N 43875E 10 < < <1 < < L28000N 43925E 10 < < <1 < <0.01 <2 4 16

146 Page: 2 - C Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27600N 44000E < <10 <10 71 <10 63 L27600N 44050E < <10 <10 69 <10 63 L27600N 44100E < <10 <10 84 <10 70 L27600N 44150E < <10 <10 72 <10 60 L27600N 44200E < <10 <10 40 < L27600N 44250E < <10 <10 91 <10 82 L27600N 44300E < <10 <10 92 <10 71 L27600N 44350E < <10 <10 87 <10 62 L27600N 44400E < <10 <10 58 <10 71 L27600N 44450E < <10 <10 73 <10 72 L27800N 44000E < <10 <10 44 <10 57 L27800N 44050E < <10 <10 78 <10 56 L27800N 44100E < <10 <10 95 <10 79 L27800N 44150E < <10 < < L27800N 44200E < <10 <10 96 <10 91 L27800N 44250E < <10 <10 90 <10 77 L27800N 44300E < <10 <10 66 < L27800N 44350E < <10 <10 59 < L27800N 44400E < <10 <10 73 < L27800N 44450E < <10 <10 68 <10 84 L28000N 44000E < <10 <10 95 <10 90 L28000N 44050E < <10 <10 79 <10 71 L28000N 44100E < <10 <10 70 <10 64 L28000N 44150E < <10 <10 44 <10 62 L28000N 44200E < <10 <10 70 <10 61 L28000N 44250E < <10 <10 63 <10 44 L28000N 44300E < <10 <10 63 <10 44 L28000N 44350E < <10 <10 36 <10 31 L28000N 44400E < <10 <10 69 <10 51 L28000N 44450E < <10 <10 59 <10 36 L28000N 43475E < <10 <10 75 <10 46 L28000N 43525E < <10 <10 70 <10 50 L28000N 43575E < <10 <10 86 <10 58 L28000N 43625E < <10 < <10 62 L28000N 43675E < <10 <10 78 <10 58 L28000N 43725E < <10 <10 80 <10 57 L28000N 43775E < <10 <10 57 <10 65 L28000N 43825E < <10 <10 74 <10 51 L28000N 43875E < <10 <10 76 <10 53 L28000N 43925E < <10 <10 76 <10 61

147 Page: 3 - A Finalized Date: 12-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28000N 43975E < <0.5 < <

148 Page: 3 - B Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28000N 43975E 10 < < <1 < <0.01 <2 4 14

149 Page: 3 - C Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28000N 43975E < <10 <10 79 <10 87

150 Page: 1 Finalized Date: 12-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

151 Page: 2 - A Finalized Date: 12-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28200N 41400E < <0.5 < < L28200N 41450E < <10 50 <0.5 < < L28200N 41500E 0.42 < < <0.5 < < L28200N 41550E 0.38 <0.005 < < <0.5 < < L28200N 41600E 0.42 < < <0.5 < < L28200N 41650E <10 70 <0.5 < < L28200N 41700E < <0.5 < < L28200N 41750E < <0.5 < < L28200N 41800E < <0.5 < < L28200N 41850E 0.38 <0.005 < < <0.5 < < L28200N 41900E 0.36 <0.005 < < <0.5 < L28200N 41950E < <0.5 < L28200N 42000E 0.34 < < <0.5 < L28200N 42050E < <0.5 < L28200N 42100E < <0.5 < L28200N 42150E < < L28200N 42200E < < L28200N 42250E < < L28200N 42300E < <0.5 < < L28200N 42350E <10 80 <0.5 < < L28200N 42400E < <0.5 < L28200N 42450E < <0.5 < < L28200N 42500E <10 80 <0.5 < < L28200N 42550E < <0.5 < < L28200N 42600E < <0.5 < < L28200N 42650E <10 80 <0.5 < < L28200N 42700E < <0.5 < < L28200N 42750E < < L28200N 42800E 0.34 <0.005 < < <0.5 < < L28200N 42850E 0.34 < < <0.5 < L28200N 42900E < <10 80 <0.5 < < L28200N 42950E < <0.5 < < L28200N 43000E <10 80 <0.5 < < L28200N 43050E < <0.5 < < L28200N 43100E 0.38 < < < L28200N 43150E <10 90 <0.5 < < L28200N 43200E 0.34 < <10 90 <0.5 < < L28200N 43250E 0.34 < < <0.5 < < L28200N 43300E 0.38 <0.005 < < < < L28200N 43350E 0.38 <0.005 < < <0.5 < <

152 Page: 2 - B Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28200N 41400E < L28200N 41450E <10 < < L28200N 41500E <10 < < < L28200N 41550E <10 < < L28200N 41600E 10 < < < L28200N 41650E < L28200N 41700E 10 < < L28200N 41750E <10 < < L28200N 41800E < L28200N 41850E 10 < < L28200N 41900E 10 < < L28200N 41950E 10 < < L28200N 42000E 10 < < L28200N 42050E 10 < L28200N 42100E <10 < < L28200N 42150E L28200N 42200E < L28200N 42250E 10 < < L28200N 42300E < L28200N 42350E < L28200N 42400E 10 < < < L28200N 42450E 10 < < < L28200N 42500E 10 < < < < L28200N 42550E 10 < L28200N 42600E 10 < < L28200N 42650E < L28200N 42700E < L28200N 42750E 10 < L28200N 42800E 10 < < L28200N 42850E <10 < < L28200N 42900E < < L28200N 42950E < L28200N 43000E 10 < < L28200N 43050E < L28200N 43100E < > L28200N 43150E < < L28200N 43200E 10 < < < L28200N 43250E <10 < < < L28200N 43300E 10 < < L28200N 43350E <10 < < <2 4 25

153 Page: 2 - C Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28200N 41400E < <10 <10 58 <10 69 L28200N 41450E < <10 <10 56 <10 45 L28200N 41500E < <10 <10 36 <10 67 L28200N 41550E < <10 <10 57 <10 93 L28200N 41600E < <10 <10 42 < L28200N 41650E < <10 <10 55 < L28200N 41700E < <10 <10 51 < L28200N 41750E < <10 <10 49 <10 73 L28200N 41800E < <10 <10 53 <10 87 L28200N 41850E < <10 <10 53 <10 88 L28200N 41900E < <10 <10 55 < L28200N 41950E < <10 <10 58 < L28200N 42000E < <10 <10 56 < L28200N 42050E < <10 <10 57 < L28200N 42100E < <10 <10 57 < L28200N 42150E < <10 <10 61 < L28200N 42200E < <10 <10 59 < L28200N 42250E < <10 <10 61 < L28200N 42300E < <10 <10 65 <10 90 L28200N 42350E < <10 <10 71 <10 81 L28200N 42400E < <10 <10 74 < L28200N 42450E < <10 <10 61 <10 98 L28200N 42500E < <10 <10 85 < L28200N 42550E < <10 <10 62 <10 70 L28200N 42600E < <10 <10 61 <10 84 L28200N 42650E < <10 <10 71 <10 68 L28200N 42700E < <10 <10 60 <10 67 L28200N 42750E < <10 <10 65 < L28200N 42800E < <10 <10 35 <10 74 L28200N 42850E < <10 < L28200N 42900E < <10 <10 62 <10 55 L28200N 42950E < <10 <10 60 <10 76 L28200N 43000E < <10 <10 52 <10 53 L28200N 43050E < <10 <10 61 <10 47 L28200N 43100E < <10 < L28200N 43150E < <10 <10 40 <10 30 L28200N 43200E < <10 <10 67 <10 58 L28200N 43250E < <10 <10 51 <10 40 L28200N 43300E < <10 <10 68 <10 51 L28200N 43350E < <10 <10 68 <10 46

154 Page: 3 - A Finalized Date: 12-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28200N 43400E < < <0.5 < < L28200N 43450E <10 90 <0.5 < < L28200N 43500E <10 90 <0.5 < < L28200N 43550E < < < L28200N 43600E < <0.5 < < L28200N 43650E < <0.5 < < L28200N 43700E < < < L28200N 43750E <10 90 <0.5 < < L28200N 43800E < <0.5 < < L28200N 43850E 0.40 < < <0.5 < < L28200N 43900E < <0.5 < < L28200N 43950E 0.36 < < <0.5 < < L28200N 44000E < < <0.5 < < L28200N 44050E 0.32 < < <0.5 < < L28200N 44100E < <0.5 < L28200N 44150E 0.36 < < <0.5 < < L28200N 44200E 0.32 <0.005 < < <0.5 < < L28200N 44250E 0.34 < < < < L28200N 44300E 0.32 < < <0.5 < < L28200N 44350E 0.32 < < <0.5 < < L28200N 44400E 0.30 < < <0.5 < < L28200N 44450E 0.30 <0.005 < < <0.5 < <

155 Page: 3 - B Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28200N 43400E 10 < < < < L28200N 43450E <10 < < <1 < L28200N 43500E 10 < < < < L28200N 43550E 10 < < L28200N 43600E 10 < < < <0.01 < L28200N 43650E 10 < < < L28200N 43700E 10 < < < L28200N 43750E 10 < < L28200N 43800E 10 < < < L28200N 43850E 10 < < L28200N 43900E 10 < < < < L28200N 43950E 10 < < < < L28200N 44000E 10 < < < < L28200N 44050E 10 < < < L28200N 44100E < < <2 <1 323 L28200N 44150E 10 < < < L28200N 44200E 10 < < < < L28200N 44250E 10 < < < L28200N 44300E 10 < < < < L28200N 44350E 10 < < < < L28200N 44400E 10 < < < < L28200N 44450E 10 < < < <2 4 23

156 Page: 3 - C Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28200N 43400E < <10 <10 75 <10 50 L28200N 43450E < <10 <10 71 <10 47 L28200N 43500E < <10 <10 63 <10 37 L28200N 43550E < <10 <10 67 <10 42 L28200N 43600E < <10 <10 90 <10 60 L28200N 43650E < <10 <10 81 <10 48 L28200N 43700E < <10 <10 79 <10 56 L28200N 43750E < <10 <10 37 <10 30 L28200N 43800E < <10 <10 95 <10 54 L28200N 43850E < <10 <10 93 <10 93 L28200N 43900E < <10 <10 86 <10 60 L28200N 43950E < <10 <10 77 <10 51 L28200N 44000E < <10 <10 75 <10 61 L28200N 44050E < <10 <10 69 <10 63 L28200N 44100E < <10 <10 47 < L28200N 44150E < <10 <10 66 <10 65 L28200N 44200E < <10 <10 82 <10 58 L28200N 44250E < <10 <10 88 <10 76 L28200N 44300E < <10 <10 66 <10 52 L28200N 44350E < <10 <10 82 <10 57 L28200N 44400E < <10 <10 69 <10 55 L28200N 44450E < <10 <10 69 <10 59

157 Page: 1 Finalized Date: 10-OCT-2008 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: WES HODSON This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

158 Page: 2 - A Finalized Date: 10-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28400N 41400E < < <0.5 < < L28400N 41450E < <2 < <0.5 < < L28400N 41500E < <2 < <0.5 < < L28400N 41550E < < <0.5 < < L28400N 41600E < < <0.5 < < L28400N 41650E < < <0.5 < < L28400N 41700E 0.46 <0.005 < <2 < <0.5 < < L28400N 41750E < < <0.5 < < L28400N 41800E 0.34 <0.005 < < <0.5 < < L28400N 41850E 0.48 <0.005 < < <0.5 < L28400N 41900E < < <0.5 < L28400N 41950E < <0.5 < L28400N 42000E < < < L28400N 42050E < <0.5 < < L28400N 42100E < <0.5 < L28400N 42150E < <0.5 < L28400N 42200E < <0.5 < L28400N 42250E < < <0.5 < L28400N 42300E < <0.5 < L28400N 42350E < <0.5 < L28400N 42400E < <0.5 < < L28400N 42450E < <0.5 < < L28400N 42500E < < L28400N 42550E < <0.5 < L28400N 42600E < <0.5 < L28400N 42650E < <0.5 < L28400N 42700E < <0.5 < < L28400N 42750E < <0.5 < < L28400N 42800E < < L28400N 42850E < <0.5 < < L28400N 42900E < <0.5 < L28400N 42950E < <0.5 < < L28400N 43000E < <0.5 < < L28400N 43050E < <0.5 < < L28400N 43100E < < < L28400N 43150E < < < L28400N 43200E <10 80 < < L28400N 43250E < <0.5 < L28400N 43300E < <0.5 < L28400N 43350E < <

159 Page: 2 - B Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28400N 41400E <10 < < < L28400N 41450E 10 < < < < < L28400N 41500E <10 < < < < L28400N 41550E 10 < < < < L28400N 41600E 10 < < < < L28400N 41650E 10 < < < <2 <0.01 < L28400N 41700E <10 < < < < < L28400N 41750E <10 < < < < L28400N 41800E <10 < < < < < L28400N 41850E 10 < < < L28400N 41900E <10 < < L28400N 41950E <10 < L28400N 42000E 10 < L28400N 42050E 10 < < L28400N 42100E <10 < L28400N 42150E <10 < L28400N 42200E 10 < L28400N 42250E 10 < L28400N 42300E <10 < L28400N 42350E <10 < < < L28400N 42400E <10 < < L28400N 42450E L28400N 42500E < L28400N 42550E <10 < L28400N 42600E L28400N 42650E L28400N 42700E 10 < L28400N 42750E 10 < < L28400N 42800E 10 < L28400N 42850E 10 < < < L28400N 42900E 10 < L28400N 42950E < L28400N 43000E < L28400N 43050E 10 < L28400N 43100E 10 < L28400N 43150E 10 < < < L28400N 43200E L28400N 43250E 10 < < L28400N 43300E 10 < < < L28400N 43350E 10 < <2 8 54

160 Page: 2 - C Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28400N 41400E < <10 <10 68 <10 49 L28400N 41450E < <10 <10 42 <10 87 L28400N 41500E < <10 <10 53 <10 56 L28400N 41550E < <10 <10 44 <10 76 L28400N 41600E < <10 <10 46 <10 71 L28400N 41650E < <10 <10 49 <10 64 L28400N 41700E < <10 <10 54 <10 63 L28400N 41750E < <10 <10 43 <10 71 L28400N 41800E < <10 <10 44 < L28400N 41850E < <10 <10 57 < L28400N 41900E < <10 <10 55 <10 95 L28400N 41950E < <10 <10 49 < L28400N 42000E < <10 <10 46 < L28400N 42050E < <10 <10 46 <10 76 L28400N 42100E < <10 <10 54 < L28400N 42150E < <10 <10 47 < L28400N 42200E < <10 <10 54 < L28400N 42250E < <10 <10 51 < L28400N 42300E < <10 <10 51 < L28400N 42350E < <10 <10 71 < L28400N 42400E < <10 <10 80 < L28400N 42450E < <10 <10 58 < L28400N 42500E < <10 <10 57 < L28400N 42550E < <10 <10 66 < L28400N 42600E < <10 <10 71 < L28400N 42650E < <10 <10 69 < L28400N 42700E < <10 <10 89 <10 99 L28400N 42750E < <10 <10 82 <10 96 L28400N 42800E < <10 <10 78 <10 92 L28400N 42850E < <10 <10 73 < L28400N 42900E < <10 <10 67 < L28400N 42950E < <10 <10 61 <10 71 L28400N 43000E < <10 <10 96 < L28400N 43050E < <10 <10 94 < L28400N 43100E < <10 <10 81 < L28400N 43150E < <10 <10 72 < L28400N 43200E < <10 < <10 98 L28400N 43250E < <10 < < L28400N 43300E < <10 <10 44 < L28400N 43350E < <10 <10 72 <10 202

161 Page: 3 - A Finalized Date: 10-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28400N 43400E < <0.5 < L28400N 43450E < < L28400N 43500E < <0.5 < L28400N 43550E < <0.5 < L28400N 43600E < < L28400N 43650E < L28400N 43700E < < < L28400N 43750E < <0.5 < < L28400N 43800E < < <0.5 < < L28400N 43850E < < < L28400N 43900E <10 80 <0.5 < < L28400N 43950E <10 60 <0.5 < < L28400N 44000E < <0.5 < < L28400N 44050E < <0.5 < < L28400N 44100E < < < L28400N 44150E 0.38 < <10 80 <0.5 < < L28400N 44200E < <10 90 <0.5 < < L28400N 44250E < < < < L28400N 44300E 0.28 <0.005 < < <0.5 < < L28400N 44350E < <10 90 <0.5 < < L28400N 44400E 0.36 <0.005 < < <0.5 < < L28400N 44450E < <0.5 < <

162 Page: 3 - B Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28400N 43400E <10 < < L28400N 43450E L28400N 43500E <10 < < L28400N 43550E <10 < < L28400N 43600E 10 < < L28400N 43650E 10 < L28400N 43700E 10 < < L28400N 43750E 10 < L28400N 43800E 10 < < L28400N 43850E 10 < < L28400N 43900E < L28400N 43950E 10 < < < L28400N 44000E 10 < < L28400N 44050E 10 < < L28400N 44100E < L28400N 44150E 10 < < < L28400N 44200E 10 < < L28400N 44250E 10 < L28400N 44300E 10 < < L28400N 44350E 10 < < < L28400N 44400E 10 < < L28400N 44450E <2 3 17

163 Page: 3 - C Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28400N 43400E < <10 <10 47 < L28400N 43450E < <10 <10 74 < L28400N 43500E < <10 <10 50 < L28400N 43550E < <10 <10 45 <10 92 L28400N 43600E < <10 <10 65 <10 90 L28400N 43650E < <10 <10 38 < L28400N 43700E < <10 <10 61 <10 76 L28400N 43750E < <10 <10 59 <10 68 L28400N 43800E < <10 <10 66 <10 60 L28400N 43850E < <10 <10 66 <10 68 L28400N 43900E < <10 <10 49 <10 54 L28400N 43950E < <10 <10 44 <10 48 L28400N 44000E < <10 <10 84 <10 59 L28400N 44050E < <10 <10 74 <10 53 L28400N 44100E < <10 <10 74 <10 63 L28400N 44150E < <10 <10 60 <10 53 L28400N 44200E < <10 <10 54 <10 35 L28400N 44250E < <10 <10 70 <10 60 L28400N 44300E < <10 <10 64 <10 47 L28400N 44350E < <10 <10 54 <10 32 L28400N 44400E < <10 <10 68 <10 43 L28400N 44450E < <10 <10 63 <10 48

164 Page: 1 Finalized Date: 12-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 62 Soil samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

165 Page: 2 - A Finalized Date: 12-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28600N 41400E 0.36 <0.005 < < <0.5 < < L28600N 41450E 0.50 <0.005 < <2 < <0.5 < < L28600N 41500E 0.50 <0.005 < < <0.5 < < L28600N 41550E 0.50 <0.005 < <2 < <0.5 < < L28600N 41600E < <2 < <0.5 < < L28600N 41650E 0.36 <0.005 < < <0.5 < < L28600N 41700E 0.44 <0.005 < < <0.5 < < L28600N 41750E 0.36 <0.005 < < <0.5 < < L28600N 41800E 0.42 < <10 90 <0.5 < < L28600N 41850E 0.38 < < <0.5 < < L28600N 41900E < <0.5 < L28600N 41950E 0.32 < < <0.5 < L28600N 42000E < <0.5 < < L28600N 42050E 0.38 < < <0.5 < L28600N 42100E 0.30 < < <0.5 < L28600N 42150E < <0.5 < L28600N 42200E < <0.5 < L28600N 42250E < <0.5 < < L28600N 42300E <10 80 <0.5 < < L28600N 42350E < <0.5 < < L28600N 42400E 0.34 < < <0.5 < < L28600N 42450E < <0.5 < L28600N 42500E < <0.5 < L28600N 42550E < <0.5 < L28600N 42600E < <0.5 < L28600N 42650E <10 90 <0.5 < < L28600N 42700E <10 90 <0.5 < < L28600N 42750E < <0.5 < < L28600N 42800E < <0.5 < L28600N 42850E < <0.5 < L28600N 42900E < <0.5 < < L28600N 42950E < <0.5 < L28600N 43000E < <0.5 < < L28600N 43050E < <0.5 < < L28600N 43100E < <0.5 < < L28600N 43150E < <0.5 < L28600N 43200E <0.5 < L28600N 43250E < < < L28600N 43300E < < < L28600N 43350E < < <

166 Page: 2 - B Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28600N 41400E 10 < < < L28600N 41450E <10 < < < < L28600N 41500E 10 < < < <0.01 < L28600N 41550E 10 < < < <0.01 < L28600N 41600E 10 < < < <0.01 < L28600N 41650E 10 < < < <0.01 < L28600N 41700E 10 < < < <0.01 < L28600N 41750E <10 < < < <0.01 < L28600N 41800E 10 < < <0.01 < L28600N 41850E <10 < < < L28600N 41900E 10 < L28600N 41950E <10 < < L28600N 42000E 10 < L28600N 42050E 10 < < L28600N 42100E 10 < < L28600N 42150E 10 < < < L28600N 42200E 10 < < L28600N 42250E 10 < < L28600N 42300E 10 < < L28600N 42350E 10 < < L28600N 42400E 10 < L28600N 42450E <10 < < L28600N 42500E 10 < < L28600N 42550E 10 < < L28600N 42600E <10 < < L28600N 42650E <10 < < < < L28600N 42700E < < < L28600N 42750E < < < L28600N 42800E 10 < L28600N 42850E < L28600N 42900E 10 < < L28600N 42950E 10 < < < L28600N 43000E 10 < L28600N 43050E 10 < < L28600N 43100E 10 < L28600N 43150E 10 < L28600N 43200E <10 < < L28600N 43250E 10 < L28600N 43300E 10 < L28600N 43350E 10 <

167 Page: 2 - C Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28600N 41400E < <10 <10 68 <10 52 L28600N 41450E < <10 <10 50 <10 62 L28600N 41500E < <10 <10 42 <10 92 L28600N 41550E < <10 <10 52 <10 75 L28600N 41600E < <10 <10 86 <10 78 L28600N 41650E < <10 <10 59 <10 73 L28600N 41700E < <10 <10 38 <10 82 L28600N 41750E < <10 <10 44 <10 66 L28600N 41800E < <10 <10 65 <10 62 L28600N 41850E < <10 <10 70 <10 77 L28600N 41900E < <10 <10 53 < L28600N 41950E < <10 <10 51 < L28600N 42000E < <10 <10 54 <10 91 L28600N 42050E < <10 <10 59 < L28600N 42100E < <10 <10 61 < L28600N 42150E < <10 <10 55 < L28600N 42200E < <10 <10 54 < L28600N 42250E < <10 <10 54 < L28600N 42300E < <10 <10 58 < L28600N 42350E < <10 <10 61 < L28600N 42400E < <10 <10 56 < L28600N 42450E < <10 <10 44 < L28600N 42500E < <10 <10 67 < L28600N 42550E < <10 < < L28600N 42600E < <10 <10 74 < L28600N 42650E < <10 <10 53 <10 97 L28600N 42700E < <10 <10 52 <10 94 L28600N 42750E < <10 <10 63 < L28600N 42800E < <10 <10 75 < L28600N 42850E < <10 <10 53 < L28600N 42900E < <10 <10 64 < L28600N 42950E < <10 <10 39 < L28600N 43000E < <10 <10 75 < L28600N 43050E < <10 <10 68 < L28600N 43100E < <10 <10 74 <10 90 L28600N 43150E < <10 <10 51 <10 79 L28600N 43200E < <10 <10 19 < L28600N 43250E < <10 <10 51 <10 91 L28600N 43300E < <10 <10 53 <10 90 L28600N 43350E < <10 <10 40 <10 63

168 Page: 3 - A Finalized Date: 12-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28600N 43400E < <0.5 < L28600N 43450E 0.38 < < < L28600N 43500E 0.36 < < <0.5 < L28600N 43550E 0.40 < < <0.5 < L28600N 43600E 0.36 < < <0.5 < L28600N 43650E 0.30 < <10 90 <0.5 < < L28600N 43700E 0.36 < < < < L28600N 43750E < <10 80 <0.5 < < L28600N 43800E < <10 90 <0.5 < < L28600N 43850E < < < < L28600N 43900E < < < < L28600N 43950E < < < < L28600N 44000E < < < < L28600N 44050E 0.38 < <10 90 <0.5 < < L28600N 44100E < <10 70 <0.5 < < L28600N 44150E 0.24 < <10 70 <0.5 < < L28600N 44200E < < < < L28600N 44250E < < < L28600N 44300E 0.30 < <10 90 <0.5 < < L28600N 44350E <10 80 <0.5 < < L28600N 44400E <10 80 <0.5 < < L28600N 44450E < < < <

169 Page: 3 - B Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28600N 43400E <10 < < < L28600N 43450E 10 < < L28600N 43500E 10 < < < L28600N 43550E 10 < < L28600N 43600E 10 < < < L28600N 43650E 10 < < L28600N 43700E 10 < < < L28600N 43750E 10 < < < < < L28600N 43800E < < L28600N 43850E 10 < < < L28600N 43900E 10 < < < L28600N 43950E 10 < < < < L28600N 44000E 10 < < < < L28600N 44050E 10 < < < < L28600N 44100E 10 < < < L28600N 44150E 10 < < < <2 3 8 L28600N 44200E < < L28600N 44250E 10 < < < L28600N 44300E 10 < < < < L28600N 44350E < < < L28600N 44400E < < < L28600N 44450E < <2 4 15

170 Page: 3 - C Finalized Date: 12-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28600N 43400E < <10 <10 24 < L28600N 43450E < <10 <10 56 < L28600N 43500E < <10 <10 59 < L28600N 43550E < <10 <10 89 < L28600N 43600E < <10 <10 89 < L28600N 43650E < <10 <10 66 <10 82 L28600N 43700E < <10 <10 82 <10 79 L28600N 43750E < <10 <10 96 <10 56 L28600N 43800E < <10 <10 82 <10 49 L28600N 43850E < <10 <10 74 <10 68 L28600N 43900E < <10 <10 77 <10 67 L28600N 43950E < <10 <10 75 <10 60 L28600N 44000E < <10 <10 73 <10 62 L28600N 44050E < <10 <10 78 <10 66 L28600N 44100E < <10 <10 66 <10 40 L28600N 44150E < <10 <10 47 <10 67 L28600N 44200E < <10 <10 78 <10 65 L28600N 44250E < <10 <10 79 <10 56 L28600N 44300E < <10 <10 66 <10 57 L28600N 44350E < <10 <10 65 <10 54 L28600N 44400E < <10 <10 50 <10 51 L28600N 44450E < <10 <10 63 <10 55

171 Page: 1 Finalized Date: 13-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 80 Soil samples submitted to our lab in Vancouver, BC, Canada on 26-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

172 Page: 2 - A Finalized Date: 13-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28100N 43450E < <0.5 < L28100N 43475E < < < L28100N 43500E < < < L28100N 43525E < < < L28100N 43550E < < < L28100N 43575E < <0.5 < L28100N 43600E < < < L28100N 43625E <10 80 < < L28100N 43650E < < L28100N 43675E < < < L28100N 43700E < < L28100N 43725E < <0.5 < < L28100N 43750E < < L28100N 43775E < < L28100N 43800E < < < L28100N 43825E < < < L28100N 43850E <2 < <0.5 < < L28100N 43875E < <0.5 < < L28100N 43900E < <0.5 < < L28100N 43925E < < < L28100N 43950E < < < L28100N 43975E < <0.5 < < L28100N 44000E 0.38 <0.005 < < < < L28150N 43450E <10 90 <0.5 < < L28150N 43475E < <10 90 <0.5 < < L28150N 43500E <10 80 <0.5 < < L28150N 43525E <10 90 <0.5 < < L28150N 43550E < < < L28150N 43575E < <0.5 < < L28150N 43600E < < < L28150N 43625E < <0.5 < < L28150N 43650E <10 90 <0.5 < < L28150N 43675E < <0.5 < L28150N 43700E < <0.5 < L28150N 43725E < < L28150N 43750E < < L28150N 43775E <10 90 <0.5 < < L28150N 43800E < <0.5 < < L28150N 43825E < < <0.5 < < L28150N 43850E < <0.5 < <

173 Page: 2 - B Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28100N 43450E 10 < L28100N 43475E 10 < < L28100N 43500E 10 < < L28100N 43525E <10 < < L28100N 43550E 10 < L28100N 43575E < L28100N 43600E L28100N 43625E 10 < < L28100N 43650E 10 < < L28100N 43675E < < L28100N 43700E < < L28100N 43725E 10 < < < L28100N 43750E < L28100N 43775E <10 < < < L28100N 43800E 10 < L28100N 43825E 10 < < < L28100N 43850E 10 < < < < L28100N 43875E 10 < < L28100N 43900E 10 < < < L28100N 43925E 10 < < < L28100N 43950E 10 < < L28100N 43975E 10 < < < L28100N 44000E 10 < < < L28150N 43450E <10 < L28150N 43475E 10 < L28150N 43500E <10 < < < L28150N 43525E <10 < < L28150N 43550E 10 < < L28150N 43575E <10 < L28150N 43600E 10 < L28150N 43625E 10 < < < L28150N 43650E 10 < < < L28150N 43675E <10 < < L28150N 43700E <10 < < L28150N 43725E 10 < < L28150N 43750E < L28150N 43775E 10 < < < L28150N 43800E 10 < < < L28150N 43825E 10 < < < L28150N 43850E 10 < <2 4 25

174 Page: 2 - C Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28100N 43450E < <10 <10 67 < L28100N 43475E < <10 <10 76 <10 75 L28100N 43500E < <10 <10 83 <10 59 L28100N 43525E < <10 <10 79 <10 66 L28100N 43550E < <10 <10 71 <10 69 L28100N 43575E < <10 <10 46 <10 75 L28100N 43600E < <10 < L28100N 43625E < <10 <10 88 <10 55 L28100N 43650E < <10 <10 88 <10 62 L28100N 43675E < <10 <10 86 <10 63 L28100N 43700E < <10 <10 88 <10 60 L28100N 43725E < <10 <10 92 <10 59 L28100N 43750E < <10 <10 54 <10 55 L28100N 43775E < <10 <10 73 <10 99 L28100N 43800E < <10 <10 77 <10 68 L28100N 43825E < <10 <10 84 <10 62 L28100N 43850E < <10 <10 68 <10 43 L28100N 43875E < <10 <10 91 <10 58 L28100N 43900E < <10 <10 93 <10 62 L28100N 43925E < <10 <10 87 <10 65 L28100N 43950E < <10 <10 95 <10 92 L28100N 43975E < <10 < <10 74 L28100N 44000E < <10 <10 93 <10 53 L28150N 43450E < <10 <10 61 <10 66 L28150N 43475E < <10 <10 83 <10 63 L28150N 43500E < <10 <10 57 <10 72 L28150N 43525E < <10 <10 66 <10 55 L28150N 43550E < <10 <10 76 <10 54 L28150N 43575E < <10 <10 74 <10 66 L28150N 43600E < <10 <10 73 <10 70 L28150N 43625E < <10 <10 88 <10 46 L28150N 43650E < <10 <10 73 <10 65 L28150N 43675E < <10 <10 18 <10 19 L28150N 43700E < <10 <10 26 <10 28 L28150N 43725E < <10 <10 65 <10 66 L28150N 43750E < <10 <10 55 <10 42 L28150N 43775E < <10 <10 72 <10 61 L28150N 43800E < <10 <10 77 <10 52 L28150N 43825E < <10 <10 78 <10 56 L28150N 43850E < <10 <10 80 <10 64

175 Page: 3 - A Finalized Date: 13-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L28150N 43875E < <0.5 < < L28150N 43900E < <0.5 < < L28150N 43925E < < L28150N 43950E < <0.5 < < L28150N 43975E < <0.5 < < L28150N 44000E < <0.5 < < L28250N 43450E <10 70 <0.5 < < L28250N 43475E < < < L28250N 43500E < <0.5 < < L28250N 43525E < <0.5 < < L28250N 43550E < < < L28250N 43575E < <0.5 < < L28250N 43600E < <0.5 < < L28250N 43625E < <0.5 < < L28250N 43650E < <0.5 < < L28250N 43675E < <0.5 < < L28250N 43700E < <0.5 < < L28250N 43725E < < <0.5 < < L28250N 43750E <2 < <0.5 < < L28250N 43775E < <0.5 < < L28250N 43800E < <0.5 < < L28250N 43825E < <0.5 < < L28250N 43850E < < <0.5 < < L28250N 43875E < < < L28250N 43900E < <0.5 < < L28250N 43925E <2 < <0.5 < < L28250N 43950E < <0.5 < < L28250N 43975E < <0.5 < < L28250N 44000E < < < L28000N 43475E < <0.5 < < L28000N 43525E < <0.5 < < L28000N 43575E <10 80 <0.5 < < L28000N 43625E < < < < L28000N 43675E < <0.5 < < L28000N 43725E < <0.5 < < L28000N 43775E < < < L28000N 43825E < < < L28000N 43875E < <0.5 < L28000N 43925E 0.38 <0.005 < <10 90 <0.5 < < L28000N 43975E 0.36 < < < <

176 Page: 3 - B Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L28150N 43875E 10 < < L28150N 43900E 10 < < < L28150N 43925E 10 < < L28150N 43950E 10 < < L28150N 43975E <10 < < L28150N 44000E 10 < < L28250N 43450E 10 < < < L28250N 43475E 10 < < L28250N 43500E 10 < < < L28250N 43525E 10 < L28250N 43550E 10 < < L28250N 43575E 10 < < L28250N 43600E < < L28250N 43625E 10 < < < < L28250N 43650E 10 < < < < L28250N 43675E 10 < < < < L28250N 43700E < < < L28250N 43725E 10 < < < L28250N 43750E 10 < < < L28250N 43775E 10 < < < L28250N 43800E <10 < < < L28250N 43825E 10 < < < < L28250N 43850E 10 < < < < L28250N 43875E 10 < < < L28250N 43900E 10 < < < L28250N 43925E 10 < < < L28250N 43950E 10 < < < L28250N 43975E <10 < < L28250N 44000E 10 < < L28000N 43475E 10 < < < L28000N 43525E <10 < < < L28000N 43575E 10 < < < < L28000N 43625E <10 < < < L28000N 43675E <10 < < < L28000N 43725E < < L28000N 43775E 10 < < < < L28000N 43825E 10 < < < L28000N 43875E 10 < < < L28000N 43925E <10 < < < < L28000N 43975E < < <2 3 17

177 Page: 3 - C Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L28150N 43875E < <10 <10 69 <10 53 L28150N 43900E < <10 <10 88 <10 75 L28150N 43925E < <10 <10 90 < L28150N 43950E < <10 <10 93 <10 64 L28150N 43975E < <10 <10 67 <10 75 L28150N 44000E < <10 <10 76 <10 71 L28250N 43450E < <10 <10 74 <10 42 L28250N 43475E < <10 <10 77 <10 53 L28250N 43500E < <10 <10 78 <10 56 L28250N 43525E < <10 <10 69 <10 48 L28250N 43550E < <10 <10 80 <10 85 L28250N 43575E < <10 <10 72 <10 97 L28250N 43600E < <10 <10 75 < L28250N 43625E < <10 <10 82 < L28250N 43650E < <10 < < L28250N 43675E < <10 < < L28250N 43700E < <10 < < L28250N 43725E < <10 <10 81 <10 84 L28250N 43750E < <10 <10 31 <10 82 L28250N 43775E < <10 <10 79 <10 55 L28250N 43800E < <10 <10 77 <10 51 L28250N 43825E < <10 <10 72 <10 62 L28250N 43850E < <10 <10 82 <10 66 L28250N 43875E < <10 <10 77 <10 62 L28250N 43900E < <10 <10 86 <10 56 L28250N 43925E < <10 <10 66 <10 57 L28250N 43950E < <10 <10 67 <10 54 L28250N 43975E < <10 <10 79 <10 63 L28250N 44000E < <10 <10 70 <10 52 L28000N 43475E < <10 <10 71 <10 40 L28000N 43525E < <10 <10 74 <10 47 L28000N 43575E < <10 <10 72 <10 36 L28000N 43625E < <10 <10 73 <10 65 L28000N 43675E < <10 <10 49 <10 38 L28000N 43725E < <10 <10 84 < L28000N 43775E < <10 <10 88 <10 69 L28000N 43825E < <10 <10 81 <10 86 L28000N 43875E < <10 <10 87 < L28000N 43925E < <10 <10 81 <10 52 L28000N 43975E < <10 <10 66 <10 57

178 Page: 1 Finalized Date: 13-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 72 Soil samples submitted to our lab in Vancouver, BC, Canada on 26-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

179 Page: 2 - A Finalized Date: 13-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27500N 42675E <2 < <0.5 < < L27500N 42700E < <0.5 < < L27500N 42725E < <0.5 < < L27500N 42750E < <0.5 < L27500N 42775E < <0.5 < L27500N 42800E < <0.5 < L27500N 42825E < <0.5 < L27500N 42850E < <0.5 < < L27500N 42875E < <0.5 < L27500N 42900E < < < L27500N 42925E < < < L27500N 42950E < < < L27500N 42975E < < < L27500N 43000E < < < L27500N 43025E < < < L27500N 43050E < <0.5 < L27500N 43075E < < < L27500N 43100E < < L27550N 42675E <2 <10 90 <0.5 < < L27550N 42700E < < L27550N 42725E < < < L27550N 42750E < <0.5 < < L27550N 42775E < < < L27550N 42800E < < < L27550N 42825E < < < L27550N 42850E < <0.5 < < L27550N 42875E < <0.5 < L27550N 42900E < < L27550N 42925E < <0.5 < < L27550N 42950E < < < L27550N 42975E < < < L27550N 43000E < < < L27550N 43025E < < L27550N 43050E < < L27550N 43075E < < L27550N 43100E < < L27650N 42675E <2 < <0.5 < L27650N 42700E <2 < < < L27650N 42725E < < < L27650N 42750E < < <

180 Page: 2 - B Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27500N 42675E <10 < < < < L27500N 42700E 10 < < < < L27500N 42725E 10 < < < L27500N 42750E 10 < < L27500N 42775E L27500N 42800E 10 < < L27500N 42825E 10 < < < L27500N 42850E 10 < < L27500N 42875E 10 < L27500N 42900E 10 < L27500N 42925E L27500N 42950E 10 < L27500N 42975E L27500N 43000E < L27500N 43025E L27500N 43050E L27500N 43075E L27500N 43100E L27550N 42675E 10 < < < < L27550N 42700E 10 < < < L27550N 42725E L27550N 42750E 10 < < L27550N 42775E < < L27550N 42800E 10 < < L27550N 42825E 10 < < L27550N 42850E < L27550N 42875E 10 < L27550N 42900E < L27550N 42925E < < L27550N 42950E < <0.01 < L27550N 42975E < L27550N 43000E 10 < < < L27550N 43025E 10 < L27550N 43050E < L27550N 43075E L27550N 43100E L27650N 42675E < L27650N 42700E <10 < < < L27650N 42725E 10 < <1 < <0.01 < L27650N 42750E 10 < < <

181 Page: 2 - C Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27500N 42675E < <10 <10 46 <10 99 L27500N 42700E < <10 <10 57 < L27500N 42725E < <10 <10 91 < L27500N 42750E < <10 <10 88 < L27500N 42775E < <10 <10 83 < L27500N 42800E < <10 <10 78 <10 96 L27500N 42825E < <10 <10 84 < L27500N 42850E < <10 <10 91 < L27500N 42875E < <10 <10 91 < L27500N 42900E < <10 <10 95 < L27500N 42925E < <10 <10 98 <10 89 L27500N 42950E < <10 <10 94 <10 92 L27500N 42975E < <10 < <10 78 L27500N 43000E < <10 < <10 78 L27500N 43025E < <10 < <10 77 L27500N 43050E < <10 < <10 81 L27500N 43075E < <10 <10 89 <10 79 L27500N 43100E < <10 <10 82 <10 82 L27550N 42675E < <10 <10 73 < L27550N 42700E < <10 <10 82 < L27550N 42725E < <10 <10 79 < L27550N 42750E < <10 <10 96 < L27550N 42775E < <10 <10 78 <10 89 L27550N 42800E < <10 < <10 97 L27550N 42825E < <10 <10 94 <10 99 L27550N 42850E < <10 < <10 99 L27550N 42875E < <10 <10 88 < L27550N 42900E < <10 < < L27550N 42925E < <10 < <10 78 L27550N 42950E < <10 < <10 70 L27550N 42975E < <10 < <10 72 L27550N 43000E < <10 <10 91 <10 65 L27550N 43025E < <10 <10 93 <10 92 L27550N 43050E < <10 <10 92 <10 86 L27550N 43075E < <10 <10 79 <10 85 L27550N 43100E < <10 <10 73 <10 81 L27650N 42675E < <10 <10 81 < L27650N 42700E < <10 <10 31 < L27650N 42725E < <10 < < L27650N 42750E < <10 <10 64 <10 86

182 Page: 3 - A Finalized Date: 13-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27650N 42775E < < < L27650N 42800E < < < L27650N 42825E < < < L27650N 42850E < < < L27650N 42875E < <0.5 < < L27650N 42900E < <0.5 < < L27650N 42925E < <0.5 < L27650N 42950E < <0.5 < < L27650N 42975E < <0.5 < < L27650N 43000E < < < L27650N 43025E < <0.5 < < L27650N 43050E < <0.5 < L27650N 43075E <10 90 < < L27650N 43100E < <0.5 < < L27600N 42675E < <2 < <0.5 < < L27600N 42725E < <0.5 < < L27600N 42775E < <0.5 < L27600N 42825E < <0.5 < < L27600N 42875E < <0.5 < < L27600N 42925E < < <0.5 < < L27600N 42975E < <0.5 < < L27600N 43025E < <0.5 < < L27600N 43075E < < < L27800N 42675E 0.34 < <2 < <0.5 < < L27800N 42725E 0.34 < <2 < <0.5 < < L27800N 42775E < <0.5 < < L27800N 42825E < <10 70 <0.5 < < L27800N 42875E < <0.5 < < L27800N 42925E < <0.5 < < L27800N 42975E < <0.5 < < L27800N 43025E 0.44 < < <0.5 < < L27800N 43075E < <0.5 < <

183 Page: 3 - B Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27650N 42775E 10 < < < L27650N 42800E L27650N 42825E < < L27650N 42850E 10 < <0.01 < L27650N 42875E < < L27650N 42900E < < L27650N 42925E 10 < < < < L27650N 42950E 10 < < <1 < L27650N 42975E 10 < <1 < L27650N 43000E 10 < < <1 < L27650N 43025E 10 < < L27650N 43050E 10 < < L27650N 43075E 10 < < < < L27650N 43100E 10 < < < L27600N 42675E <10 < < <1 < <0.01 < L27600N 42725E 10 < < < L27600N 42775E 10 < < L27600N 42825E 10 < <1 < L27600N 42875E < L27600N 42925E 10 < <1 < <0.01 < L27600N 42975E 10 < <1 < L27600N 43025E <10 < <1 < L27600N 43075E 10 < < L27800N 42675E 10 < < < < L27800N 42725E 10 < < <1 < < L27800N 42775E 10 < < L27800N 42825E < <1 < < L27800N 42875E 10 < < < L27800N 42925E 10 < L27800N 42975E 10 < L27800N 43025E 10 < L27800N 43075E < <

184 Page: 3 - C Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27650N 42775E < <10 <10 77 <10 90 L27650N 42800E < <10 <10 75 < L27650N 42825E < <10 < < L27650N 42850E < <10 <10 93 <10 89 L27650N 42875E < <10 < <10 75 L27650N 42900E < <10 < <10 87 L27650N 42925E < <10 < <10 80 L27650N 42950E < <10 < <10 69 L27650N 42975E < <10 < <10 73 L27650N 43000E < <10 < <10 72 L27650N 43025E < <10 <10 72 <10 76 L27650N 43050E < <10 <10 83 <10 87 L27650N 43075E < <10 < <10 83 L27650N 43100E < <10 <10 90 <10 83 L27600N 42675E < <10 <10 53 <10 93 L27600N 42725E < <10 <10 74 < L27600N 42775E < <10 <10 78 < L27600N 42825E < <10 < <10 90 L27600N 42875E < <10 < <10 84 L27600N 42925E < <10 < <10 72 L27600N 42975E < <10 < <10 70 L27600N 43025E < <10 <10 79 <10 71 L27600N 43075E < <10 <10 78 <10 71 L27800N 42675E < <10 <10 66 < L27800N 42725E < <10 <10 32 <10 71 L27800N 42775E < <10 <10 90 <10 62 L27800N 42825E < <10 <10 67 <10 48 L27800N 42875E < <10 <10 72 <10 66 L27800N 42925E < <10 <10 74 <10 81 L27800N 42975E < <10 <10 78 <10 75 L27800N 43025E < <10 <10 71 <10 78 L27800N 43075E < <10 <10 47 <10 90

185 Page: 1 Finalized Date: 13-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 72 Soil samples submitted to our lab in Vancouver, BC, Canada on 26-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

186 Page: 2 - A Finalized Date: 13-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27700N 42675E <2 < <0.5 < L27700N 42700E < <0.5 < L27700N 42725E < <0.5 < < L27700N 42750E < <0.5 < L27700N 42775E < <0.5 < L27700N 42800E < <0.5 < L27700N 42825E < <0.5 < L27700N 42850E < <0.5 < L27700N 42875E <10 90 <0.5 < < L27700N 42900E <10 80 <0.5 < < L27700N 42925E <10 90 <0.5 < < L27700N 42950E < <0.5 < < L27700N 42975E < < < L27700N 43000E < < < L27700N 43025E 0.42 < < <0.5 < < L27700N 43050E < <0.5 < < L27700N 43075E < <0.5 < < L27700N 43100E < <0.5 < < L27750N 42675E < <0.5 < L27750N 42700E < <0.5 < < L27750N 42725E < <0.5 < L27750N 42750E < <0.5 < < L27750N 42775E < < < L27750N 42800E < <0.5 < < L27750N 42825E < < < L27750N 42850E <10 80 < < L27750N 42875E <10 70 <0.5 < < L27750N 42900E <10 70 <0.5 < < L27750N 42925E <10 60 <0.5 < < L27750N 42950E < <0.5 < < L27750N 42975E < <0.5 < < L27750N 43000E < <0.5 < < L27750N 43025E < <0.5 < < L27750N 43050E < <0.5 < < L27750N 43075E < <0.5 < < L27750N 43100E < <0.5 < < L27850N 42675E < <0.5 < < L27850N 42700E <10 80 <0.5 < < L27850N 42725E <10 70 <0.5 < < L27850N 42750E <10 80 <0.5 < <

187 Page: 2 - B Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27700N 42675E 10 < < < L27700N 42700E < < < L27700N 42725E 10 < < <1 < < L27700N 42750E < <1 < L27700N 42775E 10 < <1 < L27700N 42800E 10 < <1 < < L27700N 42825E 10 < < L27700N 42850E <1 < < L27700N 42875E 10 < < < L27700N 42900E 10 < < < L27700N 42925E 10 < L27700N 42950E 10 < L27700N 42975E 10 < < < L27700N 43000E 10 < L27700N 43025E < L27700N 43050E 10 < L27700N 43075E 10 < L27700N 43100E L27750N 42675E 10 < < < <0.01 < L27750N 42700E <10 < < < L27750N 42725E < L27750N 42750E 10 < < < L27750N 42775E 10 < L27750N 42800E 10 < < L27750N 42825E 10 < < < L27750N 42850E 10 < < < L27750N 42875E 10 < < < L27750N 42900E 10 < < < < L27750N 42925E < L27750N 42950E 10 < < L27750N 42975E 10 < L27750N 43000E 10 < L27750N 43025E 10 < L27750N 43050E 10 < L27750N 43075E <10 < L27750N 43100E 10 < < < L27850N 42675E 10 < < < < L27850N 42700E 10 < < < <0.01 < L27850N 42725E 10 < < < <2 7 8 L27850N 42750E <10 < <

188 Page: 2 - C Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27700N 42675E < <10 <10 59 < L27700N 42700E < <10 < < L27700N 42725E < <10 <10 50 < L27700N 42750E < <10 <10 98 < L27700N 42775E < <10 <10 62 < L27700N 42800E < <10 < < L27700N 42825E < <10 <10 93 < L27700N 42850E < <10 < <10 87 L27700N 42875E < <10 <10 99 <10 73 L27700N 42900E < <10 < <10 79 L27700N 42925E < <10 < <10 73 L27700N 42950E < <10 < <10 79 L27700N 42975E < <10 < <10 79 L27700N 43000E < <10 <10 89 <10 92 L27700N 43025E < <10 < <10 65 L27700N 43050E < <10 < <10 81 L27700N 43075E < <10 < L27700N 43100E < <10 <10 66 < L27750N 42675E < <10 < < L27750N 42700E < <10 <10 36 <10 91 L27750N 42725E < <10 <10 38 < L27750N 42750E < <10 <10 35 < L27750N 42775E < <10 <10 88 < L27750N 42800E < <10 <10 72 < L27750N 42825E < <10 < <10 82 L27750N 42850E < <10 <10 86 <10 68 L27750N 42875E < <10 <10 87 <10 58 L27750N 42900E < <10 < <10 77 L27750N 42925E < <10 <10 72 <10 68 L27750N 42950E < <10 <10 94 <10 73 L27750N 42975E < <10 < <10 84 L27750N 43000E < <10 <10 89 <10 70 L27750N 43025E < <10 <10 98 <10 72 L27750N 43050E < <10 <10 69 < L27750N 43075E < <10 <10 51 < L27750N 43100E < <10 <10 72 <10 94 L27850N 42675E < <10 < < L27850N 42700E < <10 <10 29 <10 63 L27850N 42725E < <10 <10 20 <10 80 L27850N 42750E < <10 <10 83 <10 76

189 Page: 3 - A Finalized Date: 13-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L27850N 42775E <10 90 <0.5 < < L27850N 42800E < <0.5 < < L27850N 42825E <10 80 <0.5 < < L27850N 42850E < <0.5 < < L27850N 42875E < <0.5 < < L27850N 42900E < <0.5 < L27850N 42925E <10 90 <0.5 < < L27850N 42950E < <0.5 < < L27850N 42975E < <0.5 < < L27850N 43000E < < < L27850N 43025E < < < L27850N 43050E < < < < L27850N 43075E <10 90 <0.5 < < L27850N 43100E < <0.5 < < L27900N 42675E <10 90 <0.5 < < L27900N 42700E <10 90 <0.5 < < L27900N 42725E < <0.5 < < L27900N 42750E <10 90 <0.5 < < L27900N 42775E <10 80 <0.5 < < L27900N 42800E < <0.5 < < L27900N 42825E < <10 90 <0.5 < < L27900N 42850E < <0.5 < < L27900N 42875E < <0.5 < < L27900N 42900E < < < L27900N 42925E < <0.5 < < L27900N 42950E < <0.5 < < L27900N 42975E < <0.5 < < L27900N 43000E < <0.5 < < L27900N 43025E < <0.5 < < L27900N 43050E 0.38 < < <0.5 < < L27900N 43075E < <0.5 < < L27900N 43100E < < <

190 Page: 3 - B Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L27850N 42775E 10 < < < < L27850N 42800E 10 < L27850N 42825E <10 < < L27850N 42850E 10 < < L27850N 42875E 10 < < < L27850N 42900E 10 < < L27850N 42925E 10 < L27850N 42950E 10 < L27850N 42975E 10 < L27850N 43000E 10 < L27850N 43025E 10 < L27850N 43050E L27850N 43075E 10 < < < < L27850N 43100E <10 < L27900N 42675E 10 < < L27900N 42700E 10 < < < L27900N 42725E 10 < < < L27900N 42750E 10 < < L27900N 42775E 10 < < < L27900N 42800E <10 < < < L27900N 42825E <10 < < L27900N 42850E 10 < < < L27900N 42875E 10 < < L27900N 42900E 10 < < < L27900N 42925E 10 < < < L27900N 42950E 10 < < L27900N 42975E 10 < L27900N 43000E < L27900N 43025E 10 < L27900N 43050E 10 < < < L27900N 43075E 10 < < L27900N 43100E

191 Page: 3 - C Finalized Date: 13-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L27850N 42775E < <10 <10 81 <10 58 L27850N 42800E < <10 <10 75 <10 60 L27850N 42825E < <10 <10 66 <10 50 L27850N 42850E < <10 <10 66 <10 50 L27850N 42875E < <10 <10 63 <10 68 L27850N 42900E < <10 <10 60 <10 76 L27850N 42925E < <10 < L27850N 42950E < <10 <10 75 <10 75 L27850N 42975E < <10 <10 82 <10 71 L27850N 43000E < <10 <10 73 < L27850N 43025E < <10 <10 68 < L27850N 43050E < <10 <10 69 < L27850N 43075E < <10 <10 54 <10 65 L27850N 43100E < <10 <10 47 <10 81 L27900N 42675E < <10 <10 71 <10 65 L27900N 42700E < <10 < <10 79 L27900N 42725E < <10 <10 85 <10 64 L27900N 42750E < <10 <10 76 <10 65 L27900N 42775E < <10 <10 84 <10 58 L27900N 42800E < <10 <10 69 <10 56 L27900N 42825E < <10 <10 65 <10 55 L27900N 42850E < <10 <10 79 <10 73 L27900N 42875E < <10 <10 94 <10 75 L27900N 42900E < <10 <10 82 <10 97 L27900N 42925E < <10 <10 68 <10 67 L27900N 42950E < <10 <10 75 <10 72 L27900N 42975E < <10 <10 71 <10 86 L27900N 43000E < <10 <10 78 <10 88 L27900N 43025E < <10 <10 77 <10 84 L27900N 43050E < <10 <10 56 <10 76 L27900N 43075E < <10 <10 68 <10 82 L27900N 43100E < <10 <10 63 <10 109

192 Page: 1 Finalized Date: 28-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 57 Soil samples submitted to our lab in Vancouver, BC, Canada on 10-OCT The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

193 Page: 2 - A Finalized Date: 28-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L30100N-45150E < < < L30100N-45200E 0.52 <0.005 < < <0.5 < < L30100N-45250E 0.30 <0.005 < < <0.5 < < L30100N-45300E < < <0.5 < < L30100N-45350E 0.36 <0.005 < < <0.5 < < L30100N-45400E 0.42 <0.005 < < < < L30100N-45450E 0.40 < < <0.5 < < L30100N-45500E < < < L30100N-45550E 0.26 <0.005 < < <0.5 < < L30100N-45600E < <2 < <0.5 < < L30100N-45650E 0.36 <0.005 < < <0.5 < < L30100N-45700E < < <0.5 < < L30100N-45750E 0.36 <0.005 < < <0.5 < < L30100N-45800E 0.36 <0.005 < < <0.5 < < L30100N-45850E 0.26 <0.005 < < < < L30100N-45900E 0.44 <0.005 < < <0.5 < < L30100N-45950E 0.42 <0.005 < < <0.5 < < L30100N-46000E < < <0.5 < < L30100N-46050E < < <0.5 < < L30100N-46100E 0.38 <0.005 < <2 < <0.5 < < L30100N-46150E 0.32 <0.005 < < < < L30100N-46200E 0.48 <0.005 < < < < L30100N-46250E 0.38 <0.005 < < < < L30100N-46300E 0.48 <0.005 < < < < L30100N-46350E 0.40 < < < < L30100N-46400E < < < L30100N-46450E < < < < L30100N-46500E 0.44 <0.005 < < <0.5 < < L30100N-46550E 0.42 <0.005 < < <0.5 < < L30100N-46600E 0.32 <0.005 < < <0.5 < < L30100N-46650E 0.38 <0.005 < < < < L30100N-46700E < < < L30100N-46750E 0.30 <0.005 < <2 < <0.5 < < L30100N-46800E 0.40 <0.005 < <2 < <0.5 < < L30100N-46850E < < < < L30100N-46900E < < < L30100N-46950E 0.44 <0.005 < < <0.5 < < L30100N-47000E 0.40 <0.005 < <2 < < < L30100N-47050E 0.44 <0.005 < < < < L30100N-47100E 0.42 <0.005 < < <0.5 < <

194 Page: 2 - B Finalized Date: 28-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L30100N-45150E < L30100N-45200E < L30100N-45250E < L30100N-45300E < L30100N-45350E < L30100N-45400E < < L30100N-45450E < L30100N-45500E 10 < < L30100N-45550E 10 < < < L30100N-45600E 10 < < < < L30100N-45650E 10 < < < < L30100N-45700E 10 < < < L30100N-45750E 10 < < < L30100N-45800E 10 < < < < L30100N-45850E 10 < < < < L30100N-45900E 10 < < < < L30100N-45950E 10 < < < <0.01 < L30100N-46000E 10 < < L30100N-46050E 10 < < < <0.01 < L30100N-46100E 10 < < < < L30100N-46150E 10 < < L30100N-46200E 10 < < < L30100N-46250E 10 < < < L30100N-46300E 10 < < L30100N-46350E 10 < < < L30100N-46400E 10 < < L30100N-46450E 10 < < <0.01 < L30100N-46500E 10 < < < <0.01 < L30100N-46550E 10 < < < < L30100N-46600E 10 < < < < L30100N-46650E 10 < < < L30100N-46700E 10 < < < L30100N-46750E 10 < < L30100N-46800E 10 < < < L30100N-46850E 10 < < < L30100N-46900E 10 < < < L30100N-46950E 10 < < < <0.01 < L30100N-47000E 10 < < < L30100N-47050E 10 < < < L30100N-47100E 10 < < < <2 3 31

195 Page: 2 - C Finalized Date: 28-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L30100N-45150E < <10 <10 88 <10 61 L30100N-45200E < <10 <10 81 <10 60 L30100N-45250E < <10 <10 80 <10 60 L30100N-45300E < <10 <10 80 <10 57 L30100N-45350E < <10 <10 75 <10 80 L30100N-45400E < <10 <10 82 <10 63 L30100N-45450E < <10 <10 74 <10 63 L30100N-45500E < < <10 33 L30100N-45550E < <10 <10 56 <10 39 L30100N-45600E < <10 <10 45 <10 73 L30100N-45650E < <10 <10 69 <10 53 L30100N-45700E < <10 <10 58 <10 55 L30100N-45750E < <10 <10 71 <10 59 L30100N-45800E < <10 <10 74 <10 62 L30100N-45850E < <10 <10 45 <10 35 L30100N-45900E < <10 <10 79 <10 56 L30100N-45950E < <10 <10 71 <10 50 L30100N-46000E < <10 <10 74 <10 44 L30100N-46050E < <10 <10 65 <10 48 L30100N-46100E < <10 <10 60 <10 65 L30100N-46150E < <10 <10 78 <10 64 L30100N-46200E < <10 <10 94 <10 62 L30100N-46250E < <10 <10 80 <10 59 L30100N-46300E < <10 <10 79 <10 58 L30100N-46350E < <10 <10 72 <10 64 L30100N-46400E < < <10 21 L30100N-46450E < <10 <10 67 <10 37 L30100N-46500E < <10 <10 66 <10 39 L30100N-46550E < <10 <10 57 <10 55 L30100N-46600E < <10 <10 49 <10 44 L30100N-46650E < <10 <10 65 <10 49 L30100N-46700E < <10 <10 67 <10 57 L30100N-46750E < <10 <10 78 <10 30 L30100N-46800E < <10 <10 73 <10 43 L30100N-46850E < <10 <10 66 <10 45 L30100N-46900E < <10 <10 63 < L30100N-46950E < <10 <10 70 <10 61 L30100N-47000E < <10 <10 71 <10 51 L30100N-47050E < <10 <10 74 <10 61 L30100N-47100E < <10 <10 62 <10 50

196 Page: 3 - A Finalized Date: 28-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L30100N-47150E 0.38 <0.005 < < < < L30100N-47200E 0.48 <0.005 < < < < L30100N-47250E < < <0.5 < < L30100N-47300E < <0.5 < < L30100N-47350E 0.40 <0.005 < < <0.5 < < L30100N-47400E 0.44 <0.005 < < <0.5 < < L30100N-47450E < < <0.5 < < L30100N-47500E 0.38 <0.005 < < < < L30100N-47550E 0.36 <0.005 < <2 < <0.5 < < L30100N-47600E 0.42 <0.005 < < < < L30100N-47650E 0.36 <0.005 < < < < L30100N-47700E 0.44 <0.005 < < <0.5 < < L30100N-47750E 0.32 <0.005 < < < L30100N-47800E 0.46 <0.005 < < < < L30100N-47850E 0.40 <0.005 < < < < L30100N-47900E 0.44 <0.005 < <2 < <0.5 < < L30100N-47950E 0.40 <0.005 < < <0.5 < <

197 Page: 3 - B Finalized Date: 28-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L30100N-47150E 10 < < < L30100N-47200E 10 < < < L30100N-47250E <10 < < < <0.01 < L30100N-47300E 10 < < < L30100N-47350E <10 < < < < L30100N-47400E 10 < < < L30100N-47450E 10 < < < <0.01 < L30100N-47500E 10 < < < L30100N-47550E <10 < < < <0.01 < L30100N-47600E 10 < < <0.01 < L30100N-47650E 10 < < < L30100N-47700E 10 < < < <0.01 < L30100N-47750E 10 < < < L30100N-47800E 10 < < < < L30100N-47850E 10 < < L30100N-47900E 10 < < < L30100N-47950E <10 < < <

198 Page: 3 - C Finalized Date: 28-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L30100N-47150E < <10 <10 68 <10 58 L30100N-47200E < <10 <10 75 <10 47 L30100N-47250E < <10 <10 61 <10 57 L30100N-47300E < <10 <10 65 <10 41 L30100N-47350E < <10 <10 68 <10 36 L30100N-47400E < <10 <10 58 <10 49 L30100N-47450E < <10 <10 71 <10 54 L30100N-47500E < <10 <10 64 <10 77 L30100N-47550E < <10 <10 53 <10 60 L30100N-47600E < <10 <10 71 < L30100N-47650E < <10 <10 57 < L30100N-47700E < <10 <10 61 <10 62 L30100N-47750E < <10 <10 46 < L30100N-47800E < <10 <10 60 <10 59 L30100N-47850E < <10 <10 74 <10 49 L30100N-47900E < <10 <10 64 <10 43 L30100N-47950E < <10 <10 58 <10 69

199 Page: 1 Finalized Date: 24-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 57 Soil samples submitted to our lab in Vancouver, BC, Canada on 10-OCT The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

200 Page: 2 - A Finalized Date: 24-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L30300N-45150E 0.42 <0.005 < < < < L30300N-45200E 0.38 <0.005 < < < < L30300N-45250E < < < < L30300N-45300E < < < < L30300N-45350E 0.44 <0.005 < < <0.5 < < L30300N-45400E 0.36 <0.005 < < < < L30300N-45450E 0.42 <0.005 < < < < L30300N-45500E 0.32 <0.005 < < < < L30300N-45550E 0.46 <0.005 < < < < L30300N-45600E 0.34 <0.005 < < <0.5 < < L30300N-45650E 0.40 <0.005 < <10 80 <0.5 < < L30300N-45700E 0.36 <0.005 < < <0.5 < < L30300N-45750E 0.46 <0.005 < < <0.5 < < L30300N-45800E 0.32 <0.005 < <10 90 <0.5 < < L30300N-45850E 0.38 <0.005 < <10 80 <0.5 < < L30300N-45900E < < < L30300N-45950E 0.48 <0.005 < < <0.5 < < L30300N-46000E 0.36 <0.005 < < <0.5 < < L30300N-46050E 0.36 <0.005 < < < < L30300N-46100E < < <0.5 < < L30300N-46150E 0.34 <0.005 < < < < L30300N-46200E 0.32 <0.005 < < < < L30300N-46250E 0.28 <0.005 < < < < L30300N-46300E 0.40 <0.005 < < <0.5 < < L30300N-46350E 0.42 <0.005 < < < < L30300N-46400E 0.44 <0.005 < < <0.5 < < L30300N-46450E 0.54 <0.005 < < <0.5 < < L30300N-46500E 0.34 <0.005 < < < < L30300N-46550E < < < < L30300N-46600E 0.42 <0.005 < < <0.5 < < L30300N-46650E 0.50 <0.005 < < <0.5 < < L30300N-46700E 0.46 <0.005 < < <0.5 < < L30300N-46750E 0.52 <0.005 < <10 90 <0.5 < < L30300N-46800E 0.38 <0.005 < < <0.5 < < L30300N-46850E 0.48 <0.005 < < <0.5 < < L30300N-46900E 0.40 <0.005 < < <0.5 < < L30300N-46950E 0.44 <0.005 < < <0.5 < < L30300N-47000E < <10 90 <0.5 < < L30300N-47050E 0.50 <0.005 < < <0.5 < < L30300N-47100E < <2 < <0.5 < <

201 Page: 2 - B Finalized Date: 24-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L30300N-45150E 10 < < L30300N-45200E 10 < < L30300N-45250E 10 < < L30300N-45300E 10 < < <0.01 < L30300N-45350E 10 < < <0.01 < L30300N-45400E < < L30300N-45450E 10 < < L30300N-45500E 10 < < L30300N-45550E 10 < < L30300N-45600E 10 < < L30300N-45650E <10 < < <0.01 < L30300N-45700E 10 < <0.01 < L30300N-45750E <10 < < <0.01 < L30300N-45800E 10 < < < <0.01 < L30300N-45850E <10 < < < <0.01 < L30300N-45900E 10 < < L30300N-45950E 10 < < <0.01 < L30300N-46000E <10 < < < L30300N-46050E 10 < < L30300N-46100E <10 < <0.01 < L30300N-46150E 10 < < < L30300N-46200E 10 < < <0.01 < L30300N-46250E 10 < < < L30300N-46300E 10 < < < <0.01 < L30300N-46350E 10 < < < <0.01 < L30300N-46400E <10 < < < <0.01 < L30300N-46450E 10 < < < <0.01 < L30300N-46500E 10 < < <0.01 < L30300N-46550E 10 < < <0.01 < L30300N-46600E 10 < < < <0.01 < L30300N-46650E 10 < < < <0.01 < L30300N-46700E <10 < < < <0.01 < L30300N-46750E <10 < <0.01 < L30300N-46800E 10 < < < <0.01 < L30300N-46850E 10 < < < <0.01 < L30300N-46900E <10 < <0.01 < L30300N-46950E 10 < < < L30300N-47000E <10 < < < <0.01 < L30300N-47050E <10 < < < <0.01 < L30300N-47100E 10 < < < <0.01 <2 3 27

202 Page: 2 - C Finalized Date: 24-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L30300N-45150E < <10 <10 69 <10 74 L30300N-45200E < <10 <10 69 <10 57 L30300N-45250E < <10 <10 54 <10 92 L30300N-45300E < <10 <10 94 <10 63 L30300N-45350E < <10 <10 83 <10 60 L30300N-45400E < <10 <10 82 <10 81 L30300N-45450E < <10 <10 78 <10 61 L30300N-45500E < <10 <10 76 <10 71 L30300N-45550E < <10 <10 78 <10 65 L30300N-45600E < <10 <10 74 <10 66 L30300N-45650E < <10 <10 68 <10 38 L30300N-45700E < <10 <10 88 <10 50 L30300N-45750E < <10 <10 85 <10 53 L30300N-45800E < <10 <10 67 <10 57 L30300N-45850E < <10 <10 43 <10 36 L30300N-45900E < <10 <10 87 <10 54 L30300N-45950E < <10 <10 58 <10 61 L30300N-46000E < <10 <10 85 <10 43 L30300N-46050E < <10 <10 71 <10 62 L30300N-46100E < <10 <10 61 <10 56 L30300N-46150E < <10 <10 58 <10 58 L30300N-46200E < <10 <10 55 < L30300N-46250E < <10 <10 63 < L30300N-46300E < <10 <10 53 <10 54 L30300N-46350E < <10 <10 57 <10 64 L30300N-46400E < <10 <10 72 <10 64 L30300N-46450E < <10 <10 62 <10 46 L30300N-46500E < <10 <10 62 <10 46 L30300N-46550E < <10 <10 65 <10 44 L30300N-46600E < <10 <10 60 <10 53 L30300N-46650E < <10 <10 63 <10 51 L30300N-46700E < <10 <10 74 <10 49 L30300N-46750E < <10 <10 73 <10 43 L30300N-46800E < <10 <10 42 <10 61 L30300N-46850E < <10 <10 59 <10 50 L30300N-46900E < <10 <10 78 <10 37 L30300N-46950E < <10 <10 65 <10 76 L30300N-47000E < <10 <10 68 <10 45 L30300N-47050E < <10 <10 76 <10 49 L30300N-47100E < <10 <10 54 <10 39

203 Page: 3 - A Finalized Date: 24-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L30300N-47150E 0.48 <0.005 < < <0.5 < < L30300N-47200E 0.38 <0.005 < <10 90 <0.5 < < L30300N-47250E 0.42 <0.005 < < <0.5 < < L30300N-47300E 0.34 <0.005 < < <0.5 < < L30300N-47350E 0.36 <0.005 < <10 80 <0.5 < < L30300N-47400E 0.36 <0.005 < < <0.5 < < L30300N-47450E 0.44 <0.005 < <10 80 <0.5 < < L30300N-47500E 0.36 <0.005 < <2 < <0.5 < < L30300N-47550E 0.54 < < <0.5 < < L30300N-47600E 0.26 <0.005 < < < < L30300N-47650E 0.40 <0.005 < < < < L30300N-47700E 0.36 <0.005 < < <0.5 < < L30300N-47750E 0.44 <0.005 < < < < L30300N-47800E 0.38 <0.005 < < < < L30300N-47850E 0.40 <0.005 < < <0.5 < < L30300N-47900E 0.40 <0.005 < < <0.5 < < L30300N-47950E 0.50 <0.005 < < <0.5 < <

204 Page: 3 - B Finalized Date: 24-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L30300N-47150E <10 < < < <0.01 < L30300N-47200E <10 < < < <0.01 < L30300N-47250E 10 < < < <0.01 < L30300N-47300E 10 < < < <0.01 < L30300N-47350E <10 < < < <0.01 < L30300N-47400E <10 < < < <0.01 < L30300N-47450E <10 < < < <0.01 < L30300N-47500E <10 < < < L30300N-47550E <10 < < <0.01 < L30300N-47600E 10 < < L30300N-47650E 10 < < L30300N-47700E 10 < < < L30300N-47750E 10 < < < L30300N-47800E 10 < < L30300N-47850E <10 < < L30300N-47900E <10 < < < <0.01 < L30300N-47950E <10 < < < <0.01 <2 3 38

205 Page: 3 - C Finalized Date: 24-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L30300N-47150E < <10 <10 53 <10 52 L30300N-47200E < <10 <10 52 <10 45 L30300N-47250E < <10 <10 65 <10 61 L30300N-47300E < <10 <10 47 <10 35 L30300N-47350E < <10 <10 46 <10 30 L30300N-47400E < <10 <10 67 <10 41 L30300N-47450E < <10 <10 67 <10 32 L30300N-47500E < <10 <10 74 <10 51 L30300N-47550E < <10 <10 62 <10 75 L30300N-47600E < <10 <10 38 <10 55 L30300N-47650E < <10 <10 62 <10 63 L30300N-47700E < <10 <10 25 < L30300N-47750E < <10 <10 69 <10 53 L30300N-47800E < <10 <10 64 <10 48 L30300N-47850E < <10 <10 39 < L30300N-47900E < <10 <10 58 <10 55 L30300N-47950E < <10 <10 58 <10 58

206 Page: 1 Finalized Date: 24-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 57 Soil samples submitted to our lab in Vancouver, BC, Canada on 10-OCT The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

207 Page: 2 - A Finalized Date: 24-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L30700N-45150E < L30700N-45200E < < < L30700N-45250E 0.42 <0.005 < < < < L30700N-45300E 0.34 < < L30700N-45350E < L30700N-45400E 0.32 <0.005 < < < < L30700N-45450E 0.42 < < L30700N-45500E < L30700N-45550E < L30700N-45600E < L30700N-45650E 0.42 < < L30700N-45700E 0.38 < < < L30700N-45750E < L30700N-45800E < L30700N-45850E 0.40 < < L30700N-45900E 0.40 <0.005 < < < < L30700N-45950E < < < L30700N-46000E 0.34 < < < < L30700N-46050E 0.40 < < < < L30700N-46100E < <2 < <0.5 < < L30700N-46150E < <2 < <0.5 < < L30700N-46200E < <2 < <0.5 < < L30700N-46250E 0.46 <0.005 < <2 < <0.5 < < L30700N-46300E 0.46 <0.005 < < < < L30700N-46350E 0.50 <0.005 < < <0.5 < < L30700N-46400E 0.36 <0.005 < <2 < <0.5 < < L30700N-46450E 0.42 <0.005 < < <0.5 < < L30700N-46500E 0.46 <0.005 < <2 < <0.5 < < L30700N-46550E 0.56 <0.005 < <2 < <0.5 < < L30700N-46600E < <2 < <0.5 < < L30700N-46650E 0.38 <0.005 < <2 < <0.5 < < L30700N-46700E 0.42 <0.005 < < <0.5 < < L30700N-46750E 0.48 <0.005 < <2 < <0.5 < < L30700N-46800E 0.42 <0.005 < <2 <10 70 <0.5 < < L30700N-46850E 0.44 <0.005 < <2 <10 90 <0.5 < < L30700N-46900E 0.44 <0.005 < <2 <10 90 <0.5 < < L30700N-46950E 0.32 <0.005 < <10 90 <0.5 < < L30700N-47000E 0.36 <0.005 < <2 <10 60 <0.5 < < L30700N-47050E 0.40 <0.005 < <2 <10 50 <0.5 < < L30700N-47100E < < <0.5 < <

208 Page: 2 - B Finalized Date: 24-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L30700N-45150E < L30700N-45200E 10 < < < < L30700N-45250E <1 < < L30700N-45300E <1 < < L30700N-45350E < L30700N-45400E <0.01 < L30700N-45450E < L30700N-45500E < L30700N-45550E < < L30700N-45600E < < L30700N-45650E < < L30700N-45700E < L30700N-45750E < L30700N-45800E < L30700N-45850E < < L30700N-45900E <1 < < L30700N-45950E < < < L30700N-46000E < < L30700N-46050E < < L30700N-46100E <1 < < L30700N-46150E < <1 < < L30700N-46200E < <1 < < L30700N-46250E <10 < < <1 < < L30700N-46300E 10 < < < <0.01 < L30700N-46350E <1 < < L30700N-46400E 10 < < <1 < <0.01 < L30700N-46450E <1 < <2 <0.01 < L30700N-46500E <10 < < <1 < <0.01 < L30700N-46550E 10 < <1 < <0.01 < L30700N-46600E < <1 < <0.01 < L30700N-46650E 10 < < <1 < < L30700N-46700E <10 < < <1 < <0.01 < L30700N-46750E <10 < < <1 < < L30700N-46800E < < <0.01 < L30700N-46850E < < <1 < < L30700N-46900E < <1 < <0.01 < L30700N-46950E <10 < < <1 < <0.01 < L30700N-47000E 10 < <1 < <0.01 < L30700N-47050E < <1 < <0.01 < L30700N-47100E < <1 < <0.01 <2 3 31

209 Page: 2 - C Finalized Date: 24-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L30700N-45150E < <10 <10 60 <10 51 L30700N-45200E < <10 <10 51 <10 56 L30700N-45250E < <10 <10 96 <10 64 L30700N-45300E < <10 <10 74 <10 77 L30700N-45350E < <10 <10 67 <10 44 L30700N-45400E < <10 <10 66 <10 41 L30700N-45450E < < <10 56 L30700N-45500E < <10 <10 64 <10 68 L30700N-45550E < <10 <10 65 <10 63 L30700N-45600E < <10 <10 70 <10 56 L30700N-45650E < <10 <10 61 <10 69 L30700N-45700E < <10 <10 61 <10 97 L30700N-45750E < <10 <10 58 <10 73 L30700N-45800E < <10 <10 69 <10 95 L30700N-45850E < <10 <10 67 <10 71 L30700N-45900E < <10 <10 69 <10 73 L30700N-45950E < <10 <10 58 <10 53 L30700N-46000E < <10 <10 62 <10 57 L30700N-46050E < <10 <10 58 <10 55 L30700N-46100E < <10 <10 58 <10 50 L30700N-46150E < <10 <10 49 <10 53 L30700N-46200E < <10 <10 57 <10 66 L30700N-46250E < <10 <10 54 <10 88 L30700N-46300E < <10 <10 58 <10 44 L30700N-46350E < <10 <10 64 <10 47 L30700N-46400E < <10 <10 63 <10 40 L30700N-46450E < <10 <10 66 <10 59 L30700N-46500E < <10 <10 62 <10 42 L30700N-46550E < <10 <10 58 <10 43 L30700N-46600E < <10 <10 55 <10 59 L30700N-46650E < <10 <10 51 <10 58 L30700N-46700E < <10 <10 77 <10 39 L30700N-46750E < <10 <10 61 <10 55 L30700N-46800E < <10 <10 63 <10 46 L30700N-46850E < <10 <10 66 <10 37 L30700N-46900E < <10 <10 49 <10 63 L30700N-46950E < <10 <10 58 <10 49 L30700N-47000E < <10 <10 47 <10 35 L30700N-47050E < <10 <10 46 <10 32 L30700N-47100E < <10 <10 54 <10 74

210 Page: 3 - A Finalized Date: 24-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L30700N-47150E 0.46 < <10 90 <0.5 < < L30700N-47200E 0.48 <0.005 < <2 <10 80 < < L30700N-47250E 0.46 < < <0.5 < < L30700N-47300E 0.34 <0.005 < <2 < <0.5 < < L30700N-47350E 0.50 < < < < L30700N-47400E 0.38 <0.005 < < <0.5 < < L30700N-47450E 0.54 <0.005 < < < < L30700N-47500E 0.50 <0.005 < < <0.5 < < L30700N-47550E 0.44 <0.005 < <2 < <0.5 < < L30700N-47600E 0.40 < <2 <10 90 <0.5 < < L30700N-47650E < < <0.5 < < L30700N-47700E 0.38 <0.005 < < <0.5 < < L30700N-47750E 0.52 <0.005 < <2 < <0.5 < < L30700N-47800E 0.36 <0.005 < < <0.5 < < L30700N-47850E 0.44 <0.005 < < < < L30700N-47900E 0.34 <0.005 < < <0.5 < < L30700N-47950E 0.42 <0.005 < <2 < < <

211 Page: 3 - B Finalized Date: 24-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L30700N-47150E 10 < <1 < <0.01 < L30700N-47200E 10 < < <1 < < L30700N-47250E < < < L30700N-47300E 10 < <1 < < L30700N-47350E <1 < <0.01 < L30700N-47400E <1 < <0.01 < L30700N-47450E <0.01 < L30700N-47500E <1 < <0.01 < L30700N-47550E 10 < < <1 < < L30700N-47600E <10 < <1 < <0.01 < L30700N-47650E < < <1 < < L30700N-47700E < <0.01 < L30700N-47750E < < <0.01 < L30700N-47800E < < < <0.01 < L30700N-47850E 10 < <0.01 < L30700N-47900E < <0.01 < L30700N-47950E < <2 3 66

212 Page: 3 - C Finalized Date: 24-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L30700N-47150E < <10 <10 78 <10 46 L30700N-47200E < <10 <10 59 <10 42 L30700N-47250E < <10 <10 74 <10 52 L30700N-47300E < <10 <10 65 <10 46 L30700N-47350E < <10 <10 71 <10 78 L30700N-47400E < <10 <10 61 <10 97 L30700N-47450E < <10 <10 79 <10 49 L30700N-47500E < <10 <10 79 <10 63 L30700N-47550E < <10 <10 67 <10 74 L30700N-47600E < <10 <10 64 <10 59 L30700N-47650E < <10 <10 74 <10 58 L30700N-47700E < <10 <10 60 <10 80 L30700N-47750E < <10 <10 53 <10 70 L30700N-47800E < <10 <10 55 <10 97 L30700N-47850E < <10 <10 53 <10 62 L30700N-47900E < <10 <10 58 <10 43 L30700N-47950E < <10 <10 53 <10 79

213 Page: 1 Finalized Date: 3-NOV-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 57 Soil samples submitted to our lab in Vancouver, BC, Canada on 10-OCT The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

214 Page: 2 - A Finalized Date: 3-NOV-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L30500N-45150E < < < < L30500N-45200E 0.42 <0.005 < < < L30500N-45250E < < < < L30500N-45300E < < < < L30500N-45350E < < < < L30500N-45400E < < < < L30500N-45450E < < < < L30500N-45500E 0.38 <0.005 < < < < L30500N-45550E < <2 < <0.5 < < L30500N-45600E 0.34 <0.005 < < <0.5 < < L30500N-45650E 0.30 <0.005 < < <0.5 < < L30500N-45700E 0.38 <0.005 < < <0.5 < < L30500N-45750E < < <0.5 < < L30500N-45800E 0.40 <0.005 < <2 < <0.5 < L30500N-45850E < < <0.5 < < L30500N-45900E 0.36 <0.005 < < < < L30500N-45950E 0.38 <0.005 < < <0.5 < < L30500N-46000E 0.44 <0.005 < < <0.5 < < L30500N-46050E 0.48 <0.005 < < < < L30500N-46100E < < < L30500N-46150E 0.40 <0.005 < < < < L30500N-46200E 0.40 <0.005 < < < < L30500N-46250E 0.44 <0.005 < < < < L30500N-46300E 0.44 <0.005 < < <0.5 < < L30500N-46350E 0.38 <0.005 < < <0.5 < < L30500N-46400E < < <0.5 < < L30500N-46450E 0.40 <0.005 < < <0.5 < < L30500N-46500E 0.40 <0.005 < < < < L30500N-46550E < < <0.5 < < L30500N-46600E < < < L30500N-46650E < < < < L30500N-46700E 0.38 <0.005 < <10 90 < < L30500N-46750E 0.40 <0.005 < < <0.5 < < L30500N-46800E 0.40 <0.005 < < < < L30500N-46850E 0.42 <0.005 < <10 70 <0.5 < < L30500N-46900E < < <0.5 < < L30500N-46950E 0.40 <0.005 < < <0.5 < < L30500N-47000E 0.44 <0.005 < < <0.5 < < L30500N-47050E 0.42 <0.005 < < <0.5 < < L30500N-47100E 0.52 <0.005 < < <0.5 < <

215 Page: 2 - B Finalized Date: 3-NOV-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L30500N-45150E 10 < < < L30500N-45200E 10 < < < L30500N-45250E 10 < < L30500N-45300E 10 < < L30500N-45350E 10 < < L30500N-45400E 10 < < L30500N-45450E 10 < < L30500N-45500E 10 < < < L30500N-45550E 10 < < L30500N-45600E <10 < < < <0.01 < L30500N-45650E 10 < < L30500N-45700E 10 < < < L30500N-45750E 10 < < <1 < < L30500N-45800E 10 < < < L30500N-45850E 10 < < < < L30500N-45900E 10 < < < < L30500N-45950E <10 < < < <0.01 < L30500N-46000E 10 < < < <0.01 < L30500N-46050E 10 < < < L30500N-46100E 10 < <1 < < L30500N-46150E 10 < < < L30500N-46200E 10 < < < L30500N-46250E 10 < < < L30500N-46300E 10 < < < <0.01 < L30500N-46350E 10 < < <1 < < L30500N-46400E 10 < < < L30500N-46450E < < <0.01 < L30500N-46500E <10 < < < <0.01 < L30500N-46550E < L30500N-46600E < L30500N-46650E 10 < < L30500N-46700E < < < L30500N-46750E < < < L30500N-46800E < < < < L30500N-46850E < < < <0.01 < L30500N-46900E <10 < < <0.01 < L30500N-46950E 10 < < < <0.01 < L30500N-47000E 10 < < < <0.01 < L30500N-47050E 10 < < < < L30500N-47100E 10 < <

216 Page: 2 - C Finalized Date: 3-NOV-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L30500N-45150E < <10 <10 91 <10 63 L30500N-45200E < <10 <10 65 <10 86 L30500N-45250E < <10 <10 46 <10 64 L30500N-45300E < <10 <10 69 <10 66 L30500N-45350E < <10 <10 60 <10 54 L30500N-45400E < <10 <10 77 <10 63 L30500N-45450E < <10 <10 67 <10 56 L30500N-45500E < <10 <10 75 <10 73 L30500N-45550E < <10 <10 71 <10 42 L30500N-45600E < <10 <10 56 <10 40 L30500N-45650E < <10 <10 71 <10 45 L30500N-45700E < <10 <10 64 <10 57 L30500N-45750E < <10 <10 73 <10 56 L30500N-45800E < <10 <10 55 < L30500N-45850E < <10 < <10 59 L30500N-45900E < <10 <10 50 <10 76 L30500N-45950E < <10 <10 53 <10 66 L30500N-46000E < <10 <10 87 <10 63 L30500N-46050E < <10 < <10 95 L30500N-46100E < <10 < <10 86 L30500N-46150E < <10 <10 71 <10 72 L30500N-46200E < <10 <10 74 <10 77 L30500N-46250E < <10 <10 70 <10 64 L30500N-46300E < <10 <10 74 <10 52 L30500N-46350E < <10 <10 76 <10 60 L30500N-46400E < <10 <10 72 <10 73 L30500N-46450E < <10 <10 61 <10 52 L30500N-46500E < <10 <10 55 <10 53 L30500N-46550E < <10 <10 72 <10 46 L30500N-46600E < <10 <10 80 <10 60 L30500N-46650E < <10 <10 90 <10 60 L30500N-46700E < <10 <10 80 <10 45 L30500N-46750E < <10 <10 65 <10 50 L30500N-46800E < <10 <10 60 <10 47 L30500N-46850E < <10 <10 84 <10 40 L30500N-46900E < <10 <10 76 <10 65 L30500N-46950E < <10 <10 69 <10 64 L30500N-47000E < <10 <10 71 <10 81 L30500N-47050E < <10 <10 77 <10 63 L30500N-47100E < <10 <10 81 <10 56

217 Page: 3 - A Finalized Date: 3-NOV-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L30500N-47150E 0.40 <0.005 < <10 90 <0.5 < < L30500N-47200E 0.48 <0.005 < <10 90 <0.5 < < L30500N-47250E 0.36 <0.005 < < <0.5 < < L30500N-47300E 0.44 <0.005 < < <0.5 < < L30500N-47350E 0.34 <0.005 < < <0.5 < < L30500N-47400E 0.42 <0.005 < < <0.5 < < L30500N-47450E < < <0.5 < < L30500N-47500E 0.54 <0.005 < < <0.5 < < L30500N-47550E 0.36 < < <0.5 < < L30500N-47600E 0.44 <0.005 < < <0.5 < < L30500N-47650E 0.40 <0.005 < < <0.5 < < L30500N-47700E 0.44 < < <0.5 < L30500N-47750E 0.38 <0.005 < < < < L30500N-47800E 0.40 <0.005 < < <0.5 < < L30500N-47850E 0.44 <0.005 < < <0.5 < < L30500N-47900E 0.46 <0.005 < < < < L30500N-47950E 0.32 <0.005 < <10 80 <0.5 < <

218 Page: 3 - B Finalized Date: 3-NOV-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L30500N-47150E 10 < < <0.01 < L30500N-47200E 10 < < < <0.01 < L30500N-47250E 10 < < < < L30500N-47300E 10 < < < L30500N-47350E 10 < < < L30500N-47400E 10 < < < <0.01 < L30500N-47450E 10 < < <0.01 < L30500N-47500E 10 < < L30500N-47550E <10 < < L30500N-47600E 10 < < < L30500N-47650E 10 < < < <0.01 < L30500N-47700E 10 < < L30500N-47750E 10 < < < L30500N-47800E <10 < < < < L30500N-47850E 10 < < < < L30500N-47900E 10 < < < L30500N-47950E 10 < < < <

219 Page: 3 - C Finalized Date: 3-NOV-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L30500N-47150E < <10 <10 75 <10 54 L30500N-47200E < <10 <10 53 <10 65 L30500N-47250E < <10 <10 50 <10 47 L30500N-47300E < <10 <10 69 <10 67 L30500N-47350E < <10 <10 78 <10 48 L30500N-47400E < <10 <10 61 <10 61 L30500N-47450E < <10 <10 95 <10 53 L30500N-47500E < <10 <10 91 <10 55 L30500N-47550E < < <10 28 L30500N-47600E < <10 <10 80 <10 70 L30500N-47650E < <10 <10 63 <10 50 L30500N-47700E < <10 <10 59 < L30500N-47750E < <10 <10 80 <10 66 L30500N-47800E < <10 <10 54 < L30500N-47850E < <10 <10 64 <10 46 L30500N-47900E < <10 <10 58 <10 79 L30500N-47950E < <10 <10 38 <10 44

220 Page: 1 Finalized Date: 27-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 57 Soil samples submitted to our lab in Vancouver, BC, Canada on 10-OCT The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

221 Page: 2 - A Finalized Date: 27-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L31100N-45150E 0.36 < < <0.5 < < L31100N-45200E 0.42 <0.005 < < <0.5 < < L31100N-45250E 0.46 <0.005 < < < < L31100N-45300E 0.42 < < < < L31100N-45350E 0.40 <0.005 < < <0.5 < < L31100N-45400E 0.42 <0.005 < <2 < < < L31100N-45450E 0.42 <0.005 < < < < L31100N-45500E 0.42 <0.005 < < <0.5 < < L31100N-45550E 0.50 <0.005 < < <0.5 < < L31100N-45600E 0.44 <0.005 < < < < L31100N-45650E 0.36 < < < < L31100N-45700E < <0.5 < < L31100N-45750E 0.38 <0.005 < <2 <10 90 <0.5 < < L31100N-45800E 0.44 <0.005 < <2 < <0.5 < < L31100N-45850E 0.38 <0.005 < < <0.5 < < L31100N-45900E 0.42 <0.005 < < <0.5 < < L31100N-45950E 0.46 <0.005 < <2 < <0.5 < < L31100N-46000E 0.46 < <2 < <0.5 < < L31100N-46050E 0.36 <0.005 < < <0.5 < < L31100N-46100E 0.48 <0.005 < < <0.5 < < L31100N-46150E 0.42 <0.005 < <2 < <0.5 < L31100N-46200E < < <0.5 < L31100N-46250E < < <0.5 < < L31100N-46300E 0.50 <0.005 < <2 < <0.5 < < L31100N-46350E 0.50 <0.005 < < <0.5 < < L31100N-46400E 0.50 <0.005 < <2 < <0.5 < < L31100N-46450E 0.36 < < <0.5 < < L31100N-46500E 0.40 < < <0.5 < < L31100N-46550E 0.46 <0.005 < <10 90 <0.5 < < L31100N-46600E 0.48 < < <0.5 < < L31100N-46650E 0.26 <0.005 < < < < L31100N-46700E 0.50 <0.005 < < <0.5 < < L31100N-46750E 0.44 <0.005 < <2 <10 80 <0.5 < < L31100N-46800E 0.52 < < <0.5 < < L31100N-46850E 0.52 <0.005 < < <0.5 < < L31100N-46900E 0.46 <0.005 < <10 80 <0.5 < < L31100N-46950E < <2 < <0.5 < < L31100N-47000E 0.56 <0.005 < <10 90 <0.5 < < L31100N-47050E 0.44 <0.005 < <2 <10 90 <0.5 < < L31100N-47100E < < <0.5 < <

222 Page: 2 - B Finalized Date: 27-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L31100N-45150E <10 < < <0.01 < L31100N-45200E <10 < <0.01 < L31100N-45250E 10 < < L31100N-45300E <10 < <0.01 < L31100N-45350E <10 < < L31100N-45400E 10 < L31100N-45450E 10 < <0.01 < L31100N-45500E 10 < < L31100N-45550E 10 < < <0.01 < L31100N-45600E 10 < < L31100N-45650E 10 < < L31100N-45700E <10 < < L31100N-45750E 10 < < <0.01 < L31100N-45800E 10 < < <0.01 < L31100N-45850E <10 < <0.01 < L31100N-45900E < L31100N-45950E <10 < < < < L31100N-46000E < < <0.01 < L31100N-46050E <10 < < < < L31100N-46100E 10 < < < L31100N-46150E < < <0.01 < L31100N-46200E < L31100N-46250E 10 < < < <0.01 < L31100N-46300E 10 < < <0.01 < L31100N-46350E 10 < < < <0.01 < L31100N-46400E < < < <0.01 < L31100N-46450E 10 < < < <0.01 < L31100N-46500E < < <0.01 < L31100N-46550E 10 < < < <0.01 < L31100N-46600E < < <0.01 < L31100N-46650E < <0.01 < L31100N-46700E 10 < < < <0.01 < L31100N-46750E 10 < < < <0.01 < L31100N-46800E 10 < < < <0.01 < L31100N-46850E 10 < < < <0.01 < L31100N-46900E < < <0.01 < L31100N-46950E < < < <0.01 < L31100N-47000E 10 < < < <0.01 < L31100N-47050E 10 < < < <0.01 < L31100N-47100E < < <0.01 <2 4 34

223 Page: 2 - C Finalized Date: 27-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L31100N-45150E < <10 <10 49 <10 29 L31100N-45200E < <10 <10 52 <10 32 L31100N-45250E < <10 <10 53 <10 43 L31100N-45300E < <10 <10 58 <10 33 L31100N-45350E < <10 <10 53 <10 30 L31100N-45400E < < <10 37 L31100N-45450E < < <10 44 L31100N-45500E < <10 <10 56 <10 37 L31100N-45550E < <10 <10 71 <10 43 L31100N-45600E < <10 <10 65 <10 38 L31100N-45650E < < <10 43 L31100N-45700E < < <10 11 L31100N-45750E < <10 <10 48 <10 45 L31100N-45800E < <10 <10 49 <10 50 L31100N-45850E < <10 <10 52 <10 59 L31100N-45900E < <10 <10 69 <10 70 L31100N-45950E < <10 <10 50 <10 55 L31100N-46000E < <10 <10 55 <10 61 L31100N-46050E < <10 <10 49 <10 71 L31100N-46100E < <10 <10 50 <10 74 L31100N-46150E < <10 <10 35 <10 88 L31100N-46200E < <10 <10 54 < L31100N-46250E < <10 <10 54 <10 53 L31100N-46300E < <10 <10 51 <10 42 L31100N-46350E < <10 <10 57 <10 61 L31100N-46400E < <10 <10 51 <10 60 L31100N-46450E < <10 <10 37 <10 63 L31100N-46500E < <10 <10 51 <10 55 L31100N-46550E < <10 <10 48 <10 43 L31100N-46600E < <10 <10 72 <10 52 L31100N-46650E < <10 <10 38 <10 37 L31100N-46700E < <10 <10 64 <10 68 L31100N-46750E < <10 <10 59 <10 44 L31100N-46800E < <10 <10 60 <10 63 L31100N-46850E < <10 <10 72 <10 47 L31100N-46900E < <10 <10 98 <10 46 L31100N-46950E < <10 <10 70 <10 72 L31100N-47000E < <10 < <10 48 L31100N-47050E < <10 <10 70 <10 47 L31100N-47100E < <10 <10 81 <10 58

224 Page: 3 - A Finalized Date: 27-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L31100N-47150E 0.36 <0.005 < < < < L31100N-47200E 0.44 <0.005 < < <0.5 < < L31100N-47250E 0.44 <0.005 < < < < L31100N-47300E 0.40 <0.005 < < <0.5 < < L31100N-47350E 0.44 <0.005 < < <0.5 < < L31100N-47400E 0.42 < < <0.5 < < L31100N-47450E 0.38 <0.005 < < < < L31100N-47500E 0.44 <0.005 < < < < L31100N-47550E 0.40 <0.005 < < <0.5 < < L31100N-47600E 0.42 < < < < L31100N-47650E 0.40 < <2 < <0.5 < < L31100N-47700E 0.42 <0.005 < < <0.5 < < L31100N-47750E 0.40 <0.005 < < < < L31100N-47800E 0.44 <0.005 < < < < L31100N-47850E 0.40 <0.005 < < < < L31100N-47900E 0.42 <0.005 < < < < L31100N-47950E < < < <

225 Page: 3 - B Finalized Date: 27-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L31100N-47150E < < L31100N-47200E 10 < < < L31100N-47250E < L31100N-47300E < < <0.01 < L31100N-47350E <10 < < <0.01 < L31100N-47400E <10 < < < L31100N-47450E 10 < < L31100N-47500E < < L31100N-47550E < < L31100N-47600E < < L31100N-47650E <10 < < < L31100N-47700E <10 < < < < L31100N-47750E 10 < < L31100N-47800E 10 < < L31100N-47850E 10 < < L31100N-47900E 10 < < L31100N-47950E 10 < <2 4 68

226 Page: 3 - C Finalized Date: 27-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L31100N-47150E < <10 <10 59 < L31100N-47200E < <10 <10 88 <10 48 L31100N-47250E < <10 <10 69 <10 65 L31100N-47300E < <10 <10 66 <10 65 L31100N-47350E < <10 <10 66 <10 63 L31100N-47400E < <10 <10 56 < L31100N-47450E < <10 <10 60 <10 49 L31100N-47500E < <10 <10 64 <10 60 L31100N-47550E < <10 <10 59 < L31100N-47600E < <10 <10 58 <10 57 L31100N-47650E < <10 <10 63 <10 59 L31100N-47700E < <10 <10 52 < L31100N-47750E < <10 <10 57 <10 99 L31100N-47800E < <10 <10 64 <10 69 L31100N-47850E < <10 <10 59 <10 93 L31100N-47900E < <10 <10 57 <10 95 L31100N-47950E < <10 <10 59 <10 75

227 Page: 1 Finalized Date: 25-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 57 Soil samples submitted to our lab in Vancouver, BC, Canada on 10-OCT The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode SCR-41 Screen to -180um and save both ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Au-AA23 Au 30g FA-AA finish AAS ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

228 Page: 2 - A Finalized Date: 25-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L31300N-45150E < < < < L31300N-45200E 0.48 <0.005 < <2 < <0.5 < < L31300N-45250E 0.16 <0.005 < < <0.5 < < L31300N-45300E < < <0.5 < < L31300N-45350E 0.46 <0.005 < < < < L31300N-45400E 0.46 <0.005 < < <0.5 < < L31300N-45450E 0.48 <0.005 < < <0.5 < < L31300N-45500E 0.52 <0.005 < < <0.5 < < L31300N-45550E < <0.5 < < L31300N-45600E < < <0.5 < < L31300N-45650E 0.58 <0.005 < <2 < < < L31300N-45700E 0.48 <0.005 < < <0.5 < < L31300N-45750E 0.48 <0.005 < < <0.5 < < L31300N-45800E < < <0.5 < < L31300N-45850E 0.52 <0.005 < < < < L31300N-45900E 0.56 <0.005 < < <0.5 < < L31300N-45950E 0.42 <0.005 < < <0.5 < < L31300N-46000E 0.44 <0.005 < <2 < < < L31300N-46050E 0.34 <0.005 < < < < L31300N-46100E 0.40 <0.005 < < <0.5 < < L31300N-46150E 0.42 <0.005 < < <0.5 < < L31300N-46200E 0.38 <0.005 < < <0.5 < < L31300N-46250E 0.42 <0.005 < < <0.5 < < L31300N-46300E 0.38 <0.005 < <2 < <0.5 < < L31300N-46350E 0.44 <0.005 < < <0.5 < < L31300N-46400E 0.42 <0.005 < <2 < <0.5 < < L31300N-46450E 0.44 <0.005 < < <0.5 < < L31300N-46500E 0.48 <0.005 < < <0.5 < < L31300N-46550E 0.36 <0.005 < < < < L31300N-46600E 0.48 <0.005 < < <0.5 < < L31300N-46650E 0.38 < < <0.5 < < L31300N-46700E 0.50 <0.005 < < <0.5 < < L31300N-46750E 0.42 <0.005 < < < < L31300N-46800E 0.44 <0.005 < < <0.5 < < L31300N-46850E 0.40 <0.005 < < <0.5 < < L31300N-46900E 0.46 <0.005 < < <0.5 < < L31300N-46950E 0.38 <0.005 < < <0.5 < < L31300N-47000E 0.42 <0.005 < < <0.5 < < L31300N-47050E < < <0.5 < < L31300N-47100E 0.38 <0.005 < <10 90 <0.5 < <

229 Page: 2 - B Finalized Date: 25-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L31300N-45150E < < <0.01 < L31300N-45200E < L31300N-45250E < < L31300N-45300E 10 < < < L31300N-45350E 10 < < < L31300N-45400E < <0.01 < L31300N-45450E < L31300N-45500E < < L31300N-45550E 10 < < < L31300N-45600E < < L31300N-45650E 10 < < L31300N-45700E 10 < < < L31300N-45750E 10 < < L31300N-45800E 10 < < < L31300N-45850E 10 < < L31300N-45900E 10 < < L31300N-45950E 10 < < L31300N-46000E 10 < < L31300N-46050E 10 < L31300N-46100E 10 < < L31300N-46150E 10 < < L31300N-46200E <10 < L31300N-46250E 10 < < L31300N-46300E 10 < < < L31300N-46350E <10 < < L31300N-46400E <10 < L31300N-46450E 10 < < L31300N-46500E <10 < < L31300N-46550E <10 < L31300N-46600E <10 < < L31300N-46650E < L31300N-46700E 10 < L31300N-46750E <10 < < L31300N-46800E 10 < < L31300N-46850E 10 < < L31300N-46900E <10 < < L31300N-46950E 10 < < < L31300N-47000E 10 < < < L31300N-47050E 10 < < L31300N-47100E 10 < <

230 Page: 2 - C Finalized Date: 25-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L31300N-45150E < <10 <10 53 <10 38 L31300N-45200E < <10 <10 53 <10 38 L31300N-45250E < <10 <10 56 <10 49 L31300N-45300E < <10 <10 52 <10 78 L31300N-45350E < <10 <10 60 <10 49 L31300N-45400E < <10 <10 55 <10 62 L31300N-45450E < <10 <10 66 <10 55 L31300N-45500E < <10 <10 52 <10 80 L31300N-45550E < <10 <10 64 <10 46 L31300N-45600E < <10 <10 57 <10 45 L31300N-45650E < <10 <10 70 <10 65 L31300N-45700E < <10 <10 62 <10 54 L31300N-45750E < <10 <10 62 <10 52 L31300N-45800E < <10 <10 60 <10 50 L31300N-45850E < <10 <10 57 <10 57 L31300N-45900E < <10 <10 64 <10 53 L31300N-45950E < <10 <10 55 <10 53 L31300N-46000E < <10 <10 61 <10 66 L31300N-46050E < <10 <10 61 <10 59 L31300N-46100E < <10 <10 60 <10 47 L31300N-46150E < <10 <10 60 <10 55 L31300N-46200E < <10 <10 62 <10 60 L31300N-46250E < <10 <10 62 <10 58 L31300N-46300E < <10 <10 54 <10 29 L31300N-46350E < <10 <10 74 <10 33 L31300N-46400E < <10 <10 64 <10 38 L31300N-46450E < <10 <10 53 <10 55 L31300N-46500E < <10 <10 75 <10 57 L31300N-46550E < <10 <10 61 <10 60 L31300N-46600E < <10 <10 82 <10 48 L31300N-46650E < < <10 31 L31300N-46700E < <10 <10 82 <10 77 L31300N-46750E < <10 <10 62 <10 58 L31300N-46800E < <10 <10 65 <10 91 L31300N-46850E < <10 <10 73 <10 43 L31300N-46900E < <10 <10 68 <10 53 L31300N-46950E < <10 <10 53 <10 94 L31300N-47000E < <10 <10 66 <10 50 L31300N-47050E < <10 <10 83 <10 59 L31300N-47100E < <10 < <10 55

231 Page: 3 - A Finalized Date: 25-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % L31300N-47150E 0.46 <0.005 < < < < L31300N-47200E 0.36 <0.005 < <10 90 <0.5 < < L31300N-47250E 0.44 <0.005 < < < < L31300N-47300E 0.44 <0.005 < < < < L31300N-47350E 0.46 <0.005 < < < < L31300N-47400E < < <0.5 < < L31300N-47450E 0.40 <0.005 < < <0.5 < < L31300N-47500E < < < < L31300N-47550E 0.40 <0.005 < < < < L31300N-47600E 0.42 <0.005 < < < < L31300N-47650E 0.34 <0.005 < <2 < < < L31300N-47700E 0.38 <0.005 < < < < L31300N-47750E 0.36 <0.005 < < < < L31300N-47800E 0.40 <0.005 < < < L31300N-47850E 0.40 <0.005 < < < < L31300N-47900E 0.36 <0.005 < < < < L31300N-47950E 0.48 <0.005 < < < <

232 Page: 3 - B Finalized Date: 25-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm L31300N-47150E 10 < L31300N-47200E <10 < < < L31300N-47250E <10 < L31300N-47300E 10 < < L31300N-47350E 10 < L31300N-47400E 10 < < L31300N-47450E 10 < L31300N-47500E 10 < L31300N-47550E 10 < L31300N-47600E 10 < L31300N-47650E < L31300N-47700E 10 < L31300N-47750E 10 < < L31300N-47800E 10 < L31300N-47850E 10 < L31300N-47900E 10 < < L31300N-47950E 10 <

233 Page: 3 - C Finalized Date: 25-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm L31300N-47150E < <10 <10 74 <10 77 L31300N-47200E < <10 <10 67 <10 39 L31300N-47250E < <10 <10 69 <10 55 L31300N-47300E < <10 <10 76 <10 59 L31300N-47350E < <10 <10 67 <10 77 L31300N-47400E < <10 <10 76 <10 70 L31300N-47450E < <10 <10 66 <10 79 L31300N-47500E < <10 <10 75 <10 67 L31300N-47550E < <10 <10 76 <10 54 L31300N-47600E < <10 <10 80 < L31300N-47650E < <10 <10 65 <10 76 L31300N-47700E < <10 <10 60 <10 59 L31300N-47750E < <10 <10 65 <10 73 L31300N-47800E < <10 <10 65 <10 95 L31300N-47850E < <10 <10 71 <10 56 L31300N-47900E < <10 <10 66 <10 95 L31300N-47950E < <10 <10 44 <10 99

234 Appendix E: Rock Certificates

235 Page: 1 Finalized Date: 10-OCT-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 6 Rock samples submitted to our lab in Vancouver, BC, Canada on 23-SEP The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight LOG-22 Sample login - Rcd w/o BarCode CRU-31 Fine crushing - 70% <2mm SPL-21 Split sample - riffle splitter PUL-31 Pulverize split to 85% <75 um ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES Au-AA23 Au 30g FA-AA finish AAS To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

236 Page: 2 - A Total # Pages: 2 (A - C) Finalized Date: 10-OCT-2008 VA WEI-21 Au-AA23 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe kg ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % <10 30 <0.5 < < < <10 60 <0.5 < < <10 20 <0.5 < < <10 60 <0.5 < <10 20 <0.5 < < <10 30 <0.5 <

237 Page: 2 - B Total # Pages: 2 (A - C) Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm <10 < < < < < < < <10 < < < < < < < < < < < < < < <2 2 41

238 Page: 2 - C Total # Pages: 2 (A - C) Finalized Date: 10-OCT-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Th Ti Tl U V W Zn ppm % ppm ppm ppm ppm ppm < <10 <10 34 < < <10 <10 26 < < <10 <10 17 < < <10 <10 76 < <20 <0.01 <10 <10 2 < < <10 <10 57 <10 63

239 Page: 1 Finalized Date: 5-NOV-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 55 Rock samples submitted to our lab in Vancouver, BC, Canada on 20-OCT The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION WEI-21 Received Sample Weight CRU-QC Crushing QC Test PUL-31 Pulverize split to 85% <75 um SPL-21 Split sample - riffle splitter CRU-31 Fine crushing - 70% <2mm LOG-22 Sample login - Rcd w/o BarCode ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT ME-ICP41 35 Element Aqua Regia ICP-AES ICP-AES Au-AA23 Au 30g FA-AA finish AAS Au-GRA21 Au 30g FA-GRAV finish WST-SIM To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

240 Page: 2 - A Finalized Date: 5-NOV-2008 VA WEI-21 Au-AA23 Au-GRA21 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu kg ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm G < < <0.5 < < G < <2 <10 10 <0.5 < < G < <2 <10 10 <0.5 < < G <2 <10 30 <0.5 < G <0.005 < < <0.5 < < G <0.005 < <10 40 <0.5 < < G <10 60 < < G < <2 <10 20 <0.5 < < G < <10 40 <0.5 < < G > > <10 <10 < G <10 20 <0.5 < < G <10 10 < < G < <10 70 <0.5 < < G < <10 30 <0.5 < < G < <2 <10 10 <0.5 < < <1 G < <2 <10 10 <0.5 < <0.5 < G < <10 <10 <0.5 < <0.5 < G <2 <10 30 < < G > <10 20 < < G <10 10 < < G > <10 30 < < G < < G <10 10 <0.5 < < G <10 20 < < G < <2 <10 20 <0.5 < < G <10 30 < < G <10 10 <0.5 < < G <10 20 < < G < <10 10 <0.5 < <0.5 < G <0.005 < <2 <10 <10 < < G <10 10 < G < <10 20 <0.5 < < G <2 <10 <10 <0.5 < <0.5 < G <10 10 < G < <10 20 <0.5 < < G <10 30 < G < <10 60 <0.5 < < G < <10 30 <0.5 < <0.5 < G < <10 50 <0.5 < G <10 10 < <

241 Page: 2 - B Finalized Date: 5-NOV-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm G < < < <2 5 G <10 < < < <0.01 <2 <1 G <10 < < < < <2 <1 G <10 < < <2 2 G < < < < <2 9 G <10 < < <2 1 G < < < <2 <1 G <10 < < < <2 1 G <10 < < < <2 1 G <10 7 <0.01 < < <1 G <10 < < <2 2 G <10 < < < < <2 1 G <10 < < <0.01 <2 1 G <10 < < <2 1 G <10 < < < <2 <1 G <10 < <10 < < <2 <0.01 <2 <1 G <10 < <10 < < <2 <0.01 <2 <1 G <10 < < < <2 <1 G <10 < < < <2 <1 G <10 < < < <2 <1 G < <10 < <1 G < < <2 1 G <10 < < < <2 <1 G <10 < < <2 1 G <10 < < <2 1 G <10 < < <2 2 G <10 < < < <2 1 G < < <2 4 G <10 < <10 < < <2 <0.01 <2 <1 G <10 < < < <2 <1 G <10 < < < <2 <1 G <10 < < <2 2 G <10 < < < <2 <1 G < < < <1 G <10 < < <2 <1 G <10 < < < <2 1 G <10 < < G <10 < < <2 3 G <10 < < < G <10 < < < <1

242 Page: 2 - C Finalized Date: 5-NOV-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Sr Th Ti Tl U V W Zn ppm ppm % ppm ppm ppm ppm ppm G < <10 < <10 30 G <20 <0.01 <10 <10 5 <10 20 G <20 <0.01 <10 <10 2 <10 2 G <20 <0.01 <10 <10 2 < G < <10 < <10 70 G <20 <0.01 <10 <10 5 <10 3 G <20 <0.01 <10 <10 2 <10 10 G <20 <0.01 <10 <10 2 <10 5 G <20 <0.01 <10 <10 4 <10 17 G <20 <0.01 <10 <10 1 < G <20 <0.01 <10 <10 2 <10 23 G <20 <0.01 <10 <10 3 <10 2 G <20 <0.01 <10 <10 1 <10 12 G <20 <0.01 <10 <10 1 <10 20 G <20 <0.01 <10 <10 1 <10 4 G <20 <0.01 <10 <10 2 <10 2 G <20 <0.01 <10 <10 1 <10 2 G <20 <0.01 <10 <10 2 < G <20 <0.01 <10 <10 2 < G <20 <0.01 <10 <10 4 < G <20 <0.01 <10 <10 2 < G <20 <0.01 <10 <10 2 < G <20 <0.01 <10 <10 2 <10 81 G <20 <0.01 <10 <10 5 <10 18 G <20 <0.01 <10 <10 7 <10 5 G <20 <0.01 <10 <10 14 <10 11 G <20 <0.01 <10 <10 3 <10 5 G < <10 <10 34 <10 10 G <20 <0.01 <10 <10 4 <10 <2 G <20 <0.01 <10 <10 2 <10 12 G <20 <0.01 <10 <10 4 < G <20 <0.01 <10 <10 4 <10 27 G <20 <0.01 <10 <10 1 <10 16 G <20 <0.01 <10 <10 3 < G <20 <0.01 <10 <10 1 <10 3 G <20 <0.01 <10 <10 7 <10 12 G <20 <0.01 <10 <10 4 <10 8 G <20 <0.01 <10 <10 <1 <10 <2 G <20 <0.01 < <10 20 G <20 <0.01 <10 <10 2 <10 29

243 Page: 3 - A Finalized Date: 5-NOV-2008 VA WEI-21 Au-AA23 Au-GRA21 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Recvd Wt. Au Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu kg ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm G <10 40 <0.5 < < G <2 <10 10 <0.5 < < G <10 10 <0.5 < <0.5 < G <10 20 <0.5 < G <0.005 < <2 <10 10 <0.5 < < G < <10 20 <0.5 < < G <10 10 <0.5 < < G <10 20 <0.5 < < G <10 20 <0.5 < < G < <10 10 <0.5 < <0.5 < G <10 20 < G < <2 <10 40 <0.5 < < G <2 <10 20 <0.5 < < G <10 50 <0.5 < < G <10 30 < <

244 Page: 3 - B Finalized Date: 5-NOV-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm G <10 < < <2 3 G <10 < < < <0.01 <2 <1 G <10 < < <0.01 <2 <1 G <10 <1 <0.01 < G <10 < < <0.01 <2 2 G <10 < < G <10 < < G <10 < < <2 1 G <10 < < G <10 <1 <0.01 <10 < < < <1 G <10 < < G <10 < < <2 5 G <10 < < G <10 < < G <10 < <

245 Page: 3 - C Finalized Date: 5-NOV-2008 VA ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 ME-ICP41 Sr Th Ti Tl U V W Zn ppm ppm % ppm ppm ppm ppm ppm G <20 <0.01 <10 <10 4 <10 24 G <20 <0.01 <10 <10 12 <10 <2 G <20 <0.01 <10 <10 9 <10 <2 G <20 <0.01 <10 <10 17 < G < <10 <10 17 <10 20 G <20 <0.01 <10 <10 21 <10 31 G < <10 <10 51 <10 32 G <20 <0.01 <10 <10 6 <10 6 G <20 <0.01 <10 <10 10 <10 5 G <20 <0.01 <10 <10 1 <10 <2 G <20 <0.01 <10 <10 14 < G < <10 <10 96 <10 11 G <20 <0.01 <10 <10 7 <10 14 G <20 <0.01 < <10 66 G <20 <0.01 <10 <10 6 <10 38

246 Page: 1 Finalized Date: 16-NOV-2008 This copy reported on 20-FEB-2009 CERTIFICATE VA P.O. No.: This report is for 3 Rock samples submitted to our lab in Vancouver, BC, Canada on 12-NOV The following have access to data associated with this certificate: ROB DUNCAN WES HODSON SAMPLE PREPARATION ALS CODE DESCRIPTION FND-02 Find Sample for Addn Analysis ANALYTICAL PROCEDURES ALS CODE DESCRIPTION INSTRUMENT Ag-GRA21 Ag 30g FA-GRAV finish WST-SIM To: RIMFIRE MINERALS CORPORATION ATTN: ALS CHEMEX This is the Final Report and supersedes any preliminary report with this certificate number. Results apply to samples as submitted. All pages of this report have been checked and approved for release. Signature: Colin Ramshaw, Vancouver Laboratory Manager

247 Page: 2 - A Total # Pages: 2 (A) Finalized Date: 16-NOV-2008 VA Ag-GRA21 Ag ppm 5 G G G