Impact of physical factors on growth and sporulation of saprophytic pathogenic fungi

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Impact of physical factors on growth and sporulation of saprophytic pathogenic fungi *Borude Devika **Sumia Fatima and *Sonawane B. N. * Research student of Dr. Babasaheb Ambedkar University, Aurangabad. ** Dr Rafiq Zakaria College for women Navkhanda Jubilee Park, Aurangabad *** Shri Dnyaneshwar Mahavidayalya, Newasa, Dist. Ahmednagar (M. S.) Abstract: The physical factors like temperature and ph having impact on growth and sporulation of saprophytic pathogenic fungi. It is well known that groups of fungi have ph optimum, minimum and maximum for fungal growth. Depletion of physical factors directly impact on growth and sporulation of fungi lowering and high temperature fungal growth will be retarded but at optimum temperature stimulating fungal growth and sporulation. Temperatures from 25 0 C to 30 0 C were most favorable for the growth of pathogen. The highest growth of Alternaria porri, Aspergillus niger, Aspergillus flavus, Fusarium oxysporum, Colletotrichum circinans,and Penicillium corymbiferum was recorded at 30 0 C. Optimum ph 6.5 to 7.5 sporulation was good seen in Alternaria porri, Aspergillus niger, Aspergillus flavus, Fusarium oxysporum, Colletotrichum circinans,and Penicillium corymbiferum. The ph ranges 5 to 8 were found suitable to the growth of all the pathogenic fungi. Key words: physical factors temperature and ph, pathogenic fungal spores, PDA media. Introduction: The physical factors having impact on growth and sporulation of pathogenic fungi. Reduction of physical factors directly impact on growth and sporulation of fungi lowering and high temperature fungal growth will be retarded but at optimum temperature stimulating fungal growth and sporulation. Similar results have been reported by several workers Rangaswami and Sambandam (1961) suggested the temperature for incubation of fungus Alternaria alternata at 29 0 C. Saad and Hagedorn (1969) observed that the growth of the pathogen in pure culture occurred over a temperature range of 4 to 36 0 C and each isolate of Alternaria alternata had the same optimum temperature of 28 0 C. No isolate was grown well at 4 or 36 0 C. Patil and Rao (1975) showed that Alternaria tenuis grew well in a wider range of temperature i.e. 15 to 35 0 C, however temperature range of 20 to 30 0 C was found favorable for good growth and sporulation. The optimum temperature was found to be 25 to 30 0 C. of fungus ceased at 10 and 37 0 C. Dennis (1983) Low temperature storage is the most effective and practical method for delaying IJEDR1702210 International Journal of Engineering Development and Research (www.ijedr.org) 1346

the development of fungal decay. Strew, J.R., 1975, Effect of humidity on losses of bulb onion (Allium cepa L) stored at high temperature. Shinde (1995) noticed that Alternaria alternata was able to grow at temperature from 5 to 35 0 C. Maximum growth and sporulation was reported between the temperature ranges of 28 to 30 0 C. The fungus failed to grow at 0 0 C and above 40 0 C. Pingale (1996) studied the pathogen Alternaria alternata and reported that the fungus would grow from 5 to 35 0 C temperature. Maximum growth and sporulation was observed at 28 1 0 C, while growth was not observed below 5 0 C and beyond 40 0 C. Optimum ph 6.0 to 7.5 sporulation was good seen in Alternaria porri, Aspergillus niger, Aspergillus flavus, Fusarium oxysporum, Colletotrichum circinans,and Penicillium corymbiferum. In general pathogens do not grow or grow very slowly, at ph levels below 4.6; but there are exceptions. Many pathogens can survive in food at ph levels their growth minima. It has been reported that C. botulinum was able to produce toxin as low as ph 4.2 (Smelt and others 1982). The influence of ph and temperature on initiation of growth of Salmonella spp. (Ferreira MASS, Lund BM.1987). The ph ranges 5 to 8 were found suitable to the growth of all the pathogenic fungi. Material and methodology: To study the effect of various physiological factors like temperature and ph on growth of Alternaria porri, Aspergillus niger, Aspergillus flavus, Fusarium oxysporum, Colletotrichum circinans,and Penicillium corymbiferum was observed on the Potato Dextrose agar medium. The samples were incubated at +- 5 0 C to 40 0 C for week and the results were observed. The samples were culture on 4-10 ph PDA medium range for week IJEDR1702210 International Journal of Engineering Development and Research (www.ijedr.org) 1347

Table No. 1: Effect of temperature on growth and sporulation of saprophytic pathogenic fungi Incubation temp. ( 0 C ) Alternaria porri Aspergillus niger Aspergillus flavus Colletotrichum circinance Penicillium corymbiferum Fusarium oxysporum 05 0.03-0.05-0.06-0.07-0.08-0.04-15 3.57 ++ 4.09 + 4.20 + 3.90 ++ 3.75 + 3.65-25 8.12 ++ 7.90 ++ 7.98 ++ 8.25 +++ 8.55 ++ 8.75 ++ 30 8.00 +++ 7.85 ++ 7.99 +++ 8.00 +++ 8.20 ++ 8.45 +++ 35 3.05 ++ 2.90 + 2.99 ++ 2.80 + 2.70 + 3.10 + 40 0.04-0.04-0.05-0.07-0.08-0.039 - Table No. 2: Effect of ph on the growth and sporulation of saprophytic pathogenic fungi ph Alternaria porri Aspergillus niger Aspergillus flavus Colletotrichum circinance Penicillium corymbiferum Fusarium oxysporum 4.0 45-35 - 30-31 - 10-32 - 4.5 47 + 47 + 33-34 - 12 + 35 + 5.0 52 ++ 55 + 33-38 + 20 ++ 40 ++ 5.5 67 +++ 70 ++ 37-40 ++ 30 ++ 52 ++ 6.0 69 ++ 65 ++ 40 ++ 52 ++ 32 +++ 67 +++ 6.5 70 +++ 68 +++ 45 + 56 +++ 35 +++ 72 +++ 7.0 72 ++ 75 +++ 52 +++ 60 +++ 45 +++ 74 +++ 7.5 72 + 75 ++ 50 ++ 59 +++ 45 +++ 70 ++ 8.0 57 + 47 + 48 +++ 57 + 42 + 65 + 8.5 56-46 + 42 ++ 55 + 40 + 54 + 9.0 54-50 - 36-50 - 35-43 - 9.5 50-50 - 38-51 - 27-34 - 10 45-45 - 41-47 - 24-31 - * = Average of the three replication, - = No sporulation, + = Poor sporulation, ++ = Moderate sporulation, +++ = Good sporulation IJEDR1702210 International Journal of Engineering Development and Research (www.ijedr.org) 1348

Effect of temperature on growth and sporulation of saphrophytic pathogenic fungi 9 8 7 6 5 4 3 2 1 0 Incubation temp. (0C) 5 15 25 30 35 40 Effect of ph on the growth and sporulation of saphrophytic pathogenic fungi 80 70 60 50 40 30 20 10 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Series1 Series2 Series3 Series4 Series5 Series6 Series7 Series8 Series9 Series10 Series11 Series12 Series13 IJEDR1702210 International Journal of Engineering Development and Research (www.ijedr.org) 1349

Result and Discussion: Temperatures from 25 0 C to 30 0 C were most favorable for the growth of these saprophytic pathogenic fungi. The highest growth of Alternaria porri, Aspergillus niger, Aspergillus flavus, Fusarium oxysporum, Colletotrichum circinans and Penicillium corymbiferum was recorded at 30 0 C. Optimum ph 6.0 to 7.5 sporulation was good recorded in Alternaria porri, Aspergillus niger, Aspergillus flavus, Fusarium oxysporum, Colletotrichum circinans and Penicillium corymbiferum. The influence of ph and temperature on initiation growth of these pathogenic fungi. The influence of ph and temperature on initiation of growth of Salmonella spp. (Ferreira MASS, Lund BM.1987).The ph ranges 5 to 8 were found suitable to the growth of all the pathogenic fungi. References: 1. Ferreira MASS, Lund BM.1987. The influence of ph and temperature on initiation of growth of Salmonella spp. Lett Appl Microbiol 5:67-70. 2. Rangaswami, G. and Sambandam, C.N. (1961). Comparative studies on some Alternaria spp. occurring on solanaceous host. Ind. J. Agril. Sci. 31: 160-162. 3. Dennis, 1983. Low temperature storage is the most effective and practical method for delaying the development of fungal decay 4. Strew, J.R., 1975, Effect of humidity on losses of bulb onion (Allium cepa L) stored at high temperature.expt.agril11:81. 5. Saad, S. and Hagedorn, D.J. (1969). Symptomatology and epidemiology of Alternaria leaf spot of bean. (Phaseolus vulgaris). Phytopath. 59: 1530-1533. 6. Patil, A.S. and Rao, V.G. (1975). Nutritional studies on Alternaria tenuis responsible for leaf spot diseases of yam (Dioscorea alata L.). Res. J. MPKV., Rahuri. 6: 142-151. 7. Shinde, B.M., (1995). Investigation on leaf spot disease of soyabean (Glycine max L. Merill) caused by Alternaria and Drechslera. M.Sc. (Agri.) Thesis submitted to MPKV, Rahuri. 8. Singh, N. (1980). Some physiological and pathological studies of Myrothecium carmichaeli, Altsmaria teuissima, Drechslera rostrata and Cladosporium oxysporum causing post-harvest diseases of tomato, field bean, cape-goose-berry and Joquat respectively. D.Phill. thesis, Allahabad Univ., Allahabad. India. 9. Smelt JPPM, Raatjes JGM, Crowther JC, Verrips CT. 1982. and toxin formation by Clostridium botulinum at low ph values. J Appl Bacteriol 52:75-82. 10. Pingle, A.P. (1996). Studies on Alternaria leaf spot of feba bean (Vicia feba L.). M.Sc. (Agri.) Thesis submitted to MPKV. Rahuri. 11. Rai, R.N. (1982). Pathological and physiological studies of certain fungi causing fruit rot diseases. D.Phil. Thesis, Allahabad Univ., Allahabad. IJEDR1702210 International Journal of Engineering Development and Research (www.ijedr.org) 1350

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