Reference :1
Adeyemi, A., Vincent, O., Olujenyo, O., 2018. Phytochemical screening and antifungal activity of Chromolaena odorata extracts against isolate of Phytophthora megakarya using agar-well diffusion method. Asian Journal of Medical and Biological Research 4, 7−13.
Bajwa, R., Akhtar, N., Javaid, A., 2001. Antifungal activity of allelopathic plant extracts. I. Effect of aqueous extracts of three allelopathic Asteraceous species on growth of Aspergilla. Pakistan Journal of Biological Sciences 4, 503−507.
Belkar, Y., Gade, R., Panjabrao, D., 2013. Management of root rot and collar rot of soybean by antagonistic microorganism. Journal of Plant Disease Sciences 8, 39−42.
Bhatnagar, D., Zeringue, H.J., Cormick, S.P., 1990. Neem leaf extracts inhibit aflatoxin biosynthesis in Aspergillus flavus and A. parasiticus. In Proceedings of the USDA neem workshop, 118–127.
Borah, M., Saikia, H., 2019. Influence of weather parameters on the development of collar rot of soybean caused by Sclerotium rolfsii. International Journal of Current Microbiology and Applied Sciences8, 1667−1675.
Borah, M., 2019. Identification of soybean diseases in assam. International Journal of Recent Science and Research 10, 34154−34159.
Chet, I., Henis, Y., 1972. The response of two type of Sclerotium rolfsii to factors affecting Sclerotium formation. Journal of General Microbiology 73, 483−486.
Damalas, C.A., Eleftherohorinos, I.G. 2011. Pesticide exposure, safety issues, and risk assessment indicators. International Journal of Environmental Research and Public Health 8, 1402−1419.
Deb, P.R., Dutta, B.K., 1991. Studies on biological control of foot rot disease of soybean caused by Sclerotium rolfsii Sacc. Journal of Plant Diseases and Protection98, 539−546.
Durbin, R.D., Uchytil, T.F., 1971. The role of allicin in the resistance of garlic to Penicillium spp. Phytopathologia Mediterranea10, 227−230.
Fawzi, E.M., Khalil, A.A., Afifi, A.F., 2009. Antifungal effect of some plant extracts on Alternaria alternate and Fusarium oxysporum. African Journal of Biotechnology 8, 2590−2597.
Food and Drug Administration (FDA), 1999. FDA approves new health claim for soybean protein and coronary heart disease. FDA Talk Paper, in www.fda.gov.G. (ed.) The Soybean: Botany, Production and Uses.
Henkel, J., 2000. Soybean: Health claims for soybean protein, questions about other components. FDA Consumer, in www.cfsan.fda.gov.
Hou, A., Chen, P., Alloatti, J., Mozzoni, L., Zhang, B., Shi, A., 2009. Genetic variability of seed sugar content in worldwide soybean germplasm collections. Crop Science 49, 903–912.
Iqbal, M.C.M., Jayasinghe, U.L.B., Herath, H.M.T.B., Wijesekara, K.B., Fujimoto, Y. 2004. A fungistatic chromene from Ageratum conyzoides. Phytopathology 32, 119−126.
Islam, R., 2004. Chromatographic separation of components in garlic bulb and Allamanda leaf extracts inhibitory to Phomopsis vexans [MS thesis]. Mymensingh: Department of Plant Pathology, Bangladesh Agricultural University, 35.
Jabbar, S., Nagaraja, A., Nagamma, G., 2014. Efficacy of bio-pesticides against Sclerotium rolfsii Sacc. causing collar rot of chickpea (Cicer arietinum l.).The Bioscan 9, 335–339.
Jannat, R., 2006. Determination of functional groups and molecular structure of the compounds in Allamanda leaf extracts inhibitory to Phomopsis vexans [MS thesis]. Mymensingh: Department of Plant Pathology, Bangladesh Agricultural University, 74–76.
Javed, Uzma, B., 2012. Antifungal activity of different extracts of Ageratum conyzoides for the management of Fusarium solani. African Journal of Biotechnology 11, 11022–11029.
Karade, V.M., Sawant, D.M., 1999. Effect of some plant extracts on the spore germination of Alternaria alternata. Plant Disease Research 14, 75–77.
Khan, N.U., 1999. Studies on epidemiology, seed borne nature and management of Phomopsis fruit rot of Brinjal [MS thesis]. Mymensingh: Department of Plant Pathology, Bangladesh Agricultural University, 38–68.
Kshirsagar, C.R., Jadhav, A.C.,Nimbalkar, R.D., 2004. In vitro evaluation of plant extracts against Rhizoctonia solani causing root rot of cotton. Journal of Cotton Research and Development 18, 202–203.
Manogaran, S., Sulochana, N., 2005. Extraction and characterization of Allamanda cathartica. Asian Journal of Chemistry 17, 1955–1958.
Marlina, L.H., Alfizar, S., 2020. Sclerotium rolfsii Sacc. Control, causes of collar rot disease in soybeans with mycorrhizal biological agents. Systematic Reviews in Pharmacy 11, 289–291.
Messina, M.J., 1999. Legumes and soybeans: overview of their nutritional profiles and health effects. American Journal of Clinical Nutrition 70, 439–450.
Nene, Y.L., Thapliyal, P.N., 2000. Fungicides in Plant Disease Control. (5th Ed.) Oxford and IBH publishing Co. Pvt. Ltd., New Delhi, 325.
Panda, R.N., Tripathy, S.K., Kar, J., Mohanty, A.K., 1996. Antifungal efficacy of homeopathic drugs and leaf extracts in Brinjal. Environment and Ecology 14, 292–294.
Punja, Z.K., 1985. The biology, ecology and control of Sclerotium rolfsii. Annual Reviews in Phytopatholog 23, 97–127.
Rana, B.K., Singh, U.P., Taneja, V., 1997. Antifungal activity and kinetics of inhibition by essential oil isolated from leaves of Aegle marmelos. Journal of Ethnopharmacology 57, 29–34.
Rao, A.S., Reddy, K.S., 2010. Nutrient management in soybean. In: Singh, G. (Ed.), The soybean: Botany, production and uses. CAB International, 30.
Renu, H.V.M., Dubey, N.K., Dixit, S.N., 1986. Mycotoxic properties of the essential oil of Aegle marmelos. Beit. Biol. Pflanz 60, 325–332.
Sacchi, S., Maurya, S., Choudhary, A.K., 2016. Antifungal efficacy of aqueous extracts of some spices against Sclerotium rolfsii. The Bioscan 11, 1537–1540.
Shekhawat, P.S., Prasada, R., 1971. Antifungal properties of some plant extracts: Inhibition of spore germination. Indian Phytopathology 24, 800–802.
Tania, F.I., 2007. Investigation of structural characteristics of Allamanda leaf extract components inhibiting the growth of some important plant pathology [MS thesis]. Mymensingh: Department of Plant Pathology, Bangladesh Agricultural University, 1–80.
Tewari, S.N., 1995. Ocimum sanctum L., a botanical fungicide for rice blast control. Tropical Science35, 263–273.
Tiwari, T.N., Pandey, V.B., Dubey, N.K., 2002. Plumieride from Allamanda cathartica as an antidermatophytic agent. Department of Botany, Banaras Hindu University, Varansi, India. Phytotherapy Research 16, 393–394.
Tran, D.X., Shinkichi, T., Hong, N.H., Khanh, T.D., Min, C.I., 2004. Assessment of phytotoxic action of Ageratum conyzoides L. (billy goat weed) on weeds. Crop Protection 23, 915–922.
Varma, J., Dubey, N.K., 1999. Prospectives of botanical and microbial products as pesticides of Tomorrow. Current Science 76, 172–179.
Vincent, J.M., 1927. Distortion of fungal hyphae in the presence of certain inhibitors. Nature 59, 850.
Wavare, S.H., Gade, R.M., Shitole, A.V., 2017. Effect of plant extracts, bio agents and fungicides against Sclerotium rolfsii causing collar rot in chickpea. Indian Journal of Pharmaceutical Sciences79, 513–520.
Yeni, I.J., Dele, O.S., Ademola, I.J., Adeniran, A.J., Plantation, M., 2010. Allelopathic effect of leaf extract of Azardirachta indica and Chromolaena odorata against post harvest and transit rot of tomato (Lycopersicum esculentum L). Biology, Corpus ID 53504316.
Zade, S.R., Buldeo, A.N., Lanje, P.W., Gulhane, V.G., 2005. Evaluation of plant extracts and culture filtrates of bioagents against Puccinia arachidis Speg. in groundnut.Journal of Soils and Crops 15, 150–154.
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