References
- Abawi, G.S. and Pastor Corrales, M.A. 1990. Root rots of beans in Latin America and Africa: Diagnosis, research methodologies, and management strategies. Cali, Colombia: Centro Internacional de Agricultura Tropical.
- Amir, H. and Alabouvette, C. 1993. Involvement of soil abiotic factors in the mechanisms of soil suppressiveness to Fusarium wilts. Soil Biology and Biochemistry, 25: 157–164.
- Anonymous. 2014. Agricultural Production Report in 2014. Tehran, Iran: The Iranian Ministry of Agriculture.
- Bruton, B.D. and Reuveni, R. 1985. Vertical distribution of microsclerotia of Macrophomina phase-olina under various soil types and host crops. Agricultural Ecosystems and Environment, 12: 165-169.
- Burke, D.W. and Kraft, J.M. 1974. Responses of beans and peas to root pathogens accumulated during monoculture of each crop species. Phytopathology, 64: 546–549.
- Chitarra, W., Pugliese, M., Gilardi, G., Gullino, M.L. and Garibaldi, A. 2013. Effect of silicates and electrical conductivity on Fusarium wilt of hydroponically grown lettuce. Communications in Agriculture and Applied Biology Science, 78: 555–557.
- Höper, H., Steinberg, C. and Alabouvette, C. 1995. Involvement of clay type and pH in the mechanisms of soil suppressiveness to fusarium wilt of flax. Soil Biology and Biochemistry, 27: 955–967.
- James, N. 1958. Soil extract in soil microbiology. Canadian Journal of Microbiology, 4: 363-370.
- Khodagholi, M., Hemmati, R, Naseri, B, Marefat, A. 2013. Genotypic, phenotypic and pathogenicity variation of Fusarium solani isolates, the causal agent of bean root rots in Zanjan province. Iranian Journal of Pulses Research, 4: 111–125.
- Lodha, S., Mathur, B.K., Solanki, K.R. 1990. Factors influencing population dynamics of Macrophomina phaseolina in arid soils. Plant and Soil, 125: 75-80.
- Mengistu, A., Krishna N., Reddy, R., Zablotowicz, M., Wrather, A.J. 2008. Propagule densities of Macrophomina phaseolina in soybean tissue and soil as affected by tillage, cover crop, and herbicides. Plant Health Progress doi:10.1094/PHP-2009-0130-01RS.
- Naseri, B. 2008. Root rot of common bean in Zanjan, Iran: major pathogens and yield loss estimates. Australasian Plant Pathology, 37: 546-551.
- Naseri, B. 2014a. Bean production and Fusarium root rot in diverse soil environments in Iran. Journal of Soil Science and Plant Nutrition, 14:177-188.
- Naseri, B. 2014b. Charcoal rot of bean in diverse cropping systems and soil environments. Journal of Plant Disease and Protection, 121: 20–25.
- Naseri, B. 2014c. Sowing, field size, and soil characteristics affect bean-Fusarium-wilt pathosystems. Journal of Plant Disease and Protection, 121: 171-176.
- Naseri, B. and Hemmati, R. 2017. Bean root rot management: recommendations based on an integrated approach for plant disease control. Rhizosphere, 4: 48-53.10.1016/j.rhisph.2017.07.001
- Naseri, B. and Marefat, A. 2011. Large-scale assessment of agricultural practices affecting Fusarium root rot and common bean yield. European Journal of Plant Pathology, 131: 179-195.
- Naseri, B. and Moradi, P. 2015. Farm management strategies and the prevalence of Rhizoctonia root rot in bean. Journal of Plant Disease and Protection, 5: 238–243.
- Naseri, B. and Mousavi, S.S. 2015. Root rot pathogens in field soil, root and seed in relation to common bean (Phaseolus vulgaris) disease and seed production. International Journal of Pest Management, 61: 60-67.
- Naseri, B., Shobeiri, S.S. and Tabande, L. 2016. The intensity of a bean Fusarium root rot epidemic is dependent on planting strategies. Journal of Phytopathology, 164: 147-154.
- Naseri, B. and Tabande, L. 2017. Patterns of Fusarium wilt epidemics and bean production determined according to a large-scale dataset from agro-ecosystems. Rhizosphere, 3: 100-104.
- Nelson, P.E., Toussoun, T.A. and Maraas, W. 1983. Fusarium species: an illustrated manual for identification. University Park, PA: Pennsylvania State University.
- Otten, W. and Gilligan, C.A. 1998. Effect of physical conditions on the spatial and temporal dynamics of the soil-borne fungal pathogen Rhizoctonia solani. New Phytologist, 138: 629–637.
- Sahile, S., Ahmed, S., Fininsa, C., Abang, M.M. and Sakhuja P.K. 2008. Survey of chocolate spot (Botrytis fabae) disease of faba bean (Vicia faba L.) and assessment of factors influencing disease epidemics in northern Ethiopia. Crop Protection, 27: 1457–1463.10.1016/j.cropro.2008.07.011
- Toubia-Rahme, H., Ali-Haimoud, D.E., Barrett, G. and Albertini, L. 1995. Inhibition of Dreschlera teres schleroid formation in barley straw by application of glyphosate or paraquat. Plant Disease, 79: 595–598.