Full Length Research Paper
References
Akhavan A, Bahar M, Saeidi G, Lak M (2009). Factors affecting epiphytic population of Xanthomonas axonopodis pv. phaseoli in epidemiology of bean common blight. Journal of Science and Technological Agriculture and Natural Resources 13:265-277. |
|
Binagwa PH (2017). State of art: National report - Phaseolus bean research program - Tanzania. Arusha, Arusha, Tanzania. |
|
Brady N, Weil R (2002). The nature and properties of soils 3rd Edition. New Jersey: Prentice Hall. |
|
Broughton W, Hernandez G, Blair M, Beebe S, Gepts P, Vanderleyden J (2003). Beans (Phaseolus vulgaris spp.)-model food legumes. Plant Soil 252:55-128. |
|
Buruchara R, Mukankusi C, Ampofo K (2010). Bean disease and pests identification management-Handbook for small-scale seed producer. Kampala: CIAT. |
|
Cichy K, Porch T, Beaver J, Cregan DF, Glahn R, Grusak M, Kamfwa K, Katuuramu DN, McClean P, Mndolwa E, Nchimbi-Msolla S, Pastor-Corrales MA, Miklas P (2015). A Phaseolus vulgaris Diversity Panel for Andean Bean Improvement. Crop Science 55:2149-2160. |
|
Chaube H, Kumar J, Mukhopadhyay A (1992). Plant diseases of international importance. New Jersey: Prentice Hall. |
|
CIAT (1987). Standard system for the evaluation of bean germplasm. Van Schonhoven (Compilers). Cali: CIAT. |
|
CIAT-Kawanda (2013). Training manual on phenotyping diseases of common bean (Phaseolus vulgaris L.) and characterization of the disease pathogens. Kampala: CIAT. |
|
Clewer AG, Scarisbrick DH (2001). Practical statistics and experimental design for plant and crop science. Chichester. New York: Wiley. |
|
De Leque J, Creamer B (2014). Major constraints and trends for common bean production and commercialization; establishing priorities for future research. Agronomia Colombiana 32(3):423-431. |
|
FAOSTAT (2018). Food and Agriculture Organization. |
|
Harwell L, Hood L, Goldberg M, Reynolds A, Silver L (2011). Genetics: From genes to genomes. Boston: McGraw Hill. |
|
Steadman J, Hall R, Forster R (2005). Compendium of Bean Diseases. The American Phytopathological Society 20:209-2018. |
|
Hillocks R, Madata C, Chirwa R, Minja E, Msolla S (2006). Phaseolus Bean Improvement in Tanzania, 1959-2005. Euphytica 150(1):215-231 |
|
Jesus W, Ribeiro do Vale F, Coelho R, Hau B, Zambolim L, Costa L, Bergamin A (2001). Effects of Angular Leaf Spot and Rust on Yield Loss of Phaseolus vulgaris. Phytopathology 91(11):1045-1053. |
|
Kiriba K, Msaky M, Mahenge N, Paul S, Kessy G, Binagwa PH (2020). Yield response of bush bean varieties (Phaseolus vulgaris) to different planting densities and rates of phosphorus fertilizer. International Journal of Agricultural Research 15(1)40-48. |
|
Kwak M, Gepts P (2009). Structure of genetic diversity in the two major gene pools of common bean (Phaseolus vulgaris L., Fabaceae). Theoretical and Applied Genetics 118(5):979-992. |
|
Kwak M, Kami J, Gepts P (2009). The putative Mesoamerican domestication center is in Lerma-Santiago Basin of Mexico. Crop Science 49(2):554-563. |
|
Landon A (2008). The "how" of the three sisters: The origin of agriculture in Mesoamerican and the human niche. Nebraska Anthropology 40:110-124. |
|
Landon J (1991). Booker tropical soil manual. A handbook for soil survey and agricultural land evaluation in the tropics and sub-tropics. New York: Longman Scientific and Technical. |
|
Liebenberg M, Pretorius Z (1997). A review of angular leaf spot of common bean (Phaseolus vulgaris L.). African Plant Protection 3:81-106. |
|
Lopez R, Asensio C, Gilbertson R (2006). Phenotypic and genetic diversity in strains of common bacterial blight. (Xanthomonas campestris pv. phaseoli and X. campestris pv. phaseoli var. fuscans) in a secondary center of diversity of the common bean host suggests multiple introduction events. Phytopathology 96:1204-1213 |
|
Mahuku GS, Iglesias AM, Jara C (2009). Genetics of angular leaf spot resistance in the Andean common bean accession G5686 and identification of markers linked to the resistance genes. Euphytica 167:381-396 |
|
Mahuku S, Riascos J (2004). Virulence and molecular diversity within Colletotrichum lindemuthianum isolates from Andean and Mesoamerican bean varieties and regions. European Journal of Plant Pathology 110:253-263. |
|
Mwaipopo B, Msolla S, Njau P, Tairo F, William W, Binagwa P, Mbanzibwa D (2016). Viruses infecting common bean (Phaseolus vulgaris L.) in Tanzania. A review on molecular characterization, detection and disease management options. African Journal of Agricultural Research 12(18):1486-1500. |
|
Mwang'ombe A, Wagara I, Kimenju J, Buruchara R (2007). Occurrence and Severity of Angular Leaf Spot of Common Bean in Kenya as Influenced by Geographical Location, Altitude and Agroecological Zones. Plant Pathology Journal 6:235-241. |
|
Nkalubo S, Melis R, Laing M, Opio F (2007). Yield loss associated with anthracnose disease on Ugandan market class dry bean cultivars. African Crop Science Conference Proceedings 8:869-874. |
|
Pastor-Corrales M, Jara C, Singh S (1998). Pathogenic variation in sources of and breeding for resistance to Phaeoisariopsis griseola causing angular leaf spot in common bean. Euphytica 103:161-171. |
|
Peters A (1993). China. Michigan Dry Bean Digest 4:18-20. |
|
Sankaran S, Helmut KDS, Okamuro J, Poland J, Kalcsits L (2015). Advances in field based high throughput phenotyping and data management. Washington DC: Grains and specialty crops. |
|
Singh S, Schwartz H (2010). Breeding Common Bean for Resistance to Diseases: A Review. Crop Sciences 50:2199-2223. |
|
Singh SP, Munoz CG, Teran H (2001). Registration of common bacterial blight resistant dry bean germplasm VAX 1, VAX 3 and VAX 4. Crop Science 41:275-276. |
|
Wang WB, Clayton D, Todd J (2005). Genome-wide association studies: Theoretical and practical concerns. Nature Reviews Genetics 6:109-116. |
|
Worrall E, Wamonje F, Mukeshimana G, Harvey J, Carr JM (2015). Bean Common Mosaic Virus and Bean Common Mosaic Necrosis Virus: Relationships, Biology, and Prospects for Control. Elsevier 93:34-39. |
|
Yu J, Holland J, McMullen M, Buckler E (2008). Genetic design and statistical power of nested association mapping in maize. Genetics 178:539-551. |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0