Читать книгу Dry Beans and Pulses Production, Processing, and Nutrition онлайн

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89 Porch, T.G., Smith, J.R., Beaver, J.S., Griffiths, P.D. & Canaday, C.H. (2010). TARS‐HT1 and TARS‐HT2 heat‐tolerant dry bean germplasm. HortScience 45: 1278–1280.

90 Porch, T.G., Beaver, J.S., Debouck, D.G., Jackson, S.A., Kelly, J.D. & Dempewolf, H. (2013). Use of wild relatives and closely related species to adapt common bean to climate change. Agronomy 3: 433–461.

91 Raatz, B., Mukankusi, C., Lobaton, J.D., Male, A., Chisale, V., Amsalu, B., Fourie, D., Mukamuhirwa, F., Muimui, K., Mutari, B. & Nchimbi‐Msolla, S. (2019). Analyses of African common bean (Phaseolus vulgaris L.) germplasm using a SNP fingerprinting platform: diversity, quality control and molecular breeding. Genetic Resources and Crop Evolution 66: 707–722.

92 Reinprecht, Y., Schram, L., Marsolais, F., Smith, T.H., Hill, B. & Pauls, K.P. (2020). Effects of nitrogen application on nitrogen fixation in common bean production. Frontiers in Plant Science 11: 1172.

93 Richard, M., Gratias, A., Alvarez Diaz, J.C., Thareau, V., Pflieger, S., Meziadi, C., Blanchet, S., Marande, W., Bitocchi, E., Papa, R. & Miklas, P.N. (2021). A common bean truncated CRINKLY4 kinase controls gene‐for‐gene resistance to the fungus Colletotrichum lindemuthianum. Journal of Experimental Botany 72: 3569–3581.

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