Effect of water deficit on morphoagronomic traits of black common bean genotypes (Phaseolus vulgaris L.) with contrasting drought tolerance |
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| Authors: | Sebastião Soares de Oliveira Neto Francisca Franciana Sousa Pereira Tiago Zoz Carlos Eduardo da Silva Oliveira Vânia Moda Cirino |
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| Institution: | 1. Department of Agronomy, Faculdades Integradas de Bauru, Bauru, SP, Brazil;2. Department of Rural Engineering, School of Agricultural Science, São Paulo State University, Botucatu, SP, Brazil;3. Research Group for Innovation and Advancement of Agriculture, Mato Grosso State University - Unidade de Mundo Novo, Mundo Novo, MS, Brazil;4. Department of Plant Protection, Rural Engineering and Soils, School of Engineering, São Paulo State University, Ilha Solteira, SP, Brazil;5. Instituto de Desenvolvimento Rural do Paraná - IAPAR-EMATER (IDR-IAPAR-EMATER), Londrina, PR, Brazil |
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| Abstract: | Brazil is the world's largest producer of common beans (Phaseolus vulgaris L.). Drought stress harms the morphological and agronomic traits of beans. This study evaluates the reaction to water deficit in five genotypes of black beans. The experiment was conducted in the IDR-IAPAR-EMATER in Londrina-PR, Brazil. A split-plot design was used, with three replications. The genotypes were included in the subplots and the treatments with or without water deficit in the plots. Water deficit was induced on the pre-flowering stage and maintained for 20 days in the plots submitted to drought stress. For the growth analysis, plants were collected at 35, 54 and 70 days after emergence. At the stage of physiological ripeness, several morphological and yield traits were evaluated. The genotypes IPR Uirapuru and BRS Esplendor can be considered tolerant and used as a tolerant source to water deficit in common bean germplasm banks. The line LP 08-90 has morphological and agronomic adaptations efficient to overcome water deficit's effects, presenting a higher grain yield in both crop conditions, which indicates the success of black beans breeding to deal with water deficit. |
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| Keywords: | abiotic stress adaptability and stability common bean drought path analysis |
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