Research Article Recurrent selection to obtain drought-tolerant common bean progenies

IF 0.6 Q4 GENETICS & HEREDITY Genetics and Molecular Research Pub Date : 2021-01-01 DOI:10.4238/gmr18902

T. Ribeiro, D. Silva, S. Rovaris, J. Gonçalves, S. Carbonell, A. F. Chiorato

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Abstract

Common bean yield is directly related to climate conditions, and water deficit is one of the main limiting factors. One way of getting around this problem is increasing the frequency of alleles favorable to drought tolerance by the recurrent selection method. We estimated the morphophysiological and agronomic gains achieved in two recurrent selection cycles for drought tolerance and evaluated the genetic potential of the progenies obtained in each cycle. The first recurrent selection cycle was obtained by intercrossing 10 genotypes. This cycle was followed by physiological, morphophysiological, and agronomic evaluations, resulting in selection of 17 progenies. The second cycle was obtained by intercrossing the 17 selected progenies, followed by the same evaluations, resulting in 20 selected progenies. A randomized block experimental design was used for both selection cycles, with split plots and three replications. The plots consisted of two water treatments (irrigated and water deficit), and the subplots consisted of the progenies under evaluation. To select the progenies and estimate the genetic parameters, only the treatment under water deficit was considered, in randomized blocks with three replications. Irrigation was suspended at the R5 stage. Under these conditions, the following traits were evaluated: stomatal conductance, leaf temperature, relative

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研究文章通过反复选育获得耐旱普通豆后代

普通豆产量与气候条件直接相关，水分亏缺是主要限制因素之一。解决这一问题的一种方法是通过循环选择方法增加有利于抗旱的等位基因的频率。我们估计了在两个抗旱性循环选择中获得的形态生理和农艺收益，并评估了每个循环中获得的后代的遗传潜力。通过10个基因型杂交获得第一个循环选择周期。在这个循环之后进行生理、形态生理和农艺评价，最终选择了17个后代。第二个周期是将17个选择的子代进行杂交，然后进行同样的评价，得到20个选择的子代。两个选择周期均采用随机区组实验设计，采用分割图和3个重复。样地由灌水和亏水两种水处理组成，子样地由待评价子代组成。为了选择后代和估计遗传参数，只考虑缺水条件下的处理，随机分组，每组3个重复。在R5阶段暂停灌溉。在此条件下，评价了气孔导度、叶温、相对温度等性状

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来源期刊

Genetics and Molecular Research 生物-生化与分子生物学

CiteScore

1.00

自引率

25.00%

发文量

审稿时长

3 months

期刊介绍： Genetics and Molecular Research (GMR), maintained by the Research Foundation of Ribeirão Preto (Fundação de Pesquisas Científicas de Ribeirão Preto), publishes high quality research in genetics and molecular biology. GMR reflects the full breadth and interdisciplinary nature of this research by publishing outstanding original contributions in all areas of biology. GMR publishes human studies, as well as research on model organisms—from mice and flies, to plants and bacteria. Our emphasis is on studies of broad interest that provide significant insight into a biological process or processes. Topics include, but are not limited to gene discovery and function, population genetics, evolution, genome projects, comparative and functional genomics, molecular analysis of simple and complex genetic traits, cancer genetics, medical genetics, disease biology, agricultural genomics, developmental genetics, regulatory variation in gene expression, pharmacological genomics, evolution, gene expression, chromosome biology, and epigenetics.