Mutation breeding for heat and drought tolerance in tepary bean (Phaseolus acutifolius A. Gray)

Special Issue 2021 Pub Date : 2021-09-10 DOI:10.21475/ajcs.21.15.09.sp-7

L. C. Muñoz, D. Debouck, M. Rivera, J. Muñoz, Deisy Alpala, F. Sarsu, I. Rao

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引用次数: 2

Abstract

Tepary bean (Phaseolus acutifolius A. Gray) is more heat and drought tolerant than common bean (P. vulgaris L.). Four hundred mutant lines of two tepary accessions (G40068 and G40159) were generated by ethyl methane sulfonate (EMS) treatment. In preliminary studies of the M5 mutant lines under abiotic stress, three mutant lines (CMT 38, CMT 109, CMT 187) were selected from six mutated lines based on morpho-physiological traits and superior yield and advanced to the M6 generation. The M6 mutant lines were uniform and genetically stable. These mutant lines and their original (M0) parents were evaluated for heat and drought tolerance under greenhouse conditions. Their performance was evaluated for morpho-physiological attributes, seed yield and yield components. Under high temperature and drought conditions, the CMT 38 mutant (M6 line) and its original tepary (M0) accession (G40068) showed greater values of pod biomass, pod number and 100-seed biomass than the other lines tested. The CMT 109 and CMT 187 mutant lines and their G40159 original accession (M0) also showed the highest value of seed number under high temperature and drought conditions. This suggests that the previous screening performed during the population advancement of these mutant lines, based on morphological traits like growth habit, was not detrimental to the yield variables evaluated here. Under combined heat and drought conditions, different parameters could be incorporated into tepary breeding programmes, as selection criteria to screen genotypes for tolerance to heat and drought stress. These parameters included: chlorophyll (SPAD) readings, seed biomass, 100-seed biomass and seed number because they explain the observed variance in the principal component analysis. Two additional traits (root biomass and stem diameter) were also identified as useful attributes, based on univariate analysis. The mutant lines evaluated here offer potential for further improvement of tepary bean to high temperature and drought

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红豆(Phaseolus acutifolius A. Gray)耐热、耐旱性突变选育

小豆(Phaseolus acutifolius A. Gray)比普通豆(P. vulgaris L.)更耐热、更耐旱。用甲烷磺酸乙酯(EMS)处理了2个四聚体材料G40068和G40159的400个突变系。在非生物胁迫下M5突变系的初步研究中，根据形态生理性状和产量优势，从6个突变系中筛选出3个突变系(CMT 38、CMT 109、CMT 187)，并将其推进到M6代。M6突变系均匀且遗传稳定。这些突变系及其原始亲本(M0)在温室条件下的耐热性和抗旱性进行了评价。从形态生理属性、籽粒产量和产量组成等方面对其进行评价。在高温干旱条件下，CMT 38突变体(M6系)及其原始tepary (M0)加入(G40068)的荚果生物量、荚果数和百粒生物量均高于其他供试品系。CMT 109和CMT 187突变系及其G40159初始加入(M0)在高温干旱条件下也表现出最高的种子数。这表明，在这些突变系的种群推进过程中，基于生长习惯等形态特征进行的先前筛选对这里评估的产量变量没有不利影响。在高温和干旱复合条件下，不同的参数可以作为筛选耐热和干旱胁迫基因型的选择标准纳入育种计划。这些参数包括叶绿素(SPAD)读数、种子生物量、百粒生物量和种子数，因为它们解释了主成分分析中观察到的方差。基于单变量分析，两个额外的性状(根生物量和茎直径)也被确定为有用的属性。本研究评价的突变品系为进一步提高四角豆耐高温、抗旱能力提供了潜力

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Special Issue 2021

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