Stable isotope composition of long and short term carbon pools can screen drought tolerance in cassava

IF 5.6 1区 农林科学 Q1 AGRONOMY Field Crops Research Pub Date : 2024-09-11 DOI:10.1016/j.fcr.2024.109586
Jonas Van Laere , Maria Alejandra Martinez Maya , Michael Gomez Selvaraj , Luis Augusto Becerra Lopez-Lavalle , Diego Guzmann , Jorge Andres Casas , Roel Merckx , Rebecca Hood-Nowotny , Gerd Dercon
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Abstract

Leaf carbon isotope composition (δ13C) is a promising trait for assessing genotypic differences in responses to environmental stress, particularly drought. Despite its potential, comprehensive evaluations of δ13C across various carbohydrate pools and leaf positions, in comparison with other traits, are still lacking for cassava (Manihot esculenta). This study aimed to estimate the genotypic effect size and the correlation with yield for δ13C and other commonly assessed traits in cassava. We compared the δ13C values at bulk root initiation stage of fourteen genotypes grown in the wet (1450 mm annual rainfall) and dry Caribbean (950 mm annual rainfall). We focused on both non-structural (soluble sugars) as well as structural (cellulose) carbohydrate pools across multiple leaf positions. Our results revealed significant genotypic effects across nearly all pools and leaf positions, which were equal or larger than other commonly measured traits. Interestingly, correlations between isotope composition and root yield were only observed in the dry location, with upper leaves exhibiting weaker correlations across all carbohydrate pools. Notably, while soluble sugars displayed stronger correlations with yield, they also demonstrated higher susceptibility to within-field variations. Furthermore, complementary information was found when combining δ13C with other traits such as leaf retention. Combining isotope compositions across various carbohydrate pools may reveal insights into source-sink dynamics. These results underscore the potential of δ13C as a tool for improving drought tolerance in cassava and provide a basis for its integration into cassava breeding programs, when used under dry conditions. To enhance the practical utility of δ13C as a screening technique, further research is advised to validate these findings across multiple locations, growing seasons and growth stages.

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长期和短期碳库的稳定同位素组成可筛选木薯的耐旱性
叶片碳同位素组成(δ13C)是评估基因型对环境胁迫(尤其是干旱)反应差异的一个很有前景的性状。尽管δ13C具有潜力,但与其他性状相比,木薯(Manihot esculenta)仍缺乏对不同碳水化合物库和叶片位置的δ13C的全面评估。本研究旨在估算木薯δ13C和其他常见评估性状的基因型效应大小及其与产量的相关性。我们比较了生长在加勒比海湿润地区(年降雨量 1450 毫米)和加勒比海干旱地区(年降雨量 950 毫米)的 14 个基因型在块根萌发阶段的 δ13C 值。我们重点研究了多个叶片位置的非结构性(可溶性糖)和结构性(纤维素)碳水化合物池。我们的研究结果表明,几乎所有的碳水化合物池和叶片位置都有明显的基因型效应,这些效应等于或大于其他通常测量的性状。有趣的是,同位素组成与根产量之间的相关性仅在干燥位置观察到,上部叶片在所有碳水化合物池中的相关性较弱。值得注意的是,虽然可溶性糖与产量的相关性更强,但它们也更容易受到田间变化的影响。此外,在将δ13C 与叶片保持率等其他性状相结合时,还发现了互补信息。将各种碳水化合物池的同位素组成结合起来,可以揭示源-汇动态。这些结果凸显了δ13C作为提高木薯耐旱性工具的潜力,并为在干旱条件下使用δ13C时将其纳入木薯育种计划奠定了基础。为提高 δ13C 作为筛选技术的实用性,建议开展进一步研究,在多个地点、生长季节和生长阶段验证这些发现。
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来源期刊
Field Crops Research
Field Crops Research 农林科学-农艺学
CiteScore
9.60
自引率
12.10%
发文量
307
审稿时长
46 days
期刊介绍: Field Crops Research is an international journal publishing scientific articles on: √ experimental and modelling research at field, farm and landscape levels on temperate and tropical crops and cropping systems, with a focus on crop ecology and physiology, agronomy, and plant genetics and breeding.
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