Harnessing phenological traits of wild ancestor Chenopodium hircinum to improve climate adaptation of quinoa

IF 1.8 4区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY
R. N. Curti, P. Ortega-Baes, Santiago Ratto, D. Bertero
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引用次数: 1

Abstract

ABSTRACT Context. Cultivation of quinoa (Chenopodium quinoa Willd.) is rapidly expanding worldwide. Characterisation of populations of Chenopodium hircinum Schard., its wild ancestor, which thrives in some of the hottest environments in South America, may provide adaptations to new environments. Aim. This study evaluated the developmental patterns of populations of C. hircinum collected from a range of agroecological environments in Argentina, in order to quantify variability among sites of origin and to explore the association between climatic data from environments of provenance and variation in development. Methods. Thirty-three populations of C. hircinum from contrasting sites of origin in Argentina were multiplied in a common-garden experiment under non-limiting conditions of water and nutrient availability. Plants were sampled once or twice weekly (according to parameter) for estimation of the duration of developmental phases, leaf number, and dates of initiation of branching on the main stem. Key results. Significant variation was detected for all phenological traits, and populations were categorised into six groups based on similarity of patterns of variation. We found positive association of the duration of development phases and the number of leaves on the main-stem with maximum temperature during the growing season, and negative association with altitude of origin, consistent with variation in growing-season duration. Conclusions. The finding that late-flowering populations are associated with warmest climates reveals that longer vegetative growth is an adaptive strategy to cope with heat stress in Chenopodium spp. Implications. Time to flowering should be considered in attempts to improve quinoa performance under heat-stress conditions. Further work is needed to understand the genetic basis controlling this response in wild populations of C. hircinum.
利用野生祖先藜的酚学特性提高藜麦的气候适应性
摘要上下文。藜麦的种植在世界范围内迅速扩大。藜属(Chenopodium hircinum Schard。,它的野生祖先在南美洲一些最热的环境中繁衍生息,可能会适应新的环境。目标本研究评估了从阿根廷一系列农业生态环境中采集的毛霉菌种群的发育模式,以量化来源地之间的变异性,并探索来源环境的气候数据与发育变异之间的联系。方法。在一项普通的花园实验中,在非限制性的水和养分供应条件下,对来自阿根廷不同产地的33个赤霉种群进行了繁殖。每周对植物取样一到两次(根据参数),以估计发育阶段的持续时间、叶片数量和主茎分枝开始的日期。关键成果。所有表型性状都检测到显著变异,并根据变异模式的相似性将种群分为六组。我们发现,发育阶段的持续时间和主茎上的叶片数量与生长季节的最高温度呈正相关,与起源海拔高度呈负相关,与生长季节持续时间的变化一致。结论。晚花群体与最温暖的气候有关的发现表明,藜属植物较长的营养生长是应对热胁迫的一种适应性策略。在热胁迫条件下,为了提高藜麦的性能,应该考虑开花时间。还需要进一步的工作来了解控制毛霉野生种群这种反应的遗传基础。
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来源期刊
Crop & Pasture Science
Crop & Pasture Science AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
4.20
自引率
15.80%
发文量
111
审稿时长
3 months
期刊介绍: Crop and Pasture Science (formerly known as Australian Journal of Agricultural Research) is an international journal publishing outcomes of strategic research in crop and pasture sciences and the sustainability of farming systems. The primary focus is broad-scale cereals, grain legumes, oilseeds and pastures. Articles are encouraged that advance understanding in plant-based agricultural systems through the use of well-defined and original aims designed to test a hypothesis, innovative and rigorous experimental design, and strong interpretation. The journal embraces experimental approaches from molecular level to whole systems, and the research must present novel findings and progress the science of agriculture. Crop and Pasture Science is read by agricultural scientists and plant biologists, industry, administrators, policy-makers, and others with an interest in the challenges and opportunities facing world agricultural production. Crop and Pasture Science is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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