Going New Places: Successful Adaptation and Genomic Integrity of Grain Amaranth in India

bioRxiv - Evolutionary Biology Pub Date : 2024-09-07 DOI:10.1101/2024.09.04.610786

Akanksha Singh, Markus G Stetter

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Abstract

Global climate change will impact worldwide crop yields, requiring shifts and adaptation of crop varieties. The recent global spread of crops across different continents shows how plants successfully colonized new environments. One such spread is the introduction of the nutritious pseudocereal amaranth to India. Grain amaranth has been domesticated over 6,000 years ago in three different regions of the Americas and was introduced to India approximately 500 years ago. Nowadays numerous local landraces grow throughout the country′s wide climatic conditions. We investigate the introduction of grain amaranth to India to understand the factors allowing successful establishment of crops to novel environments, using whole genome sequencing of almost 200 accessions from India and more than 100 accessions from the crop's native distribution. We find comparable levels of genetic diversity in the Americas and in India, despite the likely population bottleneck during the introduction to India. Surprisingly, the three grain amaranth species that were introduced do not show signs of gene-flow in India, while gene-flow in the Americas was high during the domestication of the crops. Correspondingly, the genetic differentiation between grain species was higher within India than in the native range, indicating a strong isolation between otherwise interbreeding populations. The reconstruction of the population history through demographic modelling of different scenarios suggested rapid expansion in the Indian population but a strong bottleneck in the native population, explaining the comparable diversity and isolation. We identified genomic loci under selection and associated with the climate in India that potentially enabled the adaptation to the new environment. These loci are predicted to provide an advantage under future climate scenarios, even in the native range. Our results suggest that introduced crops can act as reservoirs of genetic diversity, providing additional adaptive potential and resilience to future environmental change.

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去新的地方：印度谷粒苋的成功适应和基因组完整性

全球气候变化将影响全世界的作物产量，要求作物品种的转变和适应。最近农作物在全球各大洲的传播表明，植物是如何成功地在新环境中定居的。营养丰富的伪谷物苋菜传入印度就是其中之一。谷粒苋早在 6000 多年前就在美洲的三个不同地区被驯化，大约 500 年前传入印度。如今，印度各地气候条件各异，生长着许多当地的苋属植物。我们研究了谷粒苋被引入印度的过程，通过对近 200 个来自印度和 100 多个来自谷粒苋原产地的品系进行全基因组测序，了解作物在新环境中成功生长的因素。我们发现美洲和印度的遗传多样性水平相当，尽管在引入印度的过程中可能出现了种群瓶颈。令人惊讶的是，引进的三个谷粒苋品种在印度并没有表现出基因流动的迹象，而在美洲作物驯化过程中基因流动却很频繁。相应地，谷物物种之间的遗传分化在印度境内比在原生地更高，这表明原本杂交的种群之间存在着很强的隔离性。通过不同情况下的人口模型重建种群历史表明，印度种群迅速扩张，而原生种群则出现了强大的瓶颈，这也是多样性和隔离性相当的原因。我们发现了正在接受选择并与印度气候相关的基因组位点，这些位点有可能使印度人适应新的环境。据预测，在未来的气候条件下，这些基因位点将提供优势，甚至在原生地也是如此。我们的研究结果表明，引进的作物可以作为遗传多样性的宝库，提供额外的适应潜力和对未来环境变化的复原力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Evolutionary Biology

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