Climate adaptation in P. trichocarpa: key adaptive loci identified for stomata and leaf traits

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.11.603099
Marie C Klein, Zi Meng, Jack H. Bailey‐Bale, Suzanne Milner, Peicai Shi, W. Muchero, Jin-Gui Chen, T. Tschaplinski, Daniel Jacobson, John Lagergren, Matthew Lane, Chris O’Brien, H. B. Chhetri, Mengjun Shu, Peter Freer-Smith, Thomas N. Buckley, T. S. Magney, J. G. Monroe, G. Tuskan, Gail Taylor
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Abstract

Identifying the genetic basis of traits underlying climate adaptation remains a key goal for predicting species responses to climate change, enabling the elucidation of gene targets for future climate-resilient crops. Here, we measured 14 leaf and stomatal traits under control (well-watered) and drought conditions, subsampling a diversity collection of over 1,300 Populus trichocarpa genotypes, a potential biofuel feedstock crop. Stomatal traits were correlated with the climate of origin for genotypes, such that those originating from environments subject to water deficit tended to have smaller stomata, but with higher density. Stomatal traits were also correlated with leaf morphology, with larger leaves having larger stomata and lower stomatal density mirrored in correlations to climate of origin. The direction of plastic responses - reduced stomatal size under drought - mirrors the correlations seen among genotypes with respect to the aridity of environmental origin. Genome-Wide Association Studies (GWAS) identified loci underlying trait diversity, including candidates contributing to stomatal size. We used climate of origin to predict stomatal size in genotypes with unknown trait values and found that these predicted phenotypes confirmed empirically measured allele effects. Finally, we found evidence that future climates may select for alleles contributing to decreased stomatal size, with the strength of selection depending on the availability of moisture. These findings reveal adaptive variation in stomatal and physiological traits along with underlying genetic loci, with implications for future selection and breeding - providing insights into the responses to future climate change. Highlight Research on Populus trichocarpa reveals adaptation of physiological and stomatal traits linked to drought tolerance, with genotypes from arid regions exhibiting smaller stomata, offering insights for climate change adaptation and sustainable biofuel production.
P.trichocarpa的气候适应性:确定气孔和叶片性状的关键适应基因位点
确定气候适应性性状的遗传基础仍然是预测物种对气候变化反应的一个关键目标,这有助于阐明未来气候适应性作物的基因靶标。在这里,我们测量了在对照(水分充足)和干旱条件下的14个叶片和气孔性状,并对超过1300个毛白杨基因型(一种潜在的生物燃料原料作物)的多样性集合进行了取样。气孔性状与基因型的原产地气候相关,因此那些来自缺水环境的基因型往往气孔较小,但密度较高。气孔特征还与叶片形态相关,叶片越大,气孔越大,气孔密度越低,这与原产地气候相关。可塑性反应的方向--干旱时气孔缩小--反映了基因型与原产地干旱环境的相关性。全基因组关联研究(GWAS)确定了性状多样性的基因位点,包括导致气孔大小的候选基因。我们利用原产地气候来预测具有未知性状值的基因型的气孔大小,并发现这些预测的表型证实了经验测得的等位基因效应。最后,我们发现有证据表明,未来的气候可能会选择导致气孔缩小的等位基因,选择的强度取决于水分的可用性。这些发现揭示了气孔和生理性状的适应性变异以及潜在的遗传位点,对未来的选择和育种具有重要意义--提供了对未来气候变化响应的见解。亮点 对毛白杨(Populus trichocarpa)的研究揭示了与耐旱性相关的生理和气孔性状的适应性,干旱地区的基因型表现出较小的气孔,为适应气候变化和可持续生物燃料生产提供了启示。
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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