Common garden experiments and SNP genotyping at the extremes of a steep precipitation gradient suggest local adaptation in a Patagonian conifer

IF 2.3 2区生物学 Q2 PLANT SCIENCES

Botanical Journal of the Linnean Society Pub Date : 2024-03-05 DOI:10.1093/botlinnean/boae008

Mariana Fasanella, Cintia P Souto, Thomas Kitzberger, Andrea C Premoli

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引用次数: 0

Abstract

Plants inhabiting contrasting physical conditions might develop local adaptations overriding the homogenizing effects of gene flow. Hypotheses of local adaptation on phenotypic, genomic, and environmental variation under extreme precipitation regimes were tested in the Patagonian conifer Austrocedrus chilensis. Common garden experiments on progeny and genotype-to-environment association analysis on adults were conducted. Samples consisting of seeds and leaves from adult trees were collected from contrasting dry (DF) and humid (HF) forests along a steep but short precipitation gradient. Seeds were germinated and seedlings were grown under common garden conditions for 24 months. DNA was extracted from 75 randomly selected trees from DF and HF, and genotyped by sequencing to obtain single-nucleotide polymorphisms (SNPs). Seedlings from HF outgrew DF ones suggesting genetically based differences. Twenty-four outlier SNP loci differed between DF and HF, whereas neutral genes (3242) showed high levels of admixture. Eight out of the 24 outlier SNPs aligned with transcripts, half of them related to drought stress responses, and principal component analysis identified four precipitation-related marker–climate associations. Quantitative and genomic traits suggested that natural selection maintains divergence under contrasting climatic conditions regardless high gene flow. This underscores the importance of dry forests as reservoirs of drought-tolerant variants to cope with forecasted climate change.

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陡峭降水梯度极端地区的普通花园实验和 SNP 基因分型表明巴塔哥尼亚针叶树的局部适应性

居住在不同物理条件下的植物可能会产生局部适应性，从而克服基因流动的同质化效应。我们在巴塔哥尼亚针叶树Austrocedrus chilensis中测试了极端降水条件下表型、基因组和环境变异的局部适应性假设。对后代进行了普通花园实验，对成株进行了基因型与环境关联分析。样本包括成树的种子和树叶，采集自陡峭但较短的降水梯度上的干燥（DF）和潮湿（HF）森林。种子发芽后，幼苗在普通园林条件下生长了 24 个月。从 DF 和 HF 中随机选取 75 棵树提取 DNA，并通过测序进行基因分型，以获得单核苷酸多态性（SNPs）。HF的幼苗长势优于DF的幼苗，这表明两者之间存在基因差异。24 个离群 SNP 位点在 DF 和 HF 之间存在差异，而中性基因（3242 个）则显示出高度的混杂性。24 个离群 SNP 中的 8 个与转录本对齐，其中一半与干旱胁迫反应有关，主成分分析确定了 4 个与降水有关的标记-气候关联。定量性状和基因组性状表明，无论基因如何流动，自然选择都能维持气候条件对比下的分化。这凸显了干旱森林作为耐旱变种库对于应对预测的气候变化的重要性。

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来源期刊

Botanical Journal of the Linnean Society 生物-植物科学

CiteScore

5.70

自引率

8.30%

发文量

审稿时长

3.5 months

期刊介绍： The Botanical Journal of the Linnean Society publishes original papers on systematic and evolutionary botany and comparative studies of both living and fossil plants. Review papers are also welcomed which integrate fields such as cytology, morphogenesis, palynology and phytochemistry into a taxonomic framework. The Journal will only publish new taxa in exceptional circumstances or as part of larger monographic or phylogenetic revisions.