豆科植物 Amherstieae 部族的生态位保守性:从热带柏林亚科和眉毛亚科获得的启示

Ingrid C. Romero, Surangi W. Punyasena
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摘要

生态位保守概念描述了生物在时间和空间上保持生态特征的趋势。在不同的被子植物类群中回顾这一概念,对于了解是什么因素推动了它们的扩张和地理分布,以及评估在比物种更高的分类级别中,生态特征是如何在时间和空间上保持相对不变的,都是至关重要的。研究生态位保守性还有助于我们了解支系的分布如何受到气候变化的影响。在豆科植物的许多支系中都观察到了生态位保守性。Amherstieae是豆科(Detarioideae)亚科中最大的一个支系,其地理分布、进化历史和系统发育使其成为评估生态位保守性模式的一个很好的候选支系。我们分析了两个Amherstieae超属支系的分布,即Berlinia和Brownea支系。前者是撒哈拉以南非洲的特有种,后者则局限于新热带地区。我们利用每个支系的地理分布来定义它们的 G 空间(地理空间),并提取 19 个气候变量来定义每个支系的 E 空间(环境空间)。我们使用了两种检验方法来评估两个支系气候生态位的相似性,即生态位重叠检验(NOT)和生态位分异检验(NDT),前者用于估算所占据的 E 空间(实现的生态位空间)之间的相似性,后者用于评估环境生态位相对于每个生物地理区域可获得的类似 E 空间(潜在的生态位空间)的相似性。我们的研究结果表明,Brownea 支系是喜好较低温度变化和较高降水量的柏林藻支系气候亚群的后裔,而适应干旱的柏林藻亚群可能代表了较新的进化扩展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Niche conservatism in the Legume Amherstieae tribe: Insights from the tropical Berlinia and Brownea clades
The concept of niche conservatism describes the tendency of organisms to retain ecological traits through time and space. Reviewing this concept in different groups of angiosperms is critical to understanding what factors drove their expansion and geographic distribution, as well as assessing how, in taxonomic levels higher than species, ecological traits have remained relatively constant through time and space. Studying niche conservatism can also help us understand how the distribution of clades may be affected by climate change. Niche conservatism has been observed in many clades of legumes. Amherstieae, the largest tribe of the Detarioideae subfamily, has a geographic distribution, evolutionary history, and phylogeny that makes it a good candidate for evaluating patterns in niche conservatism. We analyzed the distribution of two Amherstieae suprageneric clades, the Berlinia and Brownea clades. The former is endemic to sub-Saharan Africa and the latter is restricted to the Neotropics. We used the geographic distributions of each clade to define their G-space (geographic space) and extracted 19 climatic variables to define the E-space (environmental space) of each clade. We used two tests to evaluate the similarity in the climatic niche of both clades, the niche overlap test (NOT) to estimate similarities between the occupied E-spaces (realized niche space) and the niche divergence test (NDT) to assess the similarity of the environmental niche relative to the accessible analogous E-space (potential niche space) of each biogeographic region. Our results suggest that the Brownea clade are descendants of a climatic subset of the Berlinia clade preferring less variable temperature and higher precipitation levels, and that the dry-adapted subset of Berlinia may represent a more recent evolutionary expansion.
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