Disentangling the Evolutionary History of the Woody Species in Earth's Most Diverse Tropical Savanna

IF 3.4 2区环境科学与生态学 Q2 ECOLOGY

Journal of Biogeography Pub Date : 2025-05-20 DOI:10.1111/jbi.15160

Vanessa Pontara, Kyle G. Dexter, Vanessa Leite Rezende, Valéria Flávia Batista da Silva, Prímula Viana Campos, Marcelo Leandro Bueno

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引用次数: 0

Abstract

Aim

We investigate the evolutionary structure of vegetation assemblages in the Cerrado Domain, the main extent of savanna in the American Tropics, a biodiversity hotspot, to understand the role of ecological and geographical factors in constraining plant diversification and shaping biogeographic patterns across this complex mosaic of environments. We test the following predictions: (1) savanna assemblages form a distinct evolutionary group, rather than grouping with forest assemblages from adjacent biogeographic regions; (2) moist forests contain the highest phylogenetic diversity, followed by dry forests and savannas and (3) edaphic variables are stronger predictors of evolutionary group differentiation than climatic variables.

Location

Cerrado, Brazil.

Methods

Our data set comprises 3072 tree species, belonging to 656 genera and 151 families, found across 1165 assemblages. We used a phylogenetically informed ordination analysis to place assemblages in a multivariate space, followed by K-means clustering to identify the main evolutionary groups of tree assemblages. To determine which environmental variables were associated with the evolutionary groups found, we implemented classification tree approaches. We quantified both the unique and shared phylogenetic diversity among evolutionary groups and identified the lineages most strongly associated with each evolutionary group using an indicator analysis.

Results

We find a clear evolutionary differentiation between savanna and forest assemblages, pointing to the importance of fire and water availability in driving turnover in evolutionary lineage composition of tree communities in the Cerrado Domain. When dividing assemblages into three evolutionary groups, the forest group splits into deciduous versus evergreen/semideciduous subgroups. The evergreen and semideciduous forests harbour the highest overall and unique phylogenetic diversity, and deciduous forests the second highest, but the savanna group also contains a significant portion of unique woody angiosperm evolutionary diversity.

Conclusions

We identified that savannas assemblages constitute a distinct evolutionary group. Tree species that can inhabit fire-prone areas belong to a restricted set of phylogenetic lineages, giving the savannas in the Cerrado Domain a unique evolutionary identity. Dry forests also constitute a unique evolutionary group. Given the marked evolutionary variation of tree assemblages across the Cerrado Domain, it is imperative to recognise and address the specific conservation challenges faced by each group (savanna, evergreen and semideciduous forest and tropical dry forest) to ensure the preservation of this biodiversity hotspot.

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解开地球上最多样化的热带稀树草原上木本物种的进化史

目的研究美洲热带稀树草原主要区域塞拉多域（Cerrado Domain）植被组合的演化结构，以了解生态和地理因素在这一复杂环境中对植物多样性的制约和生物地理格局的塑造。结果表明：(1)热带稀树草原组合形成了一个独特的进化类群，而不是与邻近生物地理区域的森林组合形成类群；(2)湿润森林具有最高的系统发育多样性，其次是干燥森林和稀树草原；(3)土壤变量比气候变量更能预测进化类群的分化。地点：巴西塞拉多。方法本研究共收集了1165个类群，隶属于151科656属的3072个树种。我们使用系统发育信息排序分析将组合放置在多元空间中，然后使用K-means聚类来确定树组合的主要进化群体。为了确定哪些环境变量与发现的进化群体相关，我们实现了分类树方法。我们量化了进化群体之间独特的和共有的系统发育多样性，并使用指标分析确定了与每个进化群体最密切相关的谱系。结果我们发现稀树草原和森林组合之间存在明显的进化差异，这表明在Cerrado区域，火和水的可用性在驱动树木群落进化谱系组成的更替中具有重要意义。当将组合划分为三个进化类群时，森林类群分为落叶亚群和常绿/半落叶亚群。常绿和半落叶林具有最高的整体和独特的系统发育多样性，其次是落叶林，但稀树草原类群也包含相当一部分独特的木本被子植物进化多样性。结论：我们发现稀树草原组合构成了一个独特的进化群体。可以栖息在火灾易发地区的树种属于一组有限的系统发育谱系，这使塞拉多地区的稀树草原具有独特的进化特征。干燥森林也构成了一个独特的进化群体。考虑到塞拉多地区树木组合的显著进化变化，必须认识到并解决每个群体（稀树草原，常绿和半落叶林以及热带干燥林）面临的具体保护挑战，以确保保护这一生物多样性热点。

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来源期刊

Journal of Biogeography 环境科学-生态学

CiteScore

7.70

自引率

5.10%

发文量

203

审稿时长

2.2 months

期刊介绍： Papers dealing with all aspects of spatial, ecological and historical biogeography are considered for publication in Journal of Biogeography. The mission of the journal is to contribute to the growth and societal relevance of the discipline of biogeography through its role in the dissemination of biogeographical research.