Classic Hypotheses of Area, Time, and Climatic Stability Fall Short in Explaining High Tropical Species Richness

IF 3.4 2区环境科学与生态学 Q2 ECOLOGY

Journal of Biogeography Pub Date : 2025-03-26 DOI:10.1111/jbi.15126

Sofía Galván, Sara Varela, Sara Gamboa

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引用次数: 0

Abstract

Aim

Tropical biodiversity overshadows the number of species inhabiting other regions. Age, area, and stability constitute three classical ideas used to explain the higher richness in these warm and humid zones. In this study, we measured the global dynamics of tropical, arid, temperate, cold, and polar climate zones over the last 5 million years (Ma). We aimed to evaluate whether the age, area, and stability of these climate zones contribute to explain the observed differences in species richness.

Location

Global land.

Taxa

Amphibians, birds, and mammals.

Methods

We classified the paleoclimatic layers generated by the PALEO-PGEM climatic emulator—temperature and precipitation for the last 5 Ma at 1000-year intervals—into the main Köppen-Geiger climate zones: tropical, arid, temperate, cold, and polar. We then calculated three variables: age, area, and stability. Age represents the duration that each map cell has remained within its current climate zone since its last change (map cell-based measure). Area quantifies the total extent of each climate zone over time by summing all map cells corresponding to that climate zone (climate zone-based measure). Stability indicates the number of times a given map cell changed between climate zones over time (map cell-based measure). We implemented regression and correlation tests, Structural Equation Models, and decision trees to measure the relationship between these estimates and current global patterns of amphibian, bird, and mammal richness.

Results

Our results indicate that age, area, and stability do not account for the observed differences in species richness among the 5 climate zones.

Main Conclusions

None of these classical hypotheses alone can explain the high vertebrate tropical richness observed. Further investigation, incorporating additional taxa (e.g. invertebrates or plants), or integrating new perspectives (such as the influence of local variations in diversification processes) will provide a more comprehensive understanding of the factors shaping large-scale biodiversity patterns.

Abstract Image

查看原文本刊更多论文

区域、时间和气候稳定性的经典假设不足以解释热带物种的高丰富度

热带地区的生物多样性使生活在其他地区的物种数量相形见绌。年龄、面积和稳定性构成了解释这些温暖潮湿地区较高丰富度的三个经典观点。在这项研究中，我们测量了过去500万年热带、干旱、温带、寒冷和极地气候带的全球动态（Ma）。我们的目的是评估这些气候带的年龄、面积和稳定性是否有助于解释观察到的物种丰富度差异。全球土地。分类群两栖动物、鸟类和哺乳动物。方法利用PALEO-PGEM气候模拟器（近5 Ma 1000 a的温度和降水）生成的古气候层，将其划分为热带、干旱、温带、寒冷和极地等主要Köppen-Geiger气候带。然后我们计算了三个变量：年龄、面积和稳定性。年龄表示自上次变化以来每个地图单元保持在其当前气候带内的持续时间（基于地图单元的测量）。面积通过将与该气候带相对应的所有地图单元相加（基于气候带的测量）来量化每个气候带随时间的总范围。稳定性表示给定地图单元随时间在气候带之间变化的次数（基于地图单元的度量）。我们使用回归和相关测试、结构方程模型和决策树来衡量这些估计与当前全球两栖动物、鸟类和哺乳动物丰富度格局之间的关系。结果5个气候带物种丰富度的差异不受年龄、面积和稳定性的影响。这些经典的假设都不能单独解释热带地区脊椎动物的丰富度。进一步的调查，包括更多的分类群（如无脊椎动物或植物），或整合新的观点（如多样化过程中的局部变化的影响），将提供对形成大规模生物多样性格局的因素的更全面的理解。

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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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.