Spatial Connectivity Through Mountains and Deserts Drove South American Scorpions Dispersal

IF 3.4 2区环境科学与生态学 Q2 ECOLOGY Journal of Biogeography Pub Date : 2024-10-27 DOI:10.1111/jbi.15030

Jeison M. Barraza, Jorge Avaria-Llautureo, Marcelo M. Rivadeneira

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Abstract

Aim

The aim of this study is to infer the geographic dispersal paths and the environmental conditions that shaped the historical biogeography of Brachistosternus scorpions in South America. We evaluated the role that altitude and aridity had on the geographic distance that each species dispersed from the location of the genus common ancestor. Based on the previous studies, we evaluated the hypothesis postulating that species geographic expansion was promoted by arid conditions in high altitudes.

Location

South America.

Taxon

Brachistosternus genus.

Methods

We integrated two methodological approaches in this study, the phylogenetic Geographical model and the Conductance model, considering the uncertainty associated with the phylogenetic relationship and the species classification. The Geo model infers the locations of ancestral species in a phylogenetic tree, assuming a spherical space and using samples of georeferenced locations for every species as input data. It allows us to estimate the species dispersal routes and distances from the location of the genus common ancestor. The Conductance model is based on the circuit theory and infers the geographic route and distance of least resistance between an origin and destination point. We defined the origin as the location of the genus common ancestor obtained from the Geo model and a destination point as the current geographic location of each species. This model infers the geographic routes with the least cost of resistance for dispersal in a landscape of varying altitude and aridity. Finally, we evaluated the correlation between the two dispersal distances each species have moved from the location of the common ancestor, that is, the distance inferred from the Geo model and from the Conductance model.

Results

The Geo model shows that Brachistosternus's geographical origin was most likely along the coast of south Peru, and central Chile. From this location, extant species dispersed thorough routes ranging from 873 to 2800 km in average. The Conductance model that considers the routes with least resistance to elevation and aridity simulated dispersal distances that are highly correlated with the species dispersal distances obtained from the Geo model.

Main Conclusions

We revealed the geographic dispersal routes, with the least resistance to the pressures imposed by changes in altitude and aridity, that 55 species of scorpions have probably followed in the last 30 million years in South America. These geographic routes that went along the Andean Mountains and the arid zones of South America shaped the current spatial distribution of the genus Brachistosternus.

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目的本研究的目的是推断南美洲 Brachistosternus 蝎子的地理扩散路径和形成其历史生物地理学的环境条件。我们评估了海拔高度和干旱程度对各物种从该属共同祖先所在地向外扩散的地理距离所起的作用。根据之前的研究，我们评估了假设物种的地理扩张是由高海拔地区的干旱条件促进的。地点：南美洲分类群 Brachistosternus 属。方法考虑到系统发育关系和物种分类的不确定性，我们在本研究中整合了两种方法：系统发育地理模型和传导模型。地理模型假定是一个球形空间，使用每个物种的地理参照位置样本作为输入数据，推断系统发育树中祖先物种的位置。通过该模型，我们可以估算出物种的扩散路线以及与种属共同祖先位置的距离。传导模型以电路理论为基础，推断出起点和终点之间的地理路线和最小阻力距离。我们将原点定义为从 Geo 模型中获得的种属共同祖先的位置，终点定义为每个物种当前的地理位置。该模型可以推断出在不同海拔高度和干旱程度的地形中，阻力成本最小的地理扩散路线。最后，我们评估了每个物种从共同祖先所在地出发的两个扩散距离之间的相关性，即从地理模型和传导模型中推断出的距离。结果 Geo模型显示，Brachistosternus的地理起源很可能是秘鲁南部和智利中部沿海地区。现存物种从这一地点出发，平均扩散路线从 873 公里到 2800 公里不等。传导模型考虑了海拔和干旱阻力最小的路线，模拟的扩散距离与地理模型得出的物种扩散距离高度相关。主要结论我们揭示了南美洲 55 种蝎子在过去 3 千万年中可能走过的地理扩散路线，这些路线对海拔和干旱变化的压力阻力最小。这些沿着安第斯山脉和南美洲干旱地区的地理路线形成了蝎属目前的空间分布。

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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.

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