Combining distribution modelling and phylogeography to understand present, past and future of an endangered spider.

IF 2.3 Q2 ECOLOGY
Filippo Milano, Gabriele Casazza, Andrea Galimberti, Davide Maggioni, Marco Isaia
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Abstract

Background: Understanding how endangered species respond to climatic changes is fundamental for their conservation. Due to its restricted geographic range, its sensitivity to the ongoing global warming and its continuing decline, the Southwestern-Alpine endemic wolf spider Vesubia jugorum is currently classified as Endangered in the IUCN Red List. Here, we combined species distribution modelling (SDM) and phylogeographic inference to describe the present, the past and the future of this species in light of the mtDNA genetic structure of extant populations.

Results: Phylogenetic and network analyses show a high level of genetic differentiation and a strong genetic structure of the populations, likely explicable by a long history of isolation and survival in separate refugia. The SDM projection into past climatic conditions supports these results by showing a smaller distribution range compared to present, mostly restricted to the Maritime and Ligurian Alps, which possibly served as main refugium. Future forecast shows a significant shift in the bioclimatic range towards higher altitudes and latitudes, with a drastic decrease of habitat suitability in the central and south-eastern parts of the range, with consequent general loss of haplotype diversity.

Conclusion: SDM and phylogeographic inference support the hypothesis that the current distribution and the genetic structure of the extant populations mirror the survival in situ of Vesubia jugorum across repeated glacial and interglacial phases, in line with the 'long-term stability hypothesis'. Future predictions show a significant shift in the bioclimatic range that V. jugorum will be likely unable to track, with profound impact on its long-term survival and its genetic diversity. Our considerations have implication for conservation genetics, highlighting the pivotal role of the transboundary protected areas of the SW-Alps in promoting conservation efforts for this species.

Abstract Image

结合分布模型和系统地理学,了解一种濒危蜘蛛的现在、过去和未来。
背景:了解濒危物种如何应对气候变化是保护它们的基础。西南阿尔卑斯山特有种狼蛛(Vesubia jugorum)由于其有限的地理范围、对全球变暖的敏感性以及持续的衰退,目前在世界自然保护联盟(IUCN)红色名录中被列为濒危物种。在这里,我们结合物种分布建模(SDM)和系统地理推断,根据现存种群的 mtDNA 遗传结构来描述该物种的现在、过去和未来:结果:系统发生学和网络分析显示,该物种种群的遗传分化程度较高,遗传结构较强,这可能与长期隔离和在不同的避难所生存有关。对过去气候条件的 SDM 预测也支持这些结果,预测结果显示,与现在相比,该物种的分布范围较小,主要局限于滨海阿尔卑斯山脉和利古里亚阿尔卑斯山脉,这两个地区可能是主要的避难所。未来预测显示,生物气候范围将向高海拔和高纬度地区显著转移,该地区中部和东南部的栖息地适宜性将急剧下降,从而导致单倍型多样性的普遍丧失:SDM和系统地理学推论支持以下假设:现存种群的分布和遗传结构反映了Vesubia jugorum在多次冰川期和间冰期的原地生存情况,符合 "长期稳定假设"。对未来的预测表明,Vesubia jugorum的生物气候范围将发生重大变化,而Vesubia jugorum很可能无法跟踪这一变化,这将对其长期生存和遗传多样性产生深远影响。我们的研究对保护遗传学具有重要意义,突出了西南阿尔卑斯地区跨境保护区在促进该物种保护工作中的关键作用。
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