Modelling the effects of climate and land-cover changes on the potential distribution and landscape connectivity of three earth snakes (Genus Conopsis, Günther 1858) in central Mexico

IF 2.1 3区生物学 Q2 MULTIDISCIPLINARY SCIENCES

The Science of Nature Pub Date : 2023-10-27 DOI:10.1007/s00114-023-01880-7

Armando Sunny, Javier Manjarrez, Carmen Caballero-Viñas, René Bolom-Huet, Yuriana Gómez-Ortiz, Hublester Domínguez-Vega, Rosa Laura Heredia-Bobadilla, Erik Joaquín Torres-Romero, Andrea González-Fernández

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Abstract

Anthropogenic land use and climate change are the greatest threats to biodiversity, especially for many globally endangered reptile species. Earth snakes (Conopsis spp.) are a poorly studied group endemic to Mexico. They have limited dispersal abilities and specialized niches, making them particularly vulnerable to anthropogenic threats. Species distribution models (SDMs) were used to assess how future climate and land-cover change scenarios might influence the distribution and habitat connectivity of three earth snakes: Conopsis biserialis (Taylor and Smith), C. lineata (Kennicott), and C. nasus (Günther). Two climate models, CNRM-CM5 (CN) and MPI-ESM-LR (MP) (Representative Concentration Pathway 85), were explored with ENMeval Maxent modelling. Important SDM environmental variables and environmental niche overlap between species were also examined. We found that C. biserialis and C. lineata were restricted by maximum temperatures whereas C. nasus was restricted by minimum ones and was more tolerant to arid vegetation. C. biserialis and C. lineata were primarily distributed in the valleys and mountains of the highlands of the TMBV, while C. nasus was mainly distributed in the Altiplano Sur (Zacatecano-Potosino). C. lineata had the smallest potential distribution and suffered the greatest contraction in the future whereas C. nasus was the least affected species in future scenarios. The Sierra de las Cruces and the Sierra Chichinautzin were identified as very important areas for connectivity. Our results suggest that C. lineata may be the most vulnerable of the three species to anthropogenic and climate changes whereas C. nasus seems to be less affected by global warming than the other species.

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气候和土地覆盖变化对墨西哥中部三种土蛇（Conopsis属，Günther 1858）潜在分布和景观连通性的影响建模。

人为的土地利用和气候变化是对生物多样性的最大威胁，尤其是对许多全球濒危爬行动物来说。土蛇（Conopsis spp.）是墨西哥特有的一个研究较少的类群。它们的扩散能力和专门的生态位有限，特别容易受到人为威胁。物种分布模型（SDMs）用于评估未来气候和土地覆盖变化情景可能如何影响三种土蛇的分布和栖息地连通性：双尾蛇（Taylor and Smith）、线尾蛇（Kennecott）和鼻尾蛇（Günther）。利用ENMeval Maxent模型对两个气候模型CNRM-CM5（CN）和MPI-ESM-LR（MP）（代表性浓度途径85）进行了探索。还研究了重要的SDM环境变量和物种之间的环境生态位重叠。我们发现双陆生C.biserialis和线性C.lineata受到最高温度的限制，而纳氏C.nasus受到最低温度的限制并且对干旱植被更具耐受性。C.biserialis和C.lineata主要分布在TMBV高地的山谷和山脉中，而C.nasus主要分布在Altiplano Sur（Zacatecano Potosino）。C.lineata的潜在分布最小，在未来遭受的收缩最大，而C.nasus是未来情景中受影响最小的物种。克拉塞斯山脉和奇奇纳乌津山脉被确定为非常重要的连通区域。我们的研究结果表明，C.lineata可能是三个物种中最容易受到人为和气候变化影响的物种，而C.nasus似乎比其他物种受全球变暖的影响更小。

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The Science of Nature 综合性期刊-综合性期刊

CiteScore

3.40

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0.00%

发文量

审稿时长

4-8 weeks

期刊介绍： The Science of Nature - Naturwissenschaften - is Springer''s flagship multidisciplinary science journal. The journal is dedicated to the fast publication and global dissemination of high-quality research and invites papers, which are of interest to the broader community in the biological sciences. Contributions from the chemical, geological, and physical sciences are welcome if contributing to questions of general biological significance. Particularly welcomed are contributions that bridge between traditionally isolated areas and attempt to increase the conceptual understanding of systems and processes that demand an interdisciplinary approach.