全球气候变化直接导致特有类群灭绝

Q3 Agricultural and Biological Sciences

Therya Pub Date : 2022-01-30 DOI:10.12933/therya-22-1210

Alina Gabriela Monroy-Gamboa, Leticia Cab-Sulub, S. T. Álvarez-Castañeda

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引用次数: 0

摘要

全球气候变化既有自然原因，也有人为原因。人为气候变化在各种尺度上都有影响，而且比物种适应这些变化的速度更快。自然保护区的建立是为了保护物种免受它们面临的各种威胁。拉古纳山脉是一座天空之岛，由于其自然隔离，几乎没有人为压力;它是几个特有的分类群的家园，包括真湖蚌和湖蚌。本研究旨在评估气候变化对一个几乎没有人为压力的天空岛特有物种的可能影响。塞拉拉古纳天空岛位于下加利福尼亚半岛的南部地区，拥有不同的植被类型，包括海拔最高的橡树松林和海拔较低的干旱植被。在温度升高1.5°C和4.4°C的三种气候变化情景下，建立了生态位模型。没有足够的地方来建立统计上可靠的哺乳动物物种模型。因此，我们选用了橡松林的典型植物种(松松、栎松和紫栎)和生长在干燥落叶林中的啮齿动物Peromyscus eva，以及与干旱生态系统相关的Chaetodipus rudinoris和C. spinatus。模型表明，橡树种的生态适宜性下降，而松树种的生态适宜性则完全丧失。另一方面，叶青拓宽了其海拔范围，而红叶青和棘叶青在面积和海拔上的生态适宜性均有所提高。拉古纳山脉天空岛是一个几乎没有区域或当地人为压力的地区。尽管如此，在各种气候变化情景下进行的预估表明，即使最低气温上升1.5°C，橡树松林特有物种的气候和海拔适宜性面积也会损失高达100%。这些结果表明，在这些条件下，尽管没有当地的人为压力，特有物种如P. t. lagunae和S. o. lagunae将会灭绝。

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Extinction of endemic taxa as a direct consequence of global climate change

Global climate change occurs from both natural and anthropic causes. Anthropic climate change has effects at various scales and occurs faster than the adaptation of species to these changes. Protected natural areas have been created to preserve species from the different threats facing them. Sierra La Laguna is a sky island with almost no anthropic pressure given its natural isolation; it is home to several endemic taxa, including Peromyscus truei lagunae and Sorex ornatus lagunae. This study aims to assess the possible impact of climate change on species endemic to a sky island exposed to virtually no local anthropic pressure. The Sierra La Laguna sky island, located in the southern region of the Baja California peninsula, harbors different vegetation types, including an oak-pine forest at the highest elevations and xeric vegetation at lower ones. Ecological niche models were developed under three climate change scenarios contemplating temperature rises of 1.5 °C and 4.4 °C. There are insufficient localities to make statistically robust models for mammalian species. Therefore, we used plant species typical of the oak-pine forest (Pinus cembroides lagunae, Quercus brandegeei, and Q. devia) and the rodents Peromyscus eva, that thrives in dry deciduous forests, and Chaetodipus rudinoris and C. spinatus, associated with xeric ecosystems. The models show that ecological suitability for the oak species decreases, while it is completely lost for the pine species. On the other hand, P. eva broadens its elevational range, while C. rudinoris and C. spinatus increase their ecological suitability in both area and elevation. The Sierra La Laguna sky island is an area with virtually no regional or local anthropic pressure. Nonetheless, the projections conducted under various climate change scenarios show a loss of up to 100 % of the area of climatic and elevational suitability for species characteristic of the oak-pine forest even with the minimum temperature rise of 1.5 °C. These results suggest that, under these conditions, endemic species such as P. t. lagunae and S. o. lagunae will become extinguished despite the absence of local anthropic pressures.

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来源期刊

Therya Agricultural and Biological Sciences-Animal Science and Zoology

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： THERYA aims to disseminate information and original and unpublished knowledge related to the study of mammals in all disciplines of knowledge. It is an open forum for teachers, researchers, professionals and students worldwide in which articles are published in Spanish and English.