预测生物多样性热点地区气候变暖对河流鱼类物种多样性的影响。

Predicting climate heating impacts on riverine fish species diversity in a biodiversity hotspot region.

机构信息

Department of Biodiversity and Ecosystem Management, Environmental Sciences Research Institute, Shahid Beheshti University, Tehran, Iran.

The Center for Remote Sensing and Geographic Information System Research, Faculty of Earth Sciences, Shahid Beheshti University, Tehran, Iran.

出版信息

Sci Rep. 2023 Sep 1;13(1):14347. doi: 10.1038/s41598-023-41406-9.

DOI:10.1038/s41598-023-41406-9

PMID:37658153

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10474041/

Abstract

Co-occurring biodiversity and global heating crises are systemic threats to life on Earth as we know it, especially in relatively rare freshwater ecosystems, such as in Iran. Future changes in the spatial distribution and richness of 131 riverine fish species were investigated at 1481 sites in Iran under optimistic and pessimistic climate heating scenarios for the 2050s and 2080s. We used maximum entropy modeling to predict species' potential distributions by hydrologic unit (HU) occupancy under current and future climate conditions through the use of nine environmental predictor variables. The most important variable determining fish occupancy was HU location, followed by elevation, climate variables, and slope. Thirty-seven species were predicted to decrease their potential habitat occupancy in all future scenarios. The southern Caspian HU faces the highest future species reductions followed by the western Zagros and northwestern Iran. These results can be used by managers to plan conservational strategies to ease the dispersal of species, especially those that are at the greatest risk of extinction or invasion and that are in rivers fragmented by dams.

摘要

生物多样性和全球变暖危机并存，对我们所知的地球上的生命构成系统性威胁，尤其是在伊朗等相对罕见的淡水生态系统中。在乐观和悲观的气候加热情景下，研究了未来 2050 年代和 2080 年代伊朗 1481 个地点的 131 种河流鱼类物种的空间分布和丰富度的变化。我们使用最大熵模型，通过使用九个环境预测变量，根据水文单元（HU）的占有情况，预测了物种在当前和未来气候条件下的潜在分布。决定鱼类占有情况的最重要变量是 HU 的位置，其次是海拔、气候变量和坡度。在所有未来情景中，有 37 种物种预计将减少其潜在栖息地占有量。里海南部 HU 面临着未来物种减少的最高风险，其次是西部扎格罗斯山脉和伊朗西北部。这些结果可被管理者用来规划保护策略，以缓解物种的扩散，尤其是那些面临最大灭绝或入侵风险、且因大坝而使河流破碎的物种。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e86e/10474041/9a7b65ede9db/41598_2023_41406_Fig1_HTML.jpg

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预测生物多样性热点地区气候变暖对河流鱼类物种多样性的影响。

Predicting climate heating impacts on riverine fish species diversity in a biodiversity hotspot region.

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