The two chytrid pathogens of amphibians in Eurasia-climatic niches and future expansion.

Dan Sun, Gajaba Ellepola, Jayampathi Herath, Madhava Meegaskumbura
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引用次数: 1

Abstract

Background: Climate affects the thermal adaptation and distribution of hosts, and drives the spread of Chytridiomycosis-a keratin-associated infectious disease of amphibians caused by the sister pathogens Batrachochytrium dendrobatidi (Bd) and B. salamandrivorans (Bsal). We focus on their climate-pathogen relationships in Eurasia, the only region where their geographical distributions overlap. Eurasia harbours invaded and native areas of both pathogens and the natural habitats where they co-exist, making it an ideal region to examine their environmental niche correlations. Our understanding of how climate change will affect their distribution is broadened by the differences in climate correlates and niche characteristics between Bd and Bsal in Asia and Europe. This knowledge has potential conservation implications, informing future spread of the disease in different regions.

Results: We quantified the environmental niche overlap between Bd and Bsal in Eurasia using niche analyses. Results revealed partial overlap in the niche with a unique 4% of non-overlapping values for Bsal, suggesting segregation along certain climate axes. Bd tolerates higher temperature fluctuations, while Bsal requires more stable, lower temperature and wetter conditions. Projections of their Realized Climatic Niches (RCNs) to future conditions show a larger expansion of suitable ranges (SRs) for Bd compared to Bsal in both Asia and Europe, with their centroids shifting in different directions. Notably, both pathogens' highly suitable areas in Asia are expected to shrink significantly, especially under the extreme climate scenarios. In Europe, they are expected to expand significantly.

Conclusions: Climate change will impact or increase disease risk to amphibian hosts, particularly in Europe. Given the shared niche space of the two pathogens across available climate gradients, as has already been witnessed in Eurasia with an increased range expansion and niche overlap due to climate change, we expect that regions where Bsal is currently absent but salamanders are present, and where Bd is already prevalent, may be conducive for the spread of Bsal.

Abstract Image

欧亚大陆两栖动物的两种壶菌病原体——气候生态位及其未来扩展。
背景:气候影响宿主的热适应和分布,并推动壶菌病的传播,壶菌病是一种角蛋白相关的两栖动物传染病,由姐妹病原体水蛭壶菌(Bd)和蝾螈菌(Bsal)引起。我们关注它们在欧亚大陆的气候病原体关系,这是它们地理分布重叠的唯一地区。欧亚大陆是病原体入侵地区和原生地区的港湾,也是病原体共存的自然栖息地,这使它成为研究病原体环境生态位相关性的理想区域。我们对气候变化如何影响它们分布的理解,因亚洲和欧洲双翅虫和双翅虫在气候相关物和生态位特征上的差异而拓宽。这一知识具有潜在的保护意义,为该疾病未来在不同地区的传播提供信息。结果:利用生态位分析方法量化了欧亚大陆双栖和双栖生物的生态位重叠。结果显示,生态位存在部分重叠,Bsal的非重叠值仅为4%,表明在某些气候轴上存在分离。Bd可以承受较大的温度波动,而Bsal则需要更稳定、更低温度和更潮湿的条件。对已实现气候生态位(RCNs)对未来条件的预估显示,亚洲和欧洲的生物多样性适宜范围(SRs)比生物多样性适宜范围(SRs)扩大得更大,其质心向不同方向移动。值得注意的是,这两种病原体在亚洲的高度适宜地区预计将大幅缩小,特别是在极端气候情景下。在欧洲,它们预计将大幅扩张。结论:气候变化将影响或增加两栖动物宿主的疾病风险,特别是在欧洲。鉴于这两种病原体在不同的气候梯度上共享生态位空间,正如在欧亚大陆已经看到的那样,由于气候变化,范围扩大和生态位重叠,我们预计,目前没有Bsal但有蝾螈的地区,以及Bsal已经普遍存在的地区,可能有利于Bsal的传播。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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