模拟升温条件下社会变形虫共生关系的丧失与恢复力

Loss and resiliency of social amoeba symbiosis under simulated warming.

作者信息

Shu Longfei, Qian Xinye, Brock Debra A, Geist Katherine S, Queller David C, Strassmann Joan E

机构信息

Environmental Microbiomics Research Center School of Environmental Science and Engineering Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai) Sun Yat-sen University Guangzhou China.

Department of Biology Washington University in St. Louis St. Louis MO USA.

出版信息

Ecol Evol. 2020 Oct 20;10(23):13182-13189. doi: 10.1002/ece3.6909. eCollection 2020 Dec.

DOI:10.1002/ece3.6909

PMID:33304528

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7713973/

Abstract

Anthropogenic global change is increasingly raising concerns about collapses of symbiotic interactions worldwide. Therefore, understanding how climate change affects symbioses remains a challenge and demands more study. Here, we look at how simulated warming affects the social ameba and its relationship with its facultative bacterial symbionts, and . We cured and cross-infected ameba hosts with different symbionts. We found that warming significantly decreased fitness, and we found no sign of local adaptation in two wild populations. Experimental warming had complex effects on these symbioses with responses determined by both symbiont and host. Neither of these facultative symbionts increases its hosts' thermal tolerance. The nearly obligate symbiont with a reduced genome, , actually decreases thermal tolerance and even causes symbiosis breakdown. Our study shows how facultative symbioses may have complex responses to global change.

摘要

人为引起的全球变化日益引发人们对全球共生相互作用崩溃的担忧。因此，了解气候变化如何影响共生关系仍然是一项挑战，需要更多的研究。在这里，我们研究模拟变暖如何影响社会性变形虫及其与兼性细菌共生体的关系。我们用不同的共生体治愈并交叉感染了变形虫宿主。我们发现变暖显著降低了[变形虫名称]的适合度，并且在两个野生种群中未发现局部适应的迹象。实验性变暖对这些共生关系产生了复杂的影响，其反应由共生体和宿主共同决定。这两种兼性共生体都没有提高其宿主的耐热性。基因组减小的近乎专性的共生体[共生体名称]实际上降低了[宿主名称]的耐热性，甚至导致共生关系破裂。我们的研究表明兼性共生关系可能对全球变化有复杂的反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9831/7713973/d098665c7532/ECE3-10-13182-g001.jpg

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Symbiont switching and alternative resource acquisition strategies drive mutualism breakdown.共生体转换和替代资源获取策略导致共生关系破裂。

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模拟升温条件下社会变形虫共生关系的丧失与恢复力

Loss and resiliency of social amoeba symbiosis under simulated warming.

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