岩溶洞穴栖息地的环境特异性从石龙子目动物的多种共生细菌中可见一斑。

IF 2.3 Q2 ECOLOGY BMC ecology and evolution Pub Date : 2024-05-08 DOI:10.1186/s12862-024-02248-9
Likun Zhao, Ruoyi Xiao, Shanfeng Zhang, Chao Zhang, Feng Zhang
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摘要

背景:岩溶洞穴是天然的实验室,它为生物提供了极端和恒定的条件,促进了生物的隔离,导致生物的遗传关系和生活环境与洞穴外的生物明显不同。然而,关于洞穴生物,尤其是石龙子的研究仍然很少,大多数研究都集中在水、土壤和洞穴沉积物上:结果:比较了不同洞穴中共生细菌的结构,发现它们之间存在显著差异。根据α和β多样性,洞穴内共生细菌的数量和多样性相似,但洞穴内外共生细菌的结构不同。洞穴中的微生物在物质循环和能量流动中发挥着重要作用,尤其是在氮循环中。虽然洞穴内外的微生物多样性不同,但北京洞穴和海南岛的裸鲤表现出很强的相似性,表明两种环境具有共性:结论:岩溶洞穴环境具有很高的微生物多样性,不同洞穴之间存在明显差异。结论:岩溶洞穴环境微生物多样性较高,不同洞穴之间存在明显差异,不同生境导致洞穴内外裸子植物共生细菌存在显著差异,洞穴微生物为适应极端环境做出了努力。共生细菌群落结构的相似性表明了宿主环境的潜在相似性,这为北方洞穴中出现貂蝉提供了解释。
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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Environmental specificity of karst cave habitats evidenced by diverse symbiotic bacteria in Opiliones.

Background: Karst caves serve as natural laboratories, providing organisms with extreme and constant conditions that promote isolation, resulting in a genetic relationship and living environment that is significantly different from those outside the cave. However, research on cave creatures, especially Opiliones, remains scarce, with most studies focused on water, soil, and cave sediments.

Results: The structure of symbiotic bacteria in different caves were compared, revealing significant differences. Based on the alpha and beta diversity, symbiotic bacteria abundance and diversity in the cave were similar, but the structure of symbiotic bacteria differed inside and outside the cave. Microorganisms in the cave play an important role in material cycling and energy flow, particularly in the nitrogen cycle. Although microbial diversity varies inside and outside the cave, Opiliones in Beijing caves and Hainan Island exhibited a strong similarity, indicating that the two environments share commonalities.

Conclusions: The karst cave environment possesses high microbial diversity and there are noticeable differences among different caves. Different habitats lead to significant differences in the symbiotic bacteria in Opiliones inside and outside the cave, and cave microorganisms have made efforts to adapt to extreme environments. The similarity in symbiotic bacteria community structure suggests a potential similarity in host environments, providing an explanation for the appearance of Sinonychia martensi in caves in the north.

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