实验池塘网络连接性的丧失导致微生物群落生物多样性的丧失

Beáta Szabó, Máté Váczy-Földi, Csaba F. Vad, Károly Pálffy, Thu-Hương Huỳnh, Péter Dobosy, Ádám Fierpasz, Zsuzsanna Márton, Tamás Felföldi, Zsófia Horváth
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引用次数: 0

摘要

栖息地破碎化是全球生物多样性面临的最重要威胁之一,然而,包括连通性丧失在内的各种因素对栖息地破碎化的直接影响却鲜为人知。在微生物群落中,我们对这些驱动因素的了解尤其有限。在这里,我们通过对人工池塘(中观宇宙)元群落进行为期四个月的室外实验,研究了连通性丧失对浮游原核生物和微真核细胞群落的影响。在保持栖息地数量不变和非生物环境均质的情况下,通过停止局部栖息地之间的扩散来模拟连通性丧失。我们发现,连通性的丧失导致了更高程度的灭绝,并降低了微真核细胞的局部和区域多样性。相比之下,原核生物的多样性模式基本未受影响,但有一些灭绝债务的迹象。连通性的丧失还导致微真核细胞的均匀度降低,这可能是由于与浮游动物食草动物的生物相互作用发生了变化。我们的研究结果表明,连通性的丧失可直接转化为群落中物种的减少,并强调了保护在当地栖息地之间有足够扩散能力的栖息地网络的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Connectivity loss in experimental pond networks leads to biodiversity loss in microbial communities
Habitat fragmentation is among the most important global threats to biodiversity, however, the direct effects of its components including connectivity loss are still lesser known. Our understanding of these drivers is especially limited in microbial communities. Here, by conducting a four-month outdoor experiment with artificial pond (mesocosm) metacommunities, we studied the effects of connectivity loss on planktonic prokaryote and microeukaryote communities. Connectivity loss was simulated by stopping the dispersal among local habitats while keeping the habitat amount constant and the abiotic environment homogeneous. We found that connectivity loss led to higher levels of extinction and a decrease in both local and regional diversity in microeukaryotes. In contrast, diversity patterns of prokaryotes remained largely unaffected, with some indications of extinction debt. Connectivity loss also led to lower evenness in microeukaryotes, likely through changes in biotic interactions with zooplankton grazers. Our results imply that connectivity loss can directly translate into species losses in communities and highlight the importance of conserving habitat networks with sufficient dispersal among local habitats.
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