Resistance potential of soil bacterial communities along a biodiversity gradient in forest ecosystems.

IF 4.5 Q1 MICROBIOLOGY mLife Pub Date : 2022-11-03 eCollection Date: 2022-12-01 DOI:10.1002/mlf2.12042
Jialiang Kuang, Dongmei Deng, Shun Han, Colin T Bates, Daliang Ning, Wensheng Shu, Jizhong Zhou
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Abstract

Higher biodiversity is often assumed to be a more desirable scenario for maintaining the functioning of ecosystems, but whether species-richer communities are also more disturbance-tolerant remains controversial. In this study, we investigated the bacterial communities based on 472 soil samples from 28 forests across China with associated edaphic and climatic properties. We developed two indexes (i.e., community mean tolerance breadth [CMTB] and community mean response asynchrony [CMRA]) to explore the relationship between diversity and community resistance potential. Moreover, we examined this resistance potential along the climatic and latitudinal gradients. We revealed that CMTB was significantly and negatively related to species richness, resulting from the changes in balance between relative abundances of putative specialists and generalists. In comparison, we found a unimodal relationship between CMRA and richness, suggesting that higher biodiversity might not always lead to higher community resistance. Moreover, our results showed differential local patterns along latitude. In particular, local patterns in the northern region mainly followed general relationships rather than those for the southern forests, which may be attributed to the differences in annual means and annual variations of climate conditions. Our findings highlight that the community resistance potential depends on the composition of diverse species with differential environmental tolerance and responses. This study provides a new, testable evaluation by considering tolerance breadth and response asynchrony at the community level, which will be helpful in assessing the influence of disturbance under rapid shifts in biodiversity and species composition as a result of global environmental change.

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森林生态系统中土壤细菌群落沿生物多样性梯度的抗逆潜力。
较高的生物多样性通常被认为是维持生态系统功能的一种更理想的情况,但物种更丰富的群落是否也更耐受干扰仍存在争议。在本研究中,我们基于来自中国 28 个森林的 472 份土壤样本,对细菌群落进行了调查,并分析了相关的气候和土壤特性。我们建立了两个指数(即群落平均耐受广度[CMTB]和群落平均响应异步性[CMRA])来探讨多样性与群落抗逆潜力之间的关系。此外,我们还沿气候和纬度梯度研究了这种抗性潜力。我们发现,CMTB 与物种丰富度呈显著负相关,这是由于假定的专性物种和通性物种的相对丰度之间的平衡发生了变化。相比之下,我们发现 CMRA 与物种丰富度之间存在单峰关系,这表明生物多样性越高,群落抗逆性也就越高。此外,我们的研究结果还显示出不同纬度的局部模式。特别是,北部地区的局部模式主要遵循一般关系,而不是南部森林的一般关系,这可能是由于气候条件的年平均值和年变化的差异造成的。我们的研究结果突出表明,群落的抵抗潜力取决于具有不同环境耐受性和反应的不同物种的组成。这项研究通过考虑群落水平上的耐受广度和响应异步性,提供了一种新的、可检验的评估方法,这将有助于评估在全球环境变化导致生物多样性和物种组成快速变化的情况下干扰的影响。
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