Invasion by red imported fire ants depletes soil microarthropod communities in agricultural systems

IF 4 2区 农林科学 Q2 SOIL SCIENCE
Saichao Zhang, Zhihong Qiao, Haifeng Yao, Zhipeng Li, Qibao Yan, Anton Potapov, Xin Sun
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引用次数: 0

Abstract

Biological invasion is one of the major challenges to changing ecosystems worldwide. Red fire ants are a prime example of invasive soil animals. However, the impacts of their invasion on the native soil animal communities are still poorly understood. Here, we investigated how the biomass and diversity of soil microarthropods (incl., Collembola and Acari) vary between areas affected by red fire ants at different degrees (i.e., OA, occurrence area, 0–20 m from the nest; PCA, prevention and control area, 20–50 m; POA, potential occurrence area, 50–100 m). We also tested whether the potential effects of ant invasion on other animals are associated with changes in soil properties in the invaded areas. Our results showed a decline of 64% in species richness, 74% in density, and 72% in biomass of microarthropods in OA in comparison with POA. This reduction was mainly driven by the decrease of Acari, while no reduction in Collembola biomass was observed. Despite soil properties being significantly different between ant-impacted areas, structural equation models indicated that the direct association of invasion with microarthropod communities is stronger than the indirect association mediated by soil properties. Therefore, we consider that direct biological interaction is more likely the major mechanism behind the observed changes in microarthropod communities. The effects of red fire ants were different among taxonomic and functional groups, with litter-dwelling Collembola, Oribatida, and Mesostigmata (Acari) affected more negatively than soil-dwelling and surface-dwelling Collembola. Further, red fire ants affected the turnover component of beta-diversity (i.e., replacement of species) for both Collembola and Acari. However, the impact on the nestedness component, which is related to species local extinction and population decline, was only detected for Acari. Our study shows that red fire ant invasion is associated with the depletion of soil microarthropod community, and especially highlights that Acari are more vulnerable to this invasion compared to Collembola. The divergent response between different taxonomic and functional groups of microarthropods and the consequent shift in microarthropod communities may have important significance to soil ecological functioning in the impacted areas.

进口红火蚁的入侵破坏了农业系统中的土壤微节肢动物群落
生物入侵是改变全球生态系统的主要挑战之一。红火蚁就是入侵土壤动物的一个典型例子。然而,人们对其入侵对原生土壤动物群落的影响仍然知之甚少。在此,我们研究了不同程度受红火蚁影响的区域(即 OA,发生区,距离蚁巢 0-20 米;PCA,防控区,20-50 米;POA,潜在发生区,50-100 米)的土壤微节肢动物(包括鞘翅目和蛛形纲)的生物量和多样性如何变化。我们还测试了蚂蚁入侵对其他动物的潜在影响是否与入侵区域土壤性质的变化有关。我们的研究结果表明,与潜在发生区相比,OA 中微型节肢动物的物种丰富度下降了 64%,密度下降了 74%,生物量下降了 72%。这种减少主要是由于蛔虫的减少,而没有观察到栉水母生物量的减少。尽管蚂蚁影响区域的土壤特性有很大差异,但结构方程模型表明,入侵与微型节肢动物群落的直接联系强于土壤特性介导的间接联系。因此,我们认为直接的生物相互作用更有可能是观察到的微节肢动物群落变化背后的主要机制。红火蚁对不同分类群落和功能群落的影响是不同的,与土栖和地表栖的鞘翅目蚁类相比,栖息于底层的鞘翅目蚁类、鞘咀蚁类和中鞘咀蚁类(蛔虫)受到的负面影响更大。此外,红火蚁还影响了鞘翅目和蛔虫纲的β-多样性(即物种更替)的更替部分。然而,只有鞭毛虫类的嵌套度(与物种的局部灭绝和种群衰退有关)受到了影响。我们的研究表明,红火蚁的入侵与土壤微型节肢动物群落的衰退有关,尤其是与鞘翅目昆虫相比,鞭毛虫类更容易受到红火蚁入侵的影响。不同分类群和功能群的微节肢动物之间的反应差异以及随之而来的微节肢动物群落的变化可能对受影响地区的土壤生态功能具有重要意义。
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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来源期刊
European Journal of Soil Science
European Journal of Soil Science 农林科学-土壤科学
CiteScore
8.20
自引率
4.80%
发文量
117
审稿时长
5 months
期刊介绍: The EJSS is an international journal that publishes outstanding papers in soil science that advance the theoretical and mechanistic understanding of physical, chemical and biological processes and their interactions in soils acting from molecular to continental scales in natural and managed environments.
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