划分区域、空间和局部变量对智利盐沼节肢动物β多样性的影响。

Partitioning the effects of regional, spatial, and local variables on beta diversity of salt marsh arthropods in Chile.

作者信息

Coccia Cristina, Fariña José Miguel

机构信息

Center of Applied Ecology and Sustainability (CAPES) Pontificia Universidad Católica de Chile Santiago Chile.

Department of Ecology and Evolutionary Biology Brown University Providence Rhode Island.

出版信息

Ecol Evol. 2019 Jan 30;9(5):2575-2587. doi: 10.1002/ece3.4922. eCollection 2019 Mar.

DOI:10.1002/ece3.4922

PMID:30891201

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6405494/

Abstract

AIM

We examined the influence of regional, spatial, and local variables (edaphic characteristics and vegetation structure) on patterns of arthropod variation along the Chilean coast by partitioning beta diversity into its turnover and nestedness components.

LOCATION

2,000 km along the coast of Chile.

METHODS

We collected ground-dwelling arthropod samples from nine marshes during two seasons. A clustering method was used to examine patterns of arthropod similarity across salt marshes. We also calculated multiple-site beta diversity and partitioned it into its turnover and nestedness components. Variation partitioning was then used to identify the major drivers of their variation (regional, spatial, and local variables). We compared results for the whole arthropod community and for the most abundant, speciose, and functionally different groups, Crustacea, Coleoptera, and Araneae.

RESULTS

Salt marsh arthropod similarities did not depend on the geographic proximity of sites. Arthropod beta diversity was mainly determined by its turnover component. A significant fraction of community variation was related to the spatially structured variation of climate or edaphic factors. However, the exclusive contribution of spatial variables had also a role.

MAIN CONCLUSIONS

Each salt marsh on the Chilean coast has the capacity to accommodate unique invertebrate taxa. Species sorting along the climatic gradient together with dispersal-based processes seems the key structuring force of the arthropods and Crustacean variation in the marshes we studied, while species sorting alone might be more important for Coleoptera variation.

摘要

目的

通过将β多样性划分为周转率和嵌套性成分，我们研究了区域、空间和局部变量（土壤特征和植被结构）对智利海岸节肢动物变异模式的影响。

地点

智利海岸沿线2000公里。

方法

我们在两个季节从九个沼泽地采集了地面节肢动物样本。采用聚类方法研究盐沼间节肢动物的相似性模式。我们还计算了多地点β多样性，并将其划分为周转率和嵌套性成分。然后使用变异划分来确定其变异的主要驱动因素（区域、空间和局部变量）。我们比较了整个节肢动物群落以及最丰富、物种最多和功能不同的类群（甲壳纲、鞘翅目和蜘蛛目）的结果。

结果

盐沼节肢动物的相似性并不取决于地点的地理距离。节肢动物β多样性主要由其周转率成分决定。群落变异的很大一部分与气候或土壤因素的空间结构变异有关。然而，空间变量的单独贡献也起到了作用。

主要结论

智利海岸的每个盐沼都有能力容纳独特的无脊椎动物类群。沿着气候梯度的物种分选以及基于扩散的过程似乎是我们研究的沼泽中节肢动物和甲壳类动物变异的关键结构力量，而单独的物种分选可能对鞘翅目变异更为重要。

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划分区域、空间和局部变量对智利盐沼节肢动物β多样性的影响。

Partitioning the effects of regional, spatial, and local variables on beta diversity of salt marsh arthropods in Chile.

作者信息

机构信息

出版信息

AIM

LOCATION

METHODS

RESULTS

MAIN CONCLUSIONS

目的

地点

方法

结果

主要结论

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