Haonan Zhou scite author profile

Aim: To explore the impact of island area and isolation on multiple dimensions of ant biodiversity (taxonomic, phylogenetic and functional diversity) and the underlying processes of community assembly on islands.Location: Thousand Island Lake, Zhejiang, China, created by dam construction in 1959.Taxon: Ants. Methods:We sampled ants on 33 islands, built a species-level phylogenetic tree and measured five morphological traits of all species collected to estimate taxonomic, phylogenetic and functional diversity. We used multiple linear regression models and null models to examine the relationships between diversity metrics and island variables (area and isolation). Results:We recorded 97 ant species on the study islands. We verified positive diversity-area relationships for species richness, phylogenetic diversity and functional diversity. However, although functional and phylogenetic community structure were indistinguishable from random communities, phylogenetic structure tended to be clustered, whereas functional structure tended to be overdispersed. Additionally, we found the structure of ant communities shifted from phylogenetic and functional clustering on smaller islands to phylogenetic and functional overdispersion on larger islands. Main conclusions:Our results support the hypothesis that environmental filtering is the dominant process structuring ant communities on smaller islands, and that competitive exclusion becomes more important on larger islands. Thus, island area acts as an important filter even though ant community structure on the study islands was indistinguishable from random communities. Moreover, our results show that environmental filtering influences phylogenetic community structure of ants, whereas competitive exclusion influences functional community structure of ants. These findings highlight the need to examine both phylogenetic and functional diversity in order to understand the mechanisms that govern the assembly of natural communities on islands.

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The importance of accounting for imperfect detection when estimating functional and phylogenetic community structure

Cadotte

Zhao

et al. 2018

Ecology

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Incorporating imperfect detection when estimating species richness has become commonplace in the past decade. However, the question of how imperfect detection of species affects estimates of functional and phylogenetic community structure remains untested. We used long-term counts of breeding bird species that were detected at least once on islands in a land-bridge island system, and employed multi-species occupancy models to assess the effects of imperfect detection of species on estimates of bird diversity and community structure by incorporating species traits and phylogenies. Our results showed that taxonomic, functional, and phylogenetic diversity were all underestimated significantly as a result of species' imperfect detection, with taxonomic diversity showing the greatest bias. The functional and phylogenetic structure calculated from observed communities were both more clustered than those from the detection-corrected communities due to missed distinct species. The discrepancy between observed and estimated diversity differed according to the measure of biodiversity employed. Our study demonstrates the importance of accounting for species' imperfect detection in biodiversity studies, especially for functional and phylogenetic community ecology, and when attempting to infer community assembly processes. With datasets that allow for detection-corrected community structure, we can better estimate diversity and infer the underlying mechanisms that structure community assembly, and thus make reliable management decisions for the conservation of biodiversity.

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β diversity among ant communities on fragmented habitat islands: the roles of species trait, phylogeny and abundance

et al. 2021

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Habitat loss and fragmentation reduce biodiversity and alter species composition in local communities. β diversity describes the variation in species composition between or among communities in fragmented landscapes and has two components: species turnover and nestedness. In this study, we assessed β diversity of ant assemblages on 24 island fragments in the Thousand Island Lake, China. We constructed a species‐level phylogenetic tree and measured five morphological traits of all ant species captured. We then assessed taxonomic (both incidence‐based and abundance‐weighted), functional and phylogenetic β diversity and partitioned β diversity into turnover and nestedness (as well as the contributions of particular species and particular islands). Finally, we examined the relationships between β diversity and a suite of geographical variables (i.e. difference in island area, difference in isolation and inter‐island distance) using Mantel tests. We found taxonomic and phylogenetic turnover components dominated overall β diversity whereas the functional turnover and nestedness components contributed equally to overall β diversity. Overall β diversity increased with increasing difference in isolation and inter‐island distance; however, only abundance‐weighted overall β diversity decreased with increasing difference in island size. Our results indicate that species that were abundant on large islands were also abundant on small islands. We conclude that the dispersal limitation of ants likely shapes the pattern of β diversity along isolation and inter‐island distance gradients. Additionally, functional redundancy of species (i.e. different species share similar functional roles) could also explain β diversity patterns among fragmented habitat islands. Our results highlight the necessity of incorporating both incidence‐based and abundance‐weighted community data when examining β diversity in fragmented landscapes. By partitioning β diversity into the contributions of particular species and particular fragments, our study implies that small patches can be valuable for maintaining biodiversity among ant communities.

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Spatial patterns and influencing factors of ground ant species diversity on the land-bridge islands in the Thousand Island Lake, China

Zhou¹,

Zhao²,

Zeng³

et al. 2019

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To explore spatial patterns and environmental factors affecting ground ant species diversity in the Thousand Island Lake, China, we surveyed ground ants using pitfall traps, leaf litter extraction and hand collecting on 33 islands from May to August in 2017 and 2018. We divided all ground ants into predator or omnivore ants and then used the regression models to analyze relationships between ant species diversity and island attributes. Island area had positive effects on species richness of total ants, predator ants and omnivore ants; but isolation had no significant effects. The β diversity of ants was dominated by spatial turnover component. Difference in island area had positive effects on the nestedness-resultant component of total ants, predator ants and omnivore ants communities. Difference in isolation had significant positive effects on the total β diversity of omnivore ants. Island area was the main factor affecting spatial patterns of ant species richness. In addition, island area affected the β diversity of ants via changing nestedness-resultant component, which indicates a selective extinction process in ant community assembly. Different responses of predator ants and omnivore ants to island attributes may be due to variation of dispersal ability.

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Haonan Zhou

Island area, not isolation, drives taxonomic, phylogenetic and functional diversity of ants on land‐bridge islands

The importance of accounting for imperfect detection when estimating functional and phylogenetic community structure

β diversity among ant communities on fragmented habitat islands: the roles of species trait, phylogeny and abundance

Spatial patterns and influencing factors of ground ant species diversity on the land-bridge islands in the Thousand Island Lake, China

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