Biogeography of functional trait diversity in the Taiwanese reef fish fauna

The richness of Taiwanese reef fish species is inversely correlated to latitude as a direct consequence of the abiotic environment and its effects on benthic habitats. However, to date, no studies have investigated the variations in the diversity of traits (FD) linked with the role of these fishes i...

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Bibliographic Details
Published in:Ecology and evolution 2019-01, Vol.9 (1), p.522-532
Main Authors: Denis, Vianney, Chen, Jian‐Wen, Chen, Qi, Hsieh, Yunli Eric, Lin, Yuting Vicky, Wang, Ching‐Wei, Wang, Hui‐Yu, Sturaro, Nicolas
Format: Article
Language:English
Subjects:
Aquatic sciences & oceanology
Biogeography
Change detection
Ecosystems
Environmental changes
Environmental effects
Environmental sciences & ecology
Fauna
Fish
functional diversity
high-latitude
ichthyofauna
Kuroshio
Latitude
Life sciences
marginality
Original Research
Redundancy
Reef fish
Sciences aquatiques & océanologie
Sciences de l’environnement & écologie
Sciences du vivant
Species richness
traits
Variation
Zoologie
Zoology
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Summary:The richness of Taiwanese reef fish species is inversely correlated to latitude as a direct consequence of the abiotic environment and its effects on benthic habitats. However, to date, no studies have investigated the variations in the diversity of traits (FD) linked with the role of these fishes in the ecosystem. FD is usually considered more sensitive than species richness in detecting early changes in response to disturbances, and therefore could serve as an indicator of ecological resilience to environmental changes. Here, we aim to characterize FD in the Taiwanese reef fish fauna and to document its regional variations. Six traits were used to categorize the 1,484 reef fish species occurring in four environmentally contrasted regions around Taiwan. The number of unique trait combinations (FEs), their richness (FRic), their redundancy (FR), their over‐redundancy (FOR), and their vulnerability (FV) were compared among these regions. Overall, 416 FEs were identified. Their number decreased from south to north in step with regional species richness but FRic remained similar among regions. FR and FOR were higher to the south. At the local scale, variations in FEs and FRic are in concordance with the worldwide pattern of FD. High‐latitude, impoverished fish assemblages, offer a range of trait combinations similar to diversified tropical assemblages. Increasing diversity in the latter mainly contributes to raising FR and supports already over‐redundant entities. High vulnerability makes many combinations highly sensitive to species loss, and was higher at intermediate latitudes when using a fine resolution in trait categories. It suggests that the loss of FEs may first be characterized by an increase in their vulnerability, a pattern that could have been overlooked in previous global scale analyses. Overall, this study provides new insights into reef fish trait biogeography with potential ramifications for ecosystem functioning. High‐latitude, impoverished fish assemblages offer a range of trait combinations similar to diversified tropical assemblages. Increasing diversity in the latter mainly supports already over‐redundant entities. To contrast, high vulnerability makes many combinations highly sensitive to species loss and was higher at intermediate latitudes, when using a fine resolution in trait categories. It suggests that the loss of unique trait combinations may first be characterized by an increase in their vulnerability, a pattern that could have
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.4771