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Environmental Biology of Fishes

, Volume 102, Issue 9, pp 1201–1218 | Cite as

Comparative analysis of habitat use and ontogenetic habitat-shifts among coral reef damselfishes

  • V. KomyakovaEmail author
  • P. L. Munday
  • G. P. Jones
Article

Abstract

Habitat characteristics play an important role in determining the structure of fish communities. The decline in fish diversity and abundance with the decline in coral diversity and cover may be explained by habitat specialisation and partitioning among reef fishes and/or preferences for particular corals that are susceptible to disturbance. These preferences may develop at different life history stages. Here, we investigated patterns of habitat specialisation and ontogenetic shifts in habitat preference among 14 co-existing damselfish species at Lizard Island lagoon on the Great Barrier Reef. Although live coral cover contributed only 26% of the substratum, 28% of adults and 57% of new settlers were mostly found on live coral, indicating a strong preference for live coral habitat by new settlers. Only a few species exhibited a high degree of habitat specialisation and low overlap in habitat use with other species. Specialisation differed among species and life stages. New settlers were more commonly associated with finely branched corymbose corals and using those habitats with higher frequency than expected based on habitat availability alone. Adults were more commonly linked to more open branching morphologies or non-coral substrata. Our results suggest that habitat loss may not uniformly impact on all life stages. While adult individuals may not be as reliant as juveniles on corals, detrimental effects of habitat loss on juvenile survival may have longer-term impacts on adult populations. As juveniles show preferential associations with particular coral species, such as corymbose corals, the loss of these growth forms is likely to have the most significant negative impacts on this critical life history stage.

Keywords

Habitat specialisation Habitat preferences Coral species Live coral cover Habitat generalist 

Notes

Acknowledgements

This study was conducted in accordance with Great Barrier Reef Marine Park Authority requirements for non-extractive research and was compliant with James Cook University Code of Conduct for Research in the Great Barrier Reef. An authorisation for this limited impact, non-extractive research in the Great Barrier Reef Marine Park was obtained from James Cook University (Authorisation letter number: MBA5). This study was conducted in compliance with the James Cook University Ethics Review Committee regulations (Ethics approval project number: A1124). We are grateful for the assistance in the field provide by K. Markey, A. Downing, O. O’shea and C. Johansson. We also thank M. Sheaves for his invaluable help with statistical analysis, Nikos Nikolioudakis for assistance with data visualisation and T. Coughlin for editorial comments. Financial support was provided by the ARC Centre of Excellence for Coral Reef Studies.

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Copyright information

© Springer Nature B.V. 2019

Authors and Affiliations

  1. 1.ARC Centre of Excellence for Coral Reef Studies, and College of Science and EngineeringJames Cook UniversityTownsvilleAustralia
  2. 2.Department of ZoologyUniversity of MelbourneMelbourneAustralia
  3. 3.School of Life and Environmental Science, Faculty of ScienceThe University of SydneySydneyAustralia

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