Environmental stress reduces shark residency to coral reefs

Williamson, Michael J. and Tebbs, Emma J. and Curnick, David J. and Ferretti, Francesco and Carlisle, Aaron B. and Chapple, Taylor K. and Schallert, Robert J. and Tickler, David M. and Block, Barbara A. and Jacoby, David M. P. (2024) Environmental stress reduces shark residency to coral reefs. Communications Biology, 7 (1): 1018. ISSN 2399-3642

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Abstract

Coral reef ecosystems are highly threatened and can be extremely sensitive to the effects of climate change. Multiple shark species rely on coral reefs as important habitat and, as such, play a number of significant ecological roles in these ecosystems. How environmental stress impacts routine, site-attached reef shark behavior, remains relatively unexplored. Here, we combine 8 years of acoustic tracking data (2013-2020) from grey reef sharks resident to the remote coral reefs of the Chagos Archipelago in the Central Indian Ocean, with a satellite-based index of coral reef environmental stress exposure. We show that on average across the region, increased stress on the reefs significantly reduces grey reef shark residency, promoting more diffuse space use and increasing time away from shallow forereefs. Importantly, this impact has a lagged effect for up to 16 months. This may have important physiological and conservation consequences for reef sharks, as well as broader implications for reef ecosystem functioning. As climate change is predicted to increase environmental stress on coral reef ecosystems, understanding how site-attached predators respond to stress will be crucial for forecasting the functional significance of altering predator behavior and the potential impacts on conservation for both reef sharks and coral reefs themselves.

Item Type:
Journal Article
Journal or Publication Title:
Communications Biology
ID Code:
224010
Deposited By:
Deposited On:
11 Sep 2024 08:15
Refereed?:
Yes
Published?:
Published
Last Modified:
26 Sep 2024 14:55