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Synchronous behavioural shifts in reef fishes linked to mass coral bleaching

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Synchronous behavioural shifts in reef fishes linked to mass coral bleaching. / Keith, Sal; Baird, Andrew H.; Hobbs, Jean-Paul A. et al.
In: Nature Climate Change, Vol. 8, 22.10.2018, p. 986–991.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Keith, S, Baird, AH, Hobbs, J-PA, Woolsey, E, Hoey, AS, Fadli, N & Sanders, NJ 2018, 'Synchronous behavioural shifts in reef fishes linked to mass coral bleaching', Nature Climate Change, vol. 8, pp. 986–991. https://doi.org/10.1038/s41558-018-0314-7

APA

Keith, S., Baird, A. H., Hobbs, J.-P. A., Woolsey, E., Hoey, A. S., Fadli, N., & Sanders, N. J. (2018). Synchronous behavioural shifts in reef fishes linked to mass coral bleaching. Nature Climate Change, 8, 986–991. https://doi.org/10.1038/s41558-018-0314-7

Vancouver

Keith S, Baird AH, Hobbs JPA, Woolsey E, Hoey AS, Fadli N et al. Synchronous behavioural shifts in reef fishes linked to mass coral bleaching. Nature Climate Change. 2018 Oct 22;8:986–991. doi: 10.1038/s41558-018-0314-7

Author

Keith, Sal ; Baird, Andrew H. ; Hobbs, Jean-Paul A. et al. / Synchronous behavioural shifts in reef fishes linked to mass coral bleaching. In: Nature Climate Change. 2018 ; Vol. 8. pp. 986–991.

Bibtex

@article{d1080a5cf14c49ec9a77cf1af6e54383,
title = "Synchronous behavioural shifts in reef fishes linked to mass coral bleaching",
abstract = "Mass coral bleaching causes population declines and mortality of coral reef species1 yet its impacts on behaviour are largely unknown. Here, we unite behavioural theory with community ecology to test whether bleaching-induced mass mortality of corals can cause consistent changes in the behaviour of coral-feeding fishes. We documented 5,259 encounters between individuals of 38 Chaetodon (butterflyfish) species on 17 reefs within the central Indo-Pacific, of which 3,828 were repeated on 10 reefs both before and after the global coral bleaching event in 2016. Aggression between butterflyfishes decreased by two-thirds following large-scale coral mortality, despite no significant change in fish abundance or community composition. Pairwise encounters were most likely to be aggressive between obligate corallivores and on reefs with high coral cover. After bleaching, the proportion of preferred Acropora corals in the diet decreased significantly (up to 85% fewer bites), with no increase in overall bite rate to compensate for the loss of these nutritionally rich corals. The observed reduced aggression at low resource levels due to nutritional deficit follows the predictions of the economic theory of aggressive behaviour2,3. Our results reveal synchronous changes in behaviour in response to coral mortality. Such changes could potentially disrupt territories4, leading to reorganization of ecological communities.",
author = "Sal Keith and Baird, {Andrew H.} and Hobbs, {Jean-Paul A.} and Erika Woolsey and Hoey, {Andrew S.} and N. Fadli and Sanders, {Nathan J.}",
year = "2018",
month = oct,
day = "22",
doi = "10.1038/s41558-018-0314-7",
language = "English",
volume = "8",
pages = "986–991",
journal = "Nature Climate Change",
issn = "1758-678X",
publisher = "Nature Publishing Group",

}

RIS

TY - JOUR

T1 - Synchronous behavioural shifts in reef fishes linked to mass coral bleaching

AU - Keith, Sal

AU - Baird, Andrew H.

AU - Hobbs, Jean-Paul A.

AU - Woolsey, Erika

AU - Hoey, Andrew S.

AU - Fadli, N.

AU - Sanders, Nathan J.

PY - 2018/10/22

Y1 - 2018/10/22

N2 - Mass coral bleaching causes population declines and mortality of coral reef species1 yet its impacts on behaviour are largely unknown. Here, we unite behavioural theory with community ecology to test whether bleaching-induced mass mortality of corals can cause consistent changes in the behaviour of coral-feeding fishes. We documented 5,259 encounters between individuals of 38 Chaetodon (butterflyfish) species on 17 reefs within the central Indo-Pacific, of which 3,828 were repeated on 10 reefs both before and after the global coral bleaching event in 2016. Aggression between butterflyfishes decreased by two-thirds following large-scale coral mortality, despite no significant change in fish abundance or community composition. Pairwise encounters were most likely to be aggressive between obligate corallivores and on reefs with high coral cover. After bleaching, the proportion of preferred Acropora corals in the diet decreased significantly (up to 85% fewer bites), with no increase in overall bite rate to compensate for the loss of these nutritionally rich corals. The observed reduced aggression at low resource levels due to nutritional deficit follows the predictions of the economic theory of aggressive behaviour2,3. Our results reveal synchronous changes in behaviour in response to coral mortality. Such changes could potentially disrupt territories4, leading to reorganization of ecological communities.

AB - Mass coral bleaching causes population declines and mortality of coral reef species1 yet its impacts on behaviour are largely unknown. Here, we unite behavioural theory with community ecology to test whether bleaching-induced mass mortality of corals can cause consistent changes in the behaviour of coral-feeding fishes. We documented 5,259 encounters between individuals of 38 Chaetodon (butterflyfish) species on 17 reefs within the central Indo-Pacific, of which 3,828 were repeated on 10 reefs both before and after the global coral bleaching event in 2016. Aggression between butterflyfishes decreased by two-thirds following large-scale coral mortality, despite no significant change in fish abundance or community composition. Pairwise encounters were most likely to be aggressive between obligate corallivores and on reefs with high coral cover. After bleaching, the proportion of preferred Acropora corals in the diet decreased significantly (up to 85% fewer bites), with no increase in overall bite rate to compensate for the loss of these nutritionally rich corals. The observed reduced aggression at low resource levels due to nutritional deficit follows the predictions of the economic theory of aggressive behaviour2,3. Our results reveal synchronous changes in behaviour in response to coral mortality. Such changes could potentially disrupt territories4, leading to reorganization of ecological communities.

U2 - 10.1038/s41558-018-0314-7

DO - 10.1038/s41558-018-0314-7

M3 - Journal article

VL - 8

SP - 986

EP - 991

JO - Nature Climate Change

JF - Nature Climate Change

SN - 1758-678X

ER -