Data

Data from: Lonnstedt OM, McCormick MI, Chivers DP (2013) Degraded environments alter prey risk assessment. Ecology and Evolution 3:38-47

James Cook University
Lonnstedt, Oona ; McCormick, Mark
Viewed: [[ro.stat.viewed]] Cited: [[ro.stat.cited]] Accessed: [[ro.stat.accessed]]
ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.4225/28/5a7b86489e46b&rft.title=Data from: Lonnstedt OM, McCormick MI, Chivers DP (2013) Degraded environments alter prey risk assessment. Ecology and Evolution 3:38-47 &rft.identifier=10.4225/28/5a7b86489e46b&rft.publisher=James Cook University&rft.description=Data from: Lonnstedt OM, McCormick MI, Chivers DP (2013) Degraded environments alter prey risk assessment. Ecology and Evolution 3:38-47. Excel file consists of data from 3 experiments.Abstract [Related Publication]: Elevated water temperatures, a decrease in ocean pH, and an increasing prevalence of severe storms have lead to bleaching and death of the hard corals that underpin coral reef ecosystems. As coral cover declines, fish diversity and abundance declines. How degradation of coral reefs affects behavior of reef inhabitants is unknown. Here, we demonstrate that risk assessment behaviors of prey are severely affected by coral degradation. Juvenile damselfish were exposed to visual and olfactory indicators of predation risk in healthy live, thermally bleached, and dead coral in a series of laboratory and field experiments. While fish still responded to visual cues in all habitats, they did not respond to olfactory indicators of risk in dead coral habitats, likely as a result of alteration or degradation of chemical cues. These cues are critical for learning and avoiding predators, and a failure to respond can have dramatic repercussions for survival and recruitment.The full methodology is available in the Open Access publication from the Related Publications link below. &rft.creator=Lonnstedt, Oona &rft.creator=McCormick, Mark &rft.date=2018&rft.relation=http://dx.doi.org/10.1002/ece3.388&rft.coverage=145.44362068176,-14.680496609887 145.44411177211,-14.679842747325 145.44436995358,-14.679074083283 145.44436995358,-14.678265859167 145.44411177211,-14.677497189585 145.44362068176,-14.676843318057 145.44294475389,-14.676368251358 145.44215015301,-14.676118493601 145.44131466021,-14.676118493601 145.44052005934,-14.676368251359 145.43984413146,-14.676843318058 145.43935304112,-14.677497189587 145.43909485964,-14.67826585917 145.43909485964,-14.679074083286 145.43935304112,-14.679842747327 145.43984413147,-14.680496609889 145.44052005934,-14.680971667621 145.44131466021,-14.681221419837 145.44215015301,-14.681221419836 145.44294475389,-14.68097166762 145.44362068176,-14.680496609887&rft.coverage= Lizard Island (14°40′S, 145°28′E), northern Great Barrier Reef, Australia&rft_rights=&rft_rights=CC BY-NC: Attribution-Noncommercial 3.0 AU http://creativecommons.org/licenses/by-nc/3.0/au&rft_subject=habitat degradation&rft_subject=coral reef fish&rft_subject=chemical cue&rft_subject=ARC Centre of Excellence for Coral Reef Studies&rft.type=dataset&rft.language=English Access the data
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Data from: Lonnstedt OM, McCormick MI, Chivers DP (2013) Degraded environments alter prey risk assessment. Ecology and Evolution 3:38-47. Excel file consists of data from 3 experiments.

Abstract [Related Publication]: Elevated water temperatures, a decrease in ocean pH, and an increasing prevalence of severe storms have lead to bleaching and death of the hard corals that underpin coral reef ecosystems. As coral cover declines, fish diversity and abundance declines. How degradation of coral reefs affects behavior of reef inhabitants is unknown. Here, we demonstrate that risk assessment behaviors of prey are severely affected by coral degradation. Juvenile damselfish were exposed to visual and olfactory indicators of predation risk in healthy live, thermally bleached, and dead coral in a series of laboratory and field experiments. While fish still responded to visual cues in all habitats, they did not respond to olfactory indicators of risk in dead coral habitats, likely as a result of alteration or degradation of chemical cues. These cues are critical for learning and avoiding predators, and a failure to respond can have dramatic repercussions for survival and recruitment.

The full methodology is available in the Open Access publication from the Related Publications link below.

 

Notes

This dataset is available as a spreadsheet in MS Excel (.xlsx) and Open Document formats (.ods)

Created: 2018-02-08

Data time period: 10 2010 to 30 11 2010

This dataset is part of a larger collection

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145.44362,-14.6805 145.44411,-14.67984 145.44437,-14.67907 145.44437,-14.67827 145.44411,-14.6775 145.44362,-14.67684 145.44294,-14.67637 145.44215,-14.67612 145.44131,-14.67612 145.44052,-14.67637 145.43984,-14.67684 145.43935,-14.6775 145.43909,-14.67827 145.43909,-14.67907 145.43935,-14.67984 145.43984,-14.6805 145.44052,-14.68097 145.44131,-14.68122 145.44215,-14.68122 145.44294,-14.68097 145.44362,-14.6805

145.44173240661,-14.678669956719

text: Lizard Island (14°40′S, 145°28′E), northern Great Barrier Reef, Australia

Subjects
ARC Centre of Excellence for Coral Reef Studies | chemical cue | coral reef fish | habitat degradation |

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Identifiers
  • DOI : 10.4225/28/5A7B86489E46B
  • Local : researchdata.jcu.edu.au//published/d4047d6fffb9e0e1ff5cbd594b8313f6
  • Local : 7815970e4b9c2e8f21e22c7bd56b51ab
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