Data for: McCormick MI, Ferrari MCO, Fakan E, Barry RP, Chivers DP (2018) Diet cues and their utility for risk assessment in degraded habitats

This dataset is available as a spreadsheet in MS Excel (.xlsx) and Open Document formats (.ods) and a QuickTime video in MOV (.mov) format. Data from two field experiments that together represent one manuscript (submitted 2018) Abstract [Related Publication]: Habitat degradation can alter community...

Full description

Bibliographic Details
Other Authors: Mark Ian McCormick (hasCollector), Mark Ian McCormick (hasAssociationWith)
Format: Dataset
Language:unknown
Published: James Cook University
Subjects:
habitat degradation
coral reef fish
predator-prey
risk assessment
chemical alarm cue
coral bleaching
ARC Centre of Excellence for Coral Reef Studies
Behavioural Ecology
BIOLOGICAL SCIENCES
ECOLOGY
Global Effects of Climate Change and Variability (excl. Australia
New Zealand
Antarctica and the South Pacific) (excl. Social Impacts)
ENVIRONMENT
CLIMATE AND CLIMATE CHANGE
Marine Flora
Fauna and Biodiversity
FLORA
Pacific
Queensland
Lizard Island
McCormick
Chivers
Antarc*
Antarctica
Online Access:https://doi.org/10.1016/j.anbehav.2019.04.005
https://researchdata.edu.au/for-mccormick-mi-degraded-habitats/1340152
https://research.jcu.edu.au/data/published/9c6d087ebb41f7dfeae0ec1a9d3c9864
https://doi.org/10.25903/5b7ba53be6fac
id ftands:oai:ands.org.au::1340152
record_format openpolar
institution Open Polar
collection Research Data Australia (Australian National Data Service - ANDS)
op_collection_id ftands
language unknown
topic habitat degradation
coral reef fish
predator-prey
risk assessment
chemical alarm cue
coral bleaching
ARC Centre of Excellence for Coral Reef Studies
Behavioural Ecology
BIOLOGICAL SCIENCES
ECOLOGY
Global Effects of Climate Change and Variability (excl. Australia
New Zealand
Antarctica and the South Pacific) (excl. Social Impacts)
ENVIRONMENT
CLIMATE AND CLIMATE CHANGE
Marine Flora
Fauna and Biodiversity
FLORA
spellingShingle habitat degradation
coral reef fish
predator-prey
risk assessment
chemical alarm cue
coral bleaching
ARC Centre of Excellence for Coral Reef Studies
Behavioural Ecology
BIOLOGICAL SCIENCES
ECOLOGY
Global Effects of Climate Change and Variability (excl. Australia
New Zealand
Antarctica and the South Pacific) (excl. Social Impacts)
ENVIRONMENT
CLIMATE AND CLIMATE CHANGE
Marine Flora
Fauna and Biodiversity
FLORA
Data for: McCormick MI, Ferrari MCO, Fakan E, Barry RP, Chivers DP (2018) Diet cues and their utility for risk assessment in degraded habitats
topic_facet habitat degradation
coral reef fish
predator-prey
risk assessment
chemical alarm cue
coral bleaching
ARC Centre of Excellence for Coral Reef Studies
Behavioural Ecology
BIOLOGICAL SCIENCES
ECOLOGY
Global Effects of Climate Change and Variability (excl. Australia
New Zealand
Antarctica and the South Pacific) (excl. Social Impacts)
ENVIRONMENT
CLIMATE AND CLIMATE CHANGE
Marine Flora
Fauna and Biodiversity
FLORA
description This dataset is available as a spreadsheet in MS Excel (.xlsx) and Open Document formats (.ods) and a QuickTime video in MOV (.mov) format. Data from two field experiments that together represent one manuscript (submitted 2018) Abstract [Related Publication]: Habitat degradation can alter community processes by changing the cues available to assess risk. Modifications to the composition of the benthic environment have been found to alter the chemical background through which chemical information passes. The change in coral reefs from live coral to algal-dominated seascapes has been shown to prevent some fish species from using chemical alarm cues to inform their risk of predation, although not all species are affected. Here, we examined whether chemically-mediated dietary information from predators can be used to label novel predators as a threat, whether their efficacy is modified by habitat degradation, and whether cues from prey species not affected by the change in chemistry associated with habitat degradation can be used to mitigate the problem. Laboratory and field experiments showed that Ambon damselfish, Pomacentrus amboinensis, were able to learn the identity of individual novel predators from a cocktail of 3 predators using digestive products when the predators had been fed conspecifics of the prey species in the presence of water that had passed over live hard coral. This allows the labelling of predator identity to be greatly extended beyond the immediate capture and ingestion event. Fish that had the same learning opportunity in degraded water took more risk and died faster on habitat patches in the field. Ambon damselfish respond to chemical alarm cues from closely-related heterospecific P. nagasakiensis, both in live or degraded water, yet we failed to find behavioural evidence that they can use the congeneric diet odours to label predators. However, we did find a modest survival benefit under natural conditions, suggesting some limited learning occurred. Further work is necessary to investigate the role of chemical information redundancy among community members, as they provide insights into potential resilience mechanisms available to individuals facing environmental change. Description [Key included in dataset]: Juvenile Pomacentrus amboinensis exposed to water from tanks that contained faeces of predators (combined moonwrasse, dottybacks, lizardfish predators) that has been fed P.amboinensis or P.nagakakiensis (congeneric) in water that has passed over Live or Dead-degraded Pocillopora damicornis hard coral in a header tank. Data is the behaviour and space use of lab conditioned P.amboinensis on patch reefs (Exp 2), and how these fish then respond to the odour of dottybacks (fed squid to avoid diet cues) that were delivered via a tube and syringe in the field (Exp 1). Data consists of a spreadsheet with three sheets: a description and data for each of the two experiments; and a short video. The full methodology is available in the publication shown in the Related Publications link below.
author2 Mark Ian McCormick (hasCollector)
Mark Ian McCormick (hasAssociationWith)
format Dataset
title Data for: McCormick MI, Ferrari MCO, Fakan E, Barry RP, Chivers DP (2018) Diet cues and their utility for risk assessment in degraded habitats
title_short Data for: McCormick MI, Ferrari MCO, Fakan E, Barry RP, Chivers DP (2018) Diet cues and their utility for risk assessment in degraded habitats
title_full Data for: McCormick MI, Ferrari MCO, Fakan E, Barry RP, Chivers DP (2018) Diet cues and their utility for risk assessment in degraded habitats
title_fullStr Data for: McCormick MI, Ferrari MCO, Fakan E, Barry RP, Chivers DP (2018) Diet cues and their utility for risk assessment in degraded habitats
title_full_unstemmed Data for: McCormick MI, Ferrari MCO, Fakan E, Barry RP, Chivers DP (2018) Diet cues and their utility for risk assessment in degraded habitats
title_sort data for: mccormick mi, ferrari mco, fakan e, barry rp, chivers dp (2018) diet cues and their utility for risk assessment in degraded habitats
publisher James Cook University
url https://doi.org/10.1016/j.anbehav.2019.04.005
https://researchdata.edu.au/for-mccormick-mi-degraded-habitats/1340152
https://research.jcu.edu.au/data/published/9c6d087ebb41f7dfeae0ec1a9d3c9864
https://doi.org/10.25903/5b7ba53be6fac
op_coverage Spatial: 145.44512301235,-14.679058462535 145.44545364582,-14.678586986941 145.4456174873,-14.67803974909 145.44559849882,-14.67747031608 145.44539853913,-14.676934428026 145.44503718166,-14.676484541808 145.4445497986,-14.676164696069 145.44398409841,-14.676006200156 145.44339545575,-14.67602456911 145.44284149108,-14.676218004806 145.44237643031,-14.676567571985 145.44204579684,-14.677039051933 145.44188195536,-14.677586292287 145.44190094384,-14.678155724995 145.44210090353,-14.678691610057 145.442462261,-14.679141491736 145.44294964406,-14.679461333122 145.44351534425,-14.679619826531 145.44410398691,-14.67960145788 145.44465795158,-14.679408025176 145.44512301235,-14.679058462535
Spatial: Lizard Island, northern Great Barrier Reef, Queensland, Australia
Temporal: From 2017-11-01 to 2017-12-15
long_lat ENVELOPE(-64.456,-64.456,-65.688,-65.688)
ENVELOPE(170.967,170.967,-71.833,-71.833)
ENVELOPE(161.433,161.433,-82.533,-82.533)
geographic Pacific
New Zealand
Queensland
Lizard Island
McCormick
Chivers
geographic_facet Pacific
New Zealand
Queensland
Lizard Island
McCormick
Chivers
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_source https://research.jcu.edu.au/data/
op_relation https://researchdata.edu.au/for-mccormick-mi-degraded-habitats/1340152
7080b4b51437ed5ae7037d368e3e4df1
https://research.jcu.edu.au/data/published/9c6d087ebb41f7dfeae0ec1a9d3c9864
doi:10.25903/5b7ba53be6fac
http://dx.doi.org/10.1016/j.anbehav.2019.04.005
op_doi https://doi.org/10.1016/j.anbehav.2019.04.005
https://doi.org/10.25903/5b7ba53be6fac
_version_ 1766261959460651008
spelling ftands:oai:ands.org.au::1340152 2023-05-15T13:55:21+02:00 Data for: McCormick MI, Ferrari MCO, Fakan E, Barry RP, Chivers DP (2018) Diet cues and their utility for risk assessment in degraded habitats Mark Ian McCormick (hasCollector) Mark Ian McCormick (hasAssociationWith) Spatial: 145.44512301235,-14.679058462535 145.44545364582,-14.678586986941 145.4456174873,-14.67803974909 145.44559849882,-14.67747031608 145.44539853913,-14.676934428026 145.44503718166,-14.676484541808 145.4445497986,-14.676164696069 145.44398409841,-14.676006200156 145.44339545575,-14.67602456911 145.44284149108,-14.676218004806 145.44237643031,-14.676567571985 145.44204579684,-14.677039051933 145.44188195536,-14.677586292287 145.44190094384,-14.678155724995 145.44210090353,-14.678691610057 145.442462261,-14.679141491736 145.44294964406,-14.679461333122 145.44351534425,-14.679619826531 145.44410398691,-14.67960145788 145.44465795158,-14.679408025176 145.44512301235,-14.679058462535 Spatial: Lizard Island, northern Great Barrier Reef, Queensland, Australia Temporal: From 2017-11-01 to 2017-12-15 https://doi.org/10.1016/j.anbehav.2019.04.005 https://researchdata.edu.au/for-mccormick-mi-degraded-habitats/1340152 https://research.jcu.edu.au/data/published/9c6d087ebb41f7dfeae0ec1a9d3c9864 https://doi.org/10.25903/5b7ba53be6fac unknown James Cook University https://researchdata.edu.au/for-mccormick-mi-degraded-habitats/1340152 7080b4b51437ed5ae7037d368e3e4df1 https://research.jcu.edu.au/data/published/9c6d087ebb41f7dfeae0ec1a9d3c9864 doi:10.25903/5b7ba53be6fac http://dx.doi.org/10.1016/j.anbehav.2019.04.005 https://research.jcu.edu.au/data/ habitat degradation coral reef fish predator-prey risk assessment chemical alarm cue coral bleaching ARC Centre of Excellence for Coral Reef Studies Behavioural Ecology BIOLOGICAL SCIENCES ECOLOGY Global Effects of Climate Change and Variability (excl. Australia New Zealand Antarctica and the South Pacific) (excl. Social Impacts) ENVIRONMENT CLIMATE AND CLIMATE CHANGE Marine Flora Fauna and Biodiversity FLORA dataset ftands https://doi.org/10.1016/j.anbehav.2019.04.005 https://doi.org/10.25903/5b7ba53be6fac 2021-05-31T22:28:28Z This dataset is available as a spreadsheet in MS Excel (.xlsx) and Open Document formats (.ods) and a QuickTime video in MOV (.mov) format. Data from two field experiments that together represent one manuscript (submitted 2018) Abstract [Related Publication]: Habitat degradation can alter community processes by changing the cues available to assess risk. Modifications to the composition of the benthic environment have been found to alter the chemical background through which chemical information passes. The change in coral reefs from live coral to algal-dominated seascapes has been shown to prevent some fish species from using chemical alarm cues to inform their risk of predation, although not all species are affected. Here, we examined whether chemically-mediated dietary information from predators can be used to label novel predators as a threat, whether their efficacy is modified by habitat degradation, and whether cues from prey species not affected by the change in chemistry associated with habitat degradation can be used to mitigate the problem. Laboratory and field experiments showed that Ambon damselfish, Pomacentrus amboinensis, were able to learn the identity of individual novel predators from a cocktail of 3 predators using digestive products when the predators had been fed conspecifics of the prey species in the presence of water that had passed over live hard coral. This allows the labelling of predator identity to be greatly extended beyond the immediate capture and ingestion event. Fish that had the same learning opportunity in degraded water took more risk and died faster on habitat patches in the field. Ambon damselfish respond to chemical alarm cues from closely-related heterospecific P. nagasakiensis, both in live or degraded water, yet we failed to find behavioural evidence that they can use the congeneric diet odours to label predators. However, we did find a modest survival benefit under natural conditions, suggesting some limited learning occurred. Further work is necessary to investigate the role of chemical information redundancy among community members, as they provide insights into potential resilience mechanisms available to individuals facing environmental change. Description [Key included in dataset]: Juvenile Pomacentrus amboinensis exposed to water from tanks that contained faeces of predators (combined moonwrasse, dottybacks, lizardfish predators) that has been fed P.amboinensis or P.nagakakiensis (congeneric) in water that has passed over Live or Dead-degraded Pocillopora damicornis hard coral in a header tank. Data is the behaviour and space use of lab conditioned P.amboinensis on patch reefs (Exp 2), and how these fish then respond to the odour of dottybacks (fed squid to avoid diet cues) that were delivered via a tube and syringe in the field (Exp 1). Data consists of a spreadsheet with three sheets: a description and data for each of the two experiments; and a short video. The full methodology is available in the publication shown in the Related Publications link below. Dataset Antarc* Antarctica Research Data Australia (Australian National Data Service - ANDS) Pacific New Zealand Queensland Lizard Island ENVELOPE(-64.456,-64.456,-65.688,-65.688) McCormick ENVELOPE(170.967,170.967,-71.833,-71.833) Chivers ENVELOPE(161.433,161.433,-82.533,-82.533)

Similar Items