Differential adult survival at close seabird colonies: The importance of spatial foraging segregation and bycatch risk during the breeding season

Differential adult survival at close seabird colonies: The importance of spatial foraging segregation and bycatch risk during the breeding season

Marine megafauna, including seabirds, are critically affected by fisheries bycatch. However, bycatch risk may differ on temporal and spatial scales due to the uneven distribution and effort of fleets operating different fishing gear, and to focal species distribution and foraging behavior. Scopoli&#...

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Bibliographic Details
Published in:Global change biology Vol. 24; no. 3; pp. 1279 - 1290
Main Authors: Genovart, Meritxell, Bécares, Juan, Igual, José‐Manuel, Martínez‐Abraín, Alejandro, Escandell, Raul, Sánchez, Antonio, Rodríguez, Beneharo, Arcos, José M., Oro, Daniel
Format: Journal Article
Language:English
Published: England Blackwell Publishing Ltd 01-03-2018
Subjects:
adult survival
Animal behavior
Animal breeding
Anthropogenic factors
Aquatic birds
Birds
Breeding
Breeding seasons
Bycatch
Calonectris diomedea
Capture-recapture studies
capture–recapture
climatic index
Colonies
Demographics
demography
Distribution
Distribution patterns
Fisheries
fisheries bycatch
Fishing
Fishing gear
Food availability
Food supply
Foraging
Foraging behavior
Foraging habitats
Global positioning systems
GPS
Human influences
Local population
Longline fishing
Mediterranean
Megafauna
Mortality
Ova
Parameter sensitivity
Predators
remote tracking
Risk
risk map
Seabirds
Segregation
Sensitivity analysis
Spatial analysis
Species
Survival
Mediterranean
fisheries bycatch
climatic index
demography
adult survival
capture-recapture
remote tracking
Calonectris diomedea
risk map
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Summary:Marine megafauna, including seabirds, are critically affected by fisheries bycatch. However, bycatch risk may differ on temporal and spatial scales due to the uneven distribution and effort of fleets operating different fishing gear, and to focal species distribution and foraging behavior. Scopoli's shearwater Calonectris diomedea is a long‐lived seabird that experiences high bycatch rates in longline fisheries and strong population‐level impacts due to this type of anthropogenic mortality. Analyzing a long‐term dataset on individual monitoring, we compared adult survival (by means of multi‐event capture–recapture models) among three close predator‐free Mediterranean colonies of the species. Unexpectedly for a long‐lived organism, adult survival varied among colonies. We explored potential causes of this differential survival by (1) measuring egg volume as a proxy of food availability and parental condition; (2) building a specific longline bycatch risk map for the species; and (3) assessing the distribution patterns of breeding birds from the three study colonies via GPS tracking. Egg volume was very similar between colonies over time, suggesting that environmental variability related to habitat foraging suitability was not the main cause of differential survival. On the other hand, differences in foraging movements among individuals from the three colonies expose them to differential mortality risk, which likely influenced the observed differences in adult survival. The overlap of information obtained by the generation of specific bycatch risk maps, the quantification of population demographic parameters, and the foraging spatial analysis should inform managers about differential sensitivity to the anthropogenic impact at mesoscale level and guide decisions depending on the spatial configuration of local populations. The approach would apply and should be considered in any species where foraging distribution is colony‐specific and mortality risk varies spatially. Marine megafauna are critically affected by fisheries bycatch: here, we compared adult survival among three colonies of a seabird in the western Mediterranean. The overlap of information obtained by the generation of specific bycatch risk maps, the quantification of population demographic parameters and the foraging spatial analysis should inform managers about differential sensitivity to the anthropogenic impact at mesoscale level and guide decisions depending on the spatial configuration of local populations. The approach would apply and should be considered in any species where foraging distribution is colony‐specific and mortality risk varies spatially.
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ISSN:1354-1013
1365-2486
DOI:10.1111/gcb.13997