TY - JOUR
T1 - Tracking reveals limited interactions between Campbell Albatross and fisheries during the breeding season
AU - Sztukowski, Lisa A.
AU - van Toor, Mariëlle L.
AU - Weimerskirch, Henri
AU - Thompson, David R.
AU - Torres, Leigh G.
AU - Sagar, Paul M.
AU - Cotton, Peter A.
AU - Votier, Stephen C.
N1 - Funding Information:
We would like to thank the Campbell Island field crews, boat crews (particularly the RV Tiama), and the Department of Conservation personnel, who made the data collection possible. Special thanks to Caitlin Kroeger for field assistance, her company and project discussions. Thanks also to Samantha Patrick, Nils Piechaud, Grant Humphries, Emilie Hall, Holly Armstrong, Clare Embling, Samantha Cox, and Andy Foggo for geographic information system (GIS) assistance, thoughtful discussions, and comments on drafts. We are grateful to the New Zealand Ministry of Fisheries for providing access to the VMS data. This study was funded through a MARES grant (FPA 2011-0016), the National Institute of Water and Atmospheric Research Limited, the New Zealand Department of Conservation and the New Zealand Ministry of Business, Innovation and Employment. Maps were created using ArcGIS software (Ocean Basemap Sources—Esri, GEBCO, NOAA, National Geographic, De Lorme, HERE, Geonames.org, and other contributors) by Esri. ArcGIS and ArcMap are the intellectual property of Esri and are used herein under license. The authors declare that they have no conflict of interest. All applicable international, national, and/or institutional guidelines for the care and use of animals were followed. All scientific procedures and site access were conducted under permit issued by the New Zealand Department of Conservation and were approved by the Animal Ethics Committee at Plymouth University. Great care was taken to minimize stress to the animals during handling.
Publisher Copyright:
© 2017, Dt. Ornithologen-Gesellschaft e.V.
PY - 2017/7/1
Y1 - 2017/7/1
N2 - Fisheries-related mortality has been influential in driving global declines in seabird populations. Understanding the overlap between seabird distribution and fisheries is one important element in assessing bycatch risk, and may be achieved by tracking the movements of individual birds and fishing vessels. Here, we assess the spatiotemporal overlap between the vulnerable Campbell Albatross Thalassarche impavida and large (>28 m) commercial fishing boats in New Zealand’s Exclusive Economic Zone (EEZ). We used a novel analytical approach, bivariate Gaussian bridge movement modelling, to compute spatiotemporal utilization distributions of bird-borne global positioning system (GPS) loggers and data from the Vessel Monitoring System. We tracked birds for 28,815 h during incubation and chick brooding, with half of this time spent within New Zealand’s EEZ, utilizing 6.7% of the available area. However, there was no evidence that albatrosses and fishing vessels were in the same location simultaneously. We accounted for the broader ecological footprint of fishing vessels by calculating the distance between GPS-fix locations for albatrosses and fishing vessels, revealing that albatrosses were within 30 km of fishing vessels in 8.4% of foraging trips. This highlights differences in estimated fine-scale spatiotemporal overlaps which may be due to the distance between albatrosses and vessels or the methods used. Overall, the low levels of spatial overlap could be a result of Campbell Albatross’ preference for foraging in areas without fishing activity or competitive exclusion by other species. Our results reinforce the importance of multi-scale, temporally explicit, and multi-national approaches to risk assessment, as Campbell Albatrosses spend approximately half of their time foraging outside New Zealand’s EEZ.
AB - Fisheries-related mortality has been influential in driving global declines in seabird populations. Understanding the overlap between seabird distribution and fisheries is one important element in assessing bycatch risk, and may be achieved by tracking the movements of individual birds and fishing vessels. Here, we assess the spatiotemporal overlap between the vulnerable Campbell Albatross Thalassarche impavida and large (>28 m) commercial fishing boats in New Zealand’s Exclusive Economic Zone (EEZ). We used a novel analytical approach, bivariate Gaussian bridge movement modelling, to compute spatiotemporal utilization distributions of bird-borne global positioning system (GPS) loggers and data from the Vessel Monitoring System. We tracked birds for 28,815 h during incubation and chick brooding, with half of this time spent within New Zealand’s EEZ, utilizing 6.7% of the available area. However, there was no evidence that albatrosses and fishing vessels were in the same location simultaneously. We accounted for the broader ecological footprint of fishing vessels by calculating the distance between GPS-fix locations for albatrosses and fishing vessels, revealing that albatrosses were within 30 km of fishing vessels in 8.4% of foraging trips. This highlights differences in estimated fine-scale spatiotemporal overlaps which may be due to the distance between albatrosses and vessels or the methods used. Overall, the low levels of spatial overlap could be a result of Campbell Albatross’ preference for foraging in areas without fishing activity or competitive exclusion by other species. Our results reinforce the importance of multi-scale, temporally explicit, and multi-national approaches to risk assessment, as Campbell Albatrosses spend approximately half of their time foraging outside New Zealand’s EEZ.
KW - Bivariate Gaussian Bridge movement models
KW - Bycatch
KW - New Zealand Exclusive Economic Zone
KW - Seabird–fishery interactions
KW - Spatiotemporal overlaps
KW - Thalassarche impavida
UR - http://www.scopus.com/inward/record.url?scp=85021210122&partnerID=8YFLogxK
U2 - 10.1007/s10336-016-1425-4
DO - 10.1007/s10336-016-1425-4
M3 - Article
AN - SCOPUS:85021210122
SN - 2193-7192
VL - 158
SP - 725
EP - 735
JO - Journal of Ornithology
JF - Journal of Ornithology
ER -