Access the full text.
Sign up today, get DeepDyve free for 14 days.
E. Gilman, C. Boggs (2003)
Performance assessment of an underwater setting chute to mitigate seabird bycatch in the Hawaii pelagic longline tuna fisheryOcean & Coastal Management, 46
K. Hyrenbach, P. Fernández, D. Anderson (2002)
Oceanographic habitats of two sympatric North Pacific albatrosses during the breeding seasonMarine Ecology Progress Series, 233
N. Brothers, J. Cooper, S. Lokkeborg (1999)
The incidental catch of seabirds by longline fisheries: Worldwide review and technical guidelines and mitigation
N. Brothers, A. Duckworth, C. Safina, E. Gilman (2010)
Seabird Bycatch in Pelagic Longline Fisheries Is Grossly Underestimated when Using Only Haul DataPLoS ONE, 5
T. Reid, B. Sullivan (2004)
Longliners, black-browed albatross mortality and bait scavenging in Falkland Island waters: what is the relationship?Polar Biology, 27
Galit Shmueli, T. Minka, J. Kadane, Sharad Borle, Peter Boatwright (2005)
A useful distribution for fitting discrete data: revival of the Conway–Maxwell–Poisson distributionJournal of the Royal Statistical Society: Series C (Applied Statistics), 54
N. Klaer, T. Polacheck (1998)
The Influence of Environmental Factors and Mitigation Measures on By-Catch Rates of Seabirds by Japanese Longline Fishing Vessels in the Australian RegionEmu, 98
S. Basu (2011)
Book Review: Species on the Edge of Survival. International Union for Conservation of Nature (IUCN) Red List, 69
J. Kadane, Galit Shmueli, T. Minka, Sharad Borle, Peter Boatwright (2006)
Conjugate Analysis of the Conway-Maxwell-Poisson DistributionBayesian Analysis, 1
J. Haney, A. Stone (1988)
Seabird foraging tactics and water clarity are plunge divers really in the clearMarine Ecology Progress Series, 49
(2009)
Description of the US pelagic observer program (POP)
O. Anderson, C. Small, J. Croxall, E. Dunn, B. Sullivan, O. Yates, A. Black (2011)
Global seabird bycatch in longline fisheriesEndangered Species Research, 14
D. Gianuca, R. Phillips, S. Townley, S. Votier (2017)
Global patterns of sex- and age-specific variation in seabird bycatchBiological Conservation, 205
J. Watson, S. Epperly, Arvind Shah, D. Foster (2005)
Fishing methods to reduce sea turtle mortality associated with pelagic longlinesCanadian Journal of Fisheries and Aquatic Sciences, 62
A. Winter, Y. Jiao, J. Browder (2011)
Modeling Low Rates of Seabird Bycatch in the U.S. Atlantic Longline Fishery, 34
P. Ryan, B. Watkins (2002)
Reducing incidental mortality of seabirds with an underwater longline setting funnelBiological Conservation, 104
P. Fernández, D. Anderson, P. Sievert, K. Huyvaert (2001)
Foraging destinations of three low‐latitude albatross (Phoebastria) speciesJournal of Zoology, 254
L. Komoroske, R. Lewison (2015)
Addressing fisheries bycatch in a changing worldFrontiers in Marine Science, 2
A. Bjordal, S. Lokkeborg (1996)
Longlining
Yan Li, Y. Jiao (2013)
Modeling seabird bycatch in the U.S. Atlantic pelagic longline fishery: Fixed year effect versus random year effectEcological Modelling, 260
P. Ryan, D. Keith, M. Kroese (2002)
Seabird bycatch by tuna longline fisheries off southern Africa, 1998–2000South African Journal of Marine Science, 24
(2002)
Discussion of the paper by Spiegelhalter et al
J. Browder, Y. Jiao (2012)
Hook Effects on Seabird Bycatch in the United States Atlantic Pelagic Longline FisheryBulletin of Marine Science, 88
L. Bull (2007)
Reducing seabird bycatch in longline, trawl and gillnet fisheriesFish and Fisheries, 8
J. Haney (1990)
Winter habitat of common loons on the continental shelf of the Southeastern United StatesThe Wilson Journal of Ornithology, 102
A. Hedd, P. Regular, S. Wilhelm, Jean-François Rail, B. Drolet, Mark Fowler, C. Pekarik, G. Robertson (2016)
Characterization of seabird bycatch in eastern Canadian waters, 1998–2011, assessed from onboard fisheries observer dataAquatic Conservation-marine and Freshwater Ecosystems, 26
N. Huin, J. Croxall (1996)
FISHING GEAR, OIL AND MARINE DEBRIS ASSOCIATED WITH SEABIRDS AT BIRD ISLAND, SOUTH GEORGIA, DURING 1993/1994Marine ornithology, 24
H. Weimerskirch, P. Jouventin (1997)
Population dynamics of wandering albatross Diomedea exulans and Amsterdam albatross D. amsterdamensis in the Indian Ocean and their relationships with long-line fisheries: Conservation implicationsBiological Conservation, 79
N. Klaer (2012)
Estimates of total seabird bycatch by Atlantic pelagic longline fisheries from 2003 to 2006
E. Gilman, M. Chaloupka, J. Peschon, S. Ellgen (2016)
Risk Factors for Seabird Bycatch in a Pelagic Longline Tuna FisheryPLoS ONE, 11
Lawrence Beerkircher, E. Cortés, M. Shivji (2002)
Characteristics of Shark Bycatch Observed on Pelagic Longlines Off the Southeastern United States, 1992-2000, 64
J. Croxall, P. Rothery, S. Pickering, P. Prince (1990)
Reproductive performance, recruitment and survival of wandering albatrosses Diomedea exulans at Bird Island, South GeorgiaJournal of Animal Ecology, 59
R. G. Brown, B. Brown, D. N. Nettleship (1989)
Status and Conservation of the World's Seabirds, 2
D. Lord, S. Guikema, Srinivas Geedipally (2008)
Application of the Conway-Maxwell-Poisson generalized linear model for analyzing motor vehicle crashes.Accident; analysis and prevention, 40 3
E. Gilman, M. Chaloupka, A. Read, P. Dalzell, J. Holetschek, Corrie Curtice (2012)
Hawaii longline tuna fishery temporal trends in standardized catch rates and length distributions and effects on pelagic and seamount ecosystemsAquatic Conservation-marine and Freshwater Ecosystems, 22
Yan Li, Y. Jiao, J. Browder (2016)
Assessment of seabird bycatch in the US Atlantic pelagic longline fishery, with an extra exploration on modeling spatial variationIces Journal of Marine Science, 73
R. Lewison, D. Oro, B. Godley, L. Underhill, S. Bearhop, R. Wilson, D. Ainley, J. Arcos, P. Boersma, P. Borboroglu, T. Boulinier, M. Frederiksen, M. Genovart, J. González‐Solís, J. Green, K. Hamer, G. Hilton, K. Hyrenbach, A. Martínez‐Abraín, W. Montevecchi, R. Phillips, P. Ryan, P. Sagar, W. Sydeman, S. Wanless, Y. Watanuki, H. Weimerskirch, P. Yorio (2012)
Research priorities for seabirds: improving conservation and management in the 21st centuryEndangered Species Research, 17
Fisheries bycatch of seabirds presents a serious management problem, and relatively little is known about this problem. In the Western North Atlantic, the issue is complicated by the relatively low effort and coverage of the observer programme and the high uncertainty in species identification. The Western North Atlantic is home to many endemic and endangered seabird populations, and the impact of fishery‐caused seabird bycatch has been of high interest, especially for those species with a low population size; however, species‐specific bycatch estimates have been difficult. From 1992 to 2016, 158 seabirds were observed caught by the US Atlantic pelagic longline fleet; among them, only 80 were identified to species, 25 were identified to family, and the rest – mainly in the older records – were unidentified. In this study, ecological traits of seabirds were used to improve bycatch estimation and provide species‐specific risk analysis to all the potentially affected seabird species in this region. Bayesian state–space modelling was used to accommodate the high level of uncertainty in the species identification process. Seabird bycatch risk was found to be highly dependent on population size. The group of large seabird species was estimated to be two times as vulnerable as the group of mid‐to‐small seabird species, scavenging and plunge‐diving feeding modes were identified as imposing high bycatch risks, and spatial and temporal distribution patterns were also good indicators of bycatch risk. Based on these ecological traits, shearwaters, gulls, gannets, and petrels were identified to potentially suffer from high bycatch in this region. These species, especially those that have not been identified historically, deserve extra attention in the observer programme, and for the implementation of conservation measures of seabirds in this region.
Aquatic Conservation: Marine and Freshwater Ecosystems – Wiley
Published: Aug 1, 2019
Keywords: ; ; ; ; ;
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.