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dc.contributor.authorHeide-Jørgensen, M. P.
dc.contributor.authorHansen, R. G.
dc.contributor.authorFossette, S.
dc.contributor.authorNielsen, N. H.
dc.contributor.authorBorchers, D. L.
dc.contributor.authorStern, H.
dc.contributor.authorWitting, L.
dc.identifier.citationHeide-Jørgensen , M P , Hansen , R G , Fossette , S , Nielsen , N H , Borchers , D L , Stern , H & Witting , L 2017 , ' Rebuilding beluga stocks in West Greenland ' , Animal Conservation , vol. 20 , no. 3 , pp. 282-293 .
dc.identifier.otherBibtex: urn:f5adae1a99bba0bee8198c3bf30b99d2
dc.identifier.otherORCID: /0000-0002-3944-0754/work/72842472
dc.descriptionThis study was funded by the Greenland Bureau of Minerals and Petroleum, the Danish Cooperation of the Environment in the Arctic (DANCEA, Danish Ministry of the Environment) and the Greenland Institute of Natural Resources.en
dc.description.abstractDecisions about sustainable exploitation levels of marine resources are often based on inadequate data, but are nevertheless required for practical purposes. We describe one exception where abundance estimates spanning 30 years and catch data spanning more than 40 years were used in a Bayesian assessment model of belugas Delphinapterus leucas off West Greenland. The model was updated with data from a visual aerial survey on the wintering ground in 2012. Methods that take account of stochastic animal availability by using independent estimates of forward and perpendicular sighting distances were used to estimate beluga abundance. A model that appears to be robust to the presence of a few large groups yielded an estimate of 7456 belugas (cv = 0.44), similar to a conventional distance-sampling estimate. A mark–recapture distance analysis that corrects for perception and availability bias estimated the abundance to be 9072 whales (cv = 0.32). Increasing distance of beluga sightings from shore was correlated with decreasing sea ice cover, suggesting that belugas expand their distribution offshore (i.e. westward in this context) with the reduction of coastal sea ice. A model with high (0.98) adult survival estimated a decline from 18 600 (90% CI: 13 400, 26 000) whales in 1970 to 8000 (90% CI: 5830, 11 200) in 2004. The decline was probably a result of a period with exceptionally large catches. Following the introduction of catch limits in 2004, the model projects an increase to 11 600 (90% CI: 6760, 17 600) individuals in 2020 (assuming annual removals of 294 belugas after 2014). If the annual removal level is fixed at 300 individuals, a low-survival (0.97) model predicts a 75% probability of an increasing population during 2015–2020. Reduced removal rates due to catch limits and the more offshore, less accessible distribution of the whales are believed to be responsible for the initial signs of population recovery.
dc.relation.ispartofAnimal Conservationen
dc.subjectAerial surveyen
dc.subjectBayesian assessmenten
dc.subjectHidden Markov modelen
dc.subjectLine transecten
dc.subjectSea ice coveren
dc.subjectAbundance estimatesen
dc.subjectGE Environmental Sciencesen
dc.subjectQH301 Biologyen
dc.subjectQL Zoologyen
dc.subjectSDG 14 - Life Below Wateren
dc.titleRebuilding beluga stocks in West Greenlanden
dc.typeJournal articleen
dc.contributor.institutionUniversity of St Andrews. School of Mathematics and Statisticsen
dc.contributor.institutionUniversity of St Andrews. Marine Alliance for Science & Technology Scotlanden
dc.contributor.institutionUniversity of St Andrews. Scottish Oceans Instituteen
dc.contributor.institutionUniversity of St Andrews. Centre for Research into Ecological & Environmental Modellingen
dc.description.statusPeer revieweden

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