A Review of Thick-Billed Murre Banding in the Canadian Arctic, 1950–2010

Gaston, Anthony J.; Robertson, Gregory J.

doi:10.14430/arctic4419

Cited by 7 publications

(8 citation statements)

References 18 publications

(27 reference statements)

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“…In addition, we had no data on winter distribution of pre-breeding guillemots and therefore assumed that they behave like adult breeders. Nevertheless, the overall patterns accord well with all other information on guillemot winter distribution (e.g., ring recoveries; Bakken et al 2003;Lyngs 2003;Gaston & Robertson 2014), and we are confident that our main conclusions regarding impacts on specific breeding populations are robust. New tracking data not included here indicate that guillemots from Jan Mayen winter off south-west Greenland and north of Iceland (SEAPOP 2018), and that a few Icelandic birds winter on the Newfoundland Shelf (Linnebjerg et al 2018); including this information in the model would slightly change the predicted impacts of anthropogenic mortality.…”

Section: Model Limitationssupporting

confidence: 87%

Quantifying the relative impact of hunting and oiling on Brünnich’s guillemots in the North-west Atlantic

et al. 2019

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Brünnich's guillemot (Uria lomvia), or thick-billed murre, is an abundant pan-Arctic seabird, but several Atlantic breeding populations are declining. The species is subject to traditional harvest in the important wintering areas off west Greenland and Newfoundland, and has been subject to chronic oil pollution on the east coast of Canada. Until recently, knowledge of winter distribution has been insufficient to assess the impact of these mortality sources on specific breeding populations. We collate existing information on mortality from bag statistics in Greenland and Canada and studies of oiling off Newfoundland, as well as new data on age distribution in the harvest. Based on the results of recent tracking studies, we construct a spatially explicit population model that allocates hunting and oiling mortality to breeding populations and estimates the relative impact on their growth rate. Results indicate that annual population growth rate is depressed by 0.011-0.041 (approximately 1%-4%) by anthropogenic mortality sources. In addition to affecting local breeders, hunting in Greenland mainly affects declining breeding populations in Svalbard and Iceland, while hunting and oiling in Newfoundland mainly affect guillemots breeding in Arctic Canada and northwest Greenland, where most populations are relatively stable. The strongest relative impact is predicted on the small breeding population in Atlantic Canada, which winters mainly on the Newfoundland Shelf and therefore is exposed to both hunting and oiling. Our results clarify the relationships between hunting in Greenland and Canada and growth of specific breeding populations, and thus have major implications for harvest management of guillemots.

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Section: Model Limitationssupporting

confidence: 87%

Quantifying the relative impact of hunting and oiling on Brünnich’s guillemots in the North-west Atlantic

et al. 2019

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“…Our dataset differs from datasets derived from temperate systems in that (1) the coldto-warm shift can be clearly linked to a change in physical habitat (ice) and (2) some regime shifts appear to have occurred periodically for centuries, but the mid-1990s shift in Hudson Bay forms part of a general trend in Arctic sea ice cover, possibly associated with anthropogenic climate change (AMAP 2011) and therefore unlikely to be reversed. Our ability to detect the trends that we have described is greatly enhanced by the availability of a wide range of secondary prey at Coats Island, a situation that also exists at other low Arctic murre colonies in Canada (Gaston 1985).…”

Section: Discussionmentioning

confidence: 92%

Seabird diet changes in northern Hudson Bay, 1981-2013, reflect the availability of schooling prey

Gaston¹,

Elliott²

2014

Mar. Ecol. Prog. Ser.

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Ongoing climate change is altering Arctic marine ecosystems with major consequences for food-webs. Seabirds, by foraging over large marine areas but returning regularly to their breeding colonies, provide a good medium for tracking such changes. We studied the prey delivered to nestling thick-billed murres Uria lomvia at a colony in northern Hudson Bay, Canada, over the period 1981−2013. During that period, ice conditions in the region altered substantially, with earlier break-up and clearance. This change was not gradual but mainly occurred in the mid1990s. Breeding chronology also advanced, but not as fast as early summer ice clearance advanced. Ice conditions strongly affected diet, presumably reflecting the change in the timing of breeding relative to ice clearance. Of the dominant species in the diet, the proportion of Arctic cod Boreogadus saida decreased and the proportion of capelin Mallotus villosus increased over the 33 yr period, even after ice effects were taken into account, suggesting a progressive and cumulative effect of environmental change on the marine community. Those cumulative changes were manifested primarily in the diet representation of the most frequent taxa (cod and capelin), with variation in secondary diet components being driven by the availability of the dominant taxa. Diet diversity, representing an increase in the proportion of benthic fish (stichaeids, zoarcids, pholids and sculpins) and invertebrates (squid, amphipods and crustaceans), increased when ice cover was low, and hatching was late relative to ice break-up. Chick growth rates were low when the proportion of benthic fish was high. Hence, although it appears that growth rates are influenced by diet composition, it is more likely that they reflect the availability of the dominant schooling prey species, rather than any nutritional deficiency in benthic species.KEY WORDS: Ice cover · Climate change · Forage fish · Thick-billed murre · Uria lomvia Resale or republication not permitted without written consent of the publisher

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“…Historically, Arctic cod dominated the diet of thick-billed murres (Uria lomvia) breeding in the Canadian high Arctic (Gaston and Bradstreet, 1993) and, until the mid-1990s, was the most common prey item found in the diet of nestling murres throughout the Canadian Arctic (Gaston, 1985;Gaston and Jones, 1998). During the 1990s, ice conditions changed in Hudson Bay causing a shift in the diet of thick-billed murres breeding in northern Hudson Bay from Arctic cod to primarily capelin (Mallotus villosus) (Gaston et al, 2003Provencher et al, 2012) which occupy a lower trophic position and have lower mercury concentrations than Arctic cod (Braune et al, 2014a).…”

Section: Introductionmentioning

confidence: 99%

Changes in trophic position affect rates of contaminant decline at two seabird colonies in the Canadian Arctic

Braune

Gaston

Hobson

et al. 2015

Ecotoxicology and Environmental Safety

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A Review of Thick-Billed Murre Banding in the Canadian Arctic, 1950–2010

Cited by 7 publications

References 18 publications

Quantifying the relative impact of hunting and oiling on Brünnich’s guillemots in the North-west Atlantic

Quantifying the relative impact of hunting and oiling on Brünnich’s guillemots in the North-west Atlantic

Seabird diet changes in northern Hudson Bay, 1981-2013, reflect the availability of schooling prey

Changes in trophic position affect rates of contaminant decline at two seabird colonies in the Canadian Arctic

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