Conor D. Mallory scite author profile

Abstract:The ability of many species to adapt to the shifting environmental conditions associated with climate change will be a key determinant of their persistence in the coming decades. This is a challenge already faced by species in the Arctic, where rapid environmental change is well underway. Caribou and reindeer (Rangifer tarandus) play a key role in Arctic ecosystems and provide irreplaceable socioeconomic value to many northern peoples. Recent decades have seen declines in many Rangifer populations, and there is strong concern that climate change is threatening the viability of this iconic Arctic species. We examine the literature to provide a thorough and full consideration of the many environmental factors that limit caribou and reindeer populations, and how these might be affected by a warming climate. Our review suggests that the response of Rangifer populations to climate change is, and will continue to be, varied in large part to their broad circumpolar distribution. While caribou and reindeer could have some resilience to climate change, current global trends in abundance undermine all but the most precautionary outlooks. Ultimately, the conservation of Rangifer populations will require careful management that considers the local and regional manifestations of climate change.Key words: climate change, caribou, reindeer, Rangifer, Arctic.Résumé : La capacité de bien des espèces à s'adapter aux conditions changeantes du milieu, associées au changement climatique, sera un facteur déterminant de leur pérennité dans les décennies à venir. Ceci constitue un défi auquel les espèces sont déjà confrontées dans l'Arctique, où la dégradation rapide de l'environnement est bien amorcée. Les caribous et les rennes (Rangifer tarandus) jouent un rôle essentiel dans les écosystèmes arctiques et apportent une valeur socio-économique irremplaçable aux populations du Nord. Au cours des dernières décennies, il y a eu des déclins dans beaucoup de populations de Rangifer et il règne une grande inquiétude que le changement climatique menace la viabilité de cette espèce iconique de l'Arctique. Nous examinons la littérature afin de fournir une étude complète et minutieuse des nombreux facteurs du milieu restreignant les populations de caribous et de rennes, et de déterminer comment ces populations pourraient être touchées par le réchauffement climatique. Notre examen suggère que la réponse des populations de Rangifer au changement climatique est, et continuera à être, diverse principalement en raison de leur vaste aire de répartition circumpolaire. Tandis que les caribous et les rennes pourraient avoir une certaine résilience au changement climatique, les tendances globales actuelles d'abondance des espèces affaiblissent toutes les perspectives sauf les plus préoccupantes. En fin de compte, la conservation des populations de Rangifer nécessitera une gestion prudente qui prenne en compte les manifestations locales et régionales de changement climatique. [Traduit par la Rédaction]

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Muskox status, recent variation, and uncertain future

Cuyler

Rowell

Adamczewski

et al. 2019

Ambio

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Muskoxen (Ovibos moschatus) are an integral component of Arctic biodiversity. Given low genetic diversity, their ability to respond to future and rapid Arctic change is unknown, although paleontological history demonstrates adaptability within limits. We discuss status and limitations of current monitoring, and summarize circumpolar status and recent variations, delineating all 55 endemic or translocated populations. Acknowledging uncertainties, global abundance is ca 170 000 muskoxen. Not all populations are thriving. Six populations are in decline, and as recently as the turn of the century, one of these was the largest population in the world, equaling ca 41% of today's total abundance. Climate, diseases, and anthropogenic changes are likely the principal drivers of muskox population change and result in multiple stressors that vary temporally and spatially. Impacts to muskoxen are precipitated by habitat loss/degradation, altered vegetation and species associations, pollution, and harvest. Which elements are relevant for a specific population will vary, as will their cumulative interactions. Our summaries highlight the importance of harmonizing existing data, intensifying long-term monitoring efforts including demographics and health assessments, standardizing and implementing monitoring protocols, and increasing stakeholder engagement/contributions.

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Response of barren-ground caribou to advancing spring phenology

et al. 2020

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Defining Landscapes and Scales to Model Landscape–Organism Interactions

Boyce

Mallory

Morehouse

et al. 2017

Curr Landscape Ecol Rep

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Purpose of Review We review and provide comment on issues of scale in ecological studies in the context of two paradigms used to define landscapes: the patch-mosaic and gradient models. Our intent is to offer guidance for structuring habitat-selection models with examples of how scale, autocorrelation, measurement error, and choice of patch-mosaic or gradient models, analysis methods, and covariates by the researcher can influence inferences regarding landscapeorganism interactions. Recent Findings Methods that allow the organism or data to define the grain and extent of scale of the study offer promise by reducing subjectivity in choices of scale. Ultimately, we recommend that the ecological phenomenon of interest should shape the selection of models defining landscape-organism interaction; however, the choice of model remains with the researcher and is dependent on the research question and the availability of data. Clearly, both the patch-mosaic and gradient models can provide reasonable frameworks for study, and multiple scales that draw from both paradigms often may be most appropriate. Summary Scale has been identified as a crucial feature of landscape ecology, yet scale as a paradigm has offered little direction for ecologists. Likewise, debate contrasting gradient models and patch-mosaic models offers few new insights on how ecologists might decide on an appropriate scale for analysis of organism distribution or habitat selection. Various ecological processes influence organisms at different scales and modeling approaches need to be able to accommodate multiple scales simultaneously, which may vary by landscape structure and movement ecology. The continuum of scales and combinations of both gradient and patch-mosaic landscapes provides the necessary array of structures that can be used to construct combinations of landscape covariates that coincide with the ecology of the organism across scales.

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Hepatic trace element concentrations of breeding female common eiders across a latitudinal gradient in the eastern Canadian Arctic

Mallory

Gilchrist

Robertson

et al. 2017

Marine Pollution Bulletin

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Conor D. Mallory

Observed and predicted effects of climate change on Arctic caribou and reindeer

Muskox status, recent variation, and uncertain future

Response of barren-ground caribou to advancing spring phenology

Defining Landscapes and Scales to Model Landscape–Organism Interactions

Hepatic trace element concentrations of breeding female common eiders across a latitudinal gradient in the eastern Canadian Arctic

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