Tactical departures and strategic arrivals: Divergent effects of climate and weather on caribou spring migrations

Abstract The Arctic has been warming rapidly, affecting ecological processes across the region. Caribou and reindeer ( Rangifer tarandus ) is a keystone Arctic species undergoing declines in many parts of its range, but definitive links between climate and populations remain elusive. The conspicuous...

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Bibliographic Details
Published in:Ecosphere
Main Authors: Gurarie, Eliezer, Hebblewhite, Mark, Joly, Kyle, Kelly, Allicia P., Adamczewski, Jan, Davidson, Sarah C., Davison, Tracy, Gunn, Anne, Suitor, Michael J., Fagan, William F., Boelman, Natalie
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2019
Subjects:
Arctic
Canada
Northwest Territories
Nunavut
Pacific
Yukon
North Atlantic
North Atlantic oscillation
Rangifer tarandus
Alaska
Online Access:http://dx.doi.org/10.1002/ecs2.2971
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https://onlinelibrary.wiley.com/doi/pdf/10.1002/ecs2.2971
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https://esajournals.onlinelibrary.wiley.com/doi/pdf/10.1002/ecs2.2971
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Summary:Abstract The Arctic has been warming rapidly, affecting ecological processes across the region. Caribou and reindeer ( Rangifer tarandus ) is a keystone Arctic species undergoing declines in many parts of its range, but definitive links between climate and populations remain elusive. The conspicuous and dramatic mass migration of many caribou populations, during which nearly all pregnant females move from wintering ranges to calving grounds shortly before giving birth, may be an important link between climate and caribou populations. The drivers of migration, however, are similarly mysterious. It is unknown, for example, whether caribou respond to immediate phenological cues, anticipate conditions on calving grounds, or are driven by lagged effects related to physical condition. To investigate the drivers of migration, we analyzed movement data from over 1000 individual caribou from seven major herds, spanning 3000 km across Alaska, Yukon, Northwest Territories (NWT), and Nunavut in Canada, from 1995 to 2017. We developed a hierarchical model to estimate migration departure and arrival times, and analyzed these variables against global climate indices and local weather conditions, exploring immediate and lagged effects, as well as snowmelt timing and vegetation indices. We discovered a continent‐wide synchrony in spring migration departure times, driven mainly by large‐scale, ocean‐driven climate indices (Pacific Decadal Oscillation, Arctic Oscillation, and North Atlantic Oscillation). However, we also found that the speed of migration was highly plastic with later migration departure times followed by shorter migration durations. This plasticity made arrival timing independent of departure timing and its respective drivers. Rather, arrival timing depended strongly on weather conditions from the previous summer: cooler and windier summers generally led to earlier arrival at calving grounds the following year. We suggest that maternal body condition, mainly influenced by conditions that limit insect harassment, ...

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