Climate change is altering the physiology and phenology of an arctic hibernator

Chmura, Helen E.; Duncan, Cassandra; Burrell, Greg; Barnes, Brian M.; Buck, C. Loren; Williams, Cory T.

doi:10.1126/science.adf5341

Science

2023

DOI: 10.1126/science.adf5341

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Climate change is altering the physiology and phenology of an arctic hibernator

Helen E. Chmura

Cassandra Duncan

Greg Burrell

et al.

Abstract: Climate warming is rapid in the Arctic, yet impacts to biological systems are unclear because few long-term studies linking biophysiological processes with environmental conditions exist for this data-poor region. In our study spanning 25 years in the Alaskan Arctic, we demonstrate that climate change is affecting the timing of freeze-thaw cycles in the active layer of permafrost soils and altering the physiology of arctic ground squirrels ( Urocitellus parryii ). Soil freeze has been d… Show more

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Cited by 10 publications

References 35 publications

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Permutation Tests to Identify Significant Constraint or Promotion Within Biological Scatterplots

Mills,

van Mazijk

2024

Ecology and Evolution

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Scatterplots of biological datasets often have no‐data zones, which suggest constraint or promotion of dependent variables. Although methods exist to estimate boundary lines—that is, to fit lines to the edges of scatters of data points—there are, to our knowledge, none available to assess the significance of the areal extents of no‐data zones. Accordingly, we propose a flexible boundary line definition paired with a permutation test of the magnitude of no‐data zones—rather than testing the shape or slope of the line as current methods do. Our proposed permutation test can be used with any method of defining a boundary line. We demonstrate our approach with empirical datasets, find no‐data zones that methods such as quantile regressions fail to detect, and discuss how our approach can quantify constraint and promotion relationships that are not always apparent with other statistics.

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Permutation Tests to Identify Significant Constraint or Promotion Within Biological Scatterplots

Mills,

van Mazijk

2024

Ecology and Evolution

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A clock for all seasons in the subterranean

Oda,

Valentinuzzi

2023

J Comp Physiol A

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Microbial urea-nitrogen recycling in arctic ground squirrels: the effect of ambient temperature of hibernation

Sadowska,

Carlson,

Buck

et al. 2024

J Comp Physiol B

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Energy conservation associated with hibernation is maximized at the intersection of low body temperature (T b ), long torpor bouts, and few interbout arousals. In the arctic ground squirrel ( Urocitellus parryii ), energy conservation during hibernation is best achieved at ambient temperatures (T a ) around 0 °C; however, they spend the majority of hibernation at considerably lower T a . Because arctic ground squirrels switch to mixed fuel metabolism, including protein catabolism, at extreme low T a of hibernation, we sought to investigate how microbial urea-nitrogen recycling is used under different thermal conditions. Injecting squirrels with isotopically labeled urea ( 13 C/ 15 N) during hibernation at T a ’s of − 16 °C and 2 °C and while active and euthermic allowed us to assess the ureolytic activity of gut microbes and the amount of liberated nitrogen incorporated into tissues. We found greater incorporation of microbially-liberated nitrogen into tissues of hibernating squirrels. Although ureolytic activity appears higher in euthermic squirrels, liberated nitrogen likely makes up a smaller percentage of the available nitrogen pool in active, fed animals. Because non-lipid fuel is a limiting factor for torpor at lower T a in this species, we hypothesized there would be greater incorporation of liberated nitrogen in animals hibernating at − 16 °C. However, we found higher microbial-ureolytic activity and incorporation of microbially-liberated nitrogen, particularly in the liver, in squirrels hibernating at 2 °C. Likely this is because squirrels hibernating at 2 °C had higher T b and longer interbout arousals, a combination of factors creating more favorable conditions for gut microbes to thrive and maintain greater activity while giving the host more time to absorb microbial metabolites. Supplementary Information The online version contains supplementary material available at 10.1007/s00360-024-01579-9.

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Climate change is altering the physiology and phenology of an arctic hibernator

Cited by 10 publications

References 35 publications

Permutation Tests to Identify Significant Constraint or Promotion Within Biological Scatterplots

Permutation Tests to Identify Significant Constraint or Promotion Within Biological Scatterplots

A clock for all seasons in the subterranean

Microbial urea-nitrogen recycling in arctic ground squirrels: the effect of ambient temperature of hibernation

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