Your search keyword '"Buck, C. Loren"' showing total 10 results

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

Author

Sadowska, Julita, Carlson, Karen M., Buck, C. Loren, Lee, Trixie N., and Duddleston, Khrystyne N.

Subjects

GROUND squirrels, HYPOTHERMIA, MICROBIAL metabolites, ENERGY conservation, FUEL switching

Abstract

Energy conservation associated with hibernation is maximized at the intersection of low body temperature (Tb), long torpor bouts, and few interbout arousals. In the arctic ground squirrel (Urocitellus parryii), energy conservation during hibernation is best achieved at ambient temperatures (Ta) around 0 °C; however, they spend the majority of hibernation at considerably lower Ta. Because arctic ground squirrels switch to mixed fuel metabolism, including protein catabolism, at extreme low Ta of hibernation, we sought to investigate how microbial urea-nitrogen recycling is used under different thermal conditions. Injecting squirrels with isotopically labeled urea (13C/15N) during hibernation at Ta'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 Ta 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 Tb 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. [ABSTRACT FROM AUTHOR]

Published

2024

2. Microbial gene expression during hibernation in arctic ground squirrels: greater differences across gut sections than in response to pre-hibernation dietary protein content.

Author

Grond, Kirsten, Buck, C. Loren, and Duddleston, Khrystyne N.

Subjects

DIETARY proteins, GROUND squirrels, GENE expression, MICROBIAL genes, HIBERNATION, SMALL intestine

Abstract

Obligate seasonal hibernators fast for 5-9 months depending on species yet resist muscle atrophy and emerge with little lean mass loss. The role of the gut microbiome in host nitrogen metabolism during hibernation is therefore of considerable interest, and recent studies support a role for urea nitrogen salvage (UNS) in host-protein conservation. We were interested in the effect of pre-hibernation diet on UNS and the microbial provision of essential amino acids (EAAs) during hibernation; therefore, we conducted a study whereby we fed arctic ground squirrels (Urocitellus parryii) pre-hibernation diets containing 9% vs. 18% protein and compared the expression of gut bacterial urease and amino acid (AA) metabolism genes in 4 gut sections (cecum mucosa, cecum lumen, small intestine [SI] mucosa, and SI lumen) during hibernation. We found that pre-hibernation dietary protein content did not affect expression of complete bacterial AA pathway genes during hibernation; however, several individual genes within EAA pathways were differentially expressed in squirrels fed 18% pre-hibernation dietary protein. Expression of genes associated with AA pathways was highest in the SI and lowest in the cecum mucosa. Additionally, the SI was the dominant expression site of AA and urease genes and was distinct from other sections in its overall microbial functional and taxonomic composition. Urease expression in the gut microbiome of hibernating squirrels significantly differed by gut section, but not by prehibernation dietary protein content. We identified two individual genes that are part of the urea cycle and involved in arginine biosynthesis, which were significantly more highly expressed in the cecum lumen and SI mucosa of squirrels fed a pre-hibernation diet containing 18% protein. Six bacterial genera were responsible for 99% of urease gene expression: Cupriavidus, Burkholderia, Laribacter, Bradhyrizobium, Helicobacter, and Yersinia. Although we did not find a strong effect of pre-hibernation dietary protein content on urease or AA metabolism gene expression during hibernation, our data do suggest the potential for pre-hibernation diet to modulate gut microbiota function during hibernation, and further investigations are warranted. [ABSTRACT FROM AUTHOR]

Published

2023

3. Effects of Spring Warming on Seasonal Neuroendocrinology and Activation of the Reproductive Axis in Hibernating Arctic Ground Squirrels.

Author

Chmura, Helen E, Duncan, Cassandra, Saer, Ben, Moore, Jeanette T, Barnes, Brian M, Buck, C Loren, Loudon, Andrew S I, and Williams, Cory T

Subjects

GROUND squirrels, SPRING, SEASONS, NEUROENDOCRINOLOGY, THYROID hormones, WINTER

Abstract

Many animals adjust the timing of seasonal events, such as reproduction, molt, migration, and hibernation, in response to interannual variation and directional climate-driven changes in temperature. However, the mechanisms by which temperature influences seasonal timing are relatively under-explored. Seasonal timing involves retrograde signaling in which thyrotropin (TSH) in the pars tuberalis (PT) alters expression of thyroid hormone (TH) deiodinases (Dio2 / Dio3) in tanycyte cells lining the third ventricle of the hypothalamus. This, in turn, affects the availability of triiodothyronine (T3) within the mediobasal hypothalamus—increased hypothalamic T3 restores a summer phenotype and activates the reproductive axis in long-day breeders. Recently, we showed that retrograde TH signaling is activated during late hibernation in arctic ground squirrels (Urocitellus parryii) held in constant darkness and constant ambient temperature. Sensitivity of seasonal pathways to nonphotic cues, such as temperature, is likely particularly important to hibernating species that are sequestered in hibernacula during spring. To address this issue, we exposed captive arctic ground squirrels of both sexes to an ecologically relevant increase in ambient temperature (from −6 to −1°C) late in hibernation and examined the effects of warming on the seasonal retrograde TSH/Dio/T3 signaling pathway, as well as downstream elements of the reproductive axis. We found that warmed males tended to have higher PT TSHβ expression and significantly heavier testis mass whereas the TSH/Dio/T3 signaling pathway was unaffected by warming in females, although warmed females exhibited a slight decrease in ovarian mass. Our findings suggest that temperature could have different effects on gonadal growth in male and female arctic ground squirrels, which could lead to mismatched timing in response to rapid climate change. [ABSTRACT FROM AUTHOR]

Published

2022

4. Survival estimates of free-living arctic ground squirrels (Urocitellus parryii): effects of sex and biologging.

Author

Wilbur, Sara M., Deane, Cody E., Breed, Greg A., Buck, C. Loren, Williams, Cory T., and Barnes, Brian M.

Subjects

GROUND squirrels, HIBERNATION, CONFIDENCE intervals

Abstract

Copyright of Canadian Journal of Zoology is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

5. Environmental heterogeneity affects seasonal variation in thyroid hormone physiology of free-living arctic ground squirrels (Urocitellus parryii).

Author

Williams, Cory T., Chmura, Helen E., Zhang, Victor, Dillon, Danielle, Wilsterman, Kathryn, Barnes, Brian M., and Buck, C. Loren

Subjects

GROUND squirrels, THYROID hormones, SEASONAL variations of diseases, PHYSIOLOGY, BIOLOGICAL rhythms, HETEROGENEITY

Abstract

Copyright of Canadian Journal of Zoology is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

6. Hibernation and Circadian Rhythms of Body Temperature in Free-Living Arctic Ground Squirrels.

Author

Williams, Cory T., Barnes, Brian M., Richter, Melanie, and Buck, C. Loren

Subjects

CIRCADIAN rhythms, BODY temperature, HIBERNATION, GROUND squirrels, HIBERNACULA (Animal habitations)

Abstract

In mammals, the circadianmaster clock generates daily rhythms of body temperature (Tb) that act to entrain rhythms in peripheral circadian oscillators. The persistence and function of circadian rhythms during mammalian hibernation is contentious, and the factors that contribute to the reestablishment of rhythms after hibernation are unclear. We collected regular measures of core Tb (every 34 min) and ambient light conditions (every 30 s) before, during, and following hibernation in free-living male arctic ground squirrels. Free-running circadian Tb rhythms at euthermic levels of Tb persisted for up to 10 d in constant darkness after animals became sequestered in their hibernacula in fall. During steady state torpor, Tb was constant and arrhythmic for up to 13 d (within the 0.19°C resolution of loggers). In spring, males ended heterothermy but remained in their burrows at euthermic levels of Tb for 22-26 d; patterns of Tb were arrhythmic for the first 10 d of euthermia. One of four squirrels exhibited a significant free-running Tb rhythm (τ = 22.1 h) before emergence; this squirrel had been briefly exposed to low-amplitude light before emergence. In all animals, diurnal Tb rhythms were immediately reestablished co-incident with emergence to the surface and the resumption of surface activity. Our results support the hypothesis that clock function is inhibited during hibernation and reactivated by exposure to light, although resumption of extended surface activity does not appear to be necessary to reinitiate Tb cycles. [ABSTRACT FROM AUTHOR]

Published

2012

7. Effects of ambient temperature on metabolic rate, respiratory quotient, and torpor in an arctic hibernator.

Author

Buck, C. Loren and Barnes, Brian M.

Subjects

*GROUND squirrels, *RESPIRATORY quotient, *PHYSIOLOGICAL effects of temperature

Abstract

Presents information on a study on the effects of ambient temperature on metabolic rate, respiratory quotient and torpor in arctic ground squirrels. Details on the energetic costs and substrate use in hibernation under arctic conditions; Methodology of the study; results and discussion; Conclusion.

Published

2000

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

Author

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

Subjects

*CLIMATE change, *SOIL freezing, *GLOBAL warming, *PHYSIOLOGY, *GROUND squirrels, *BIOLOGICAL systems

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 delayed and, in response, arctic ground squirrels have delayed when they up-regulate heat production during torpor to prevent freezing. Further, the termination of hibernation in spring has advanced 4 days per decade in females but not males. Continued warming and phenological shifts will alter hibernation energetics, change the seasonal availability of this important prey species, and potentially disrupt intraspecific interactions. [ABSTRACT FROM AUTHOR]

Published

2023

9. Plasticity and repeatability of activity patterns in free-living Arctic ground squirrels.

Author

Chmura, Helen E., Zhang, Victor Y., Wilbur, Sara M., Barnes, Brian M., Buck, C. Loren, and Williams, Cory T.

Subjects

*GROUND squirrels, *SEXUAL selection, *STATISTICAL reliability, *NATURAL selection, *SEXUAL intercourse, *DATA logging

Abstract

Social interactions can shape daily activity patterns, and this is an area of growing research interest. The propensity for individuals to be active at certain times of day may structure interactions with competitors and potential mates, influencing fitness outcomes. Aspects of daily activity such as timing of activity onset and offset exhibit within-individual repeatability, which raises the possibility that they may be subject to natural and sexual selection. This study used a biologging approach in free-living Arctic ground squirrels, Urocitellus parryii , to test the hypothesis that interactions between the sexes shape temporal patterns of daily activity. We predicted that males would become active earlier than females during the mating period, consistent with sexual selection on activity timing. We also examined repeatability in activity timing and how repeatability estimates are affected by sampling methodology. We deployed collar-mounted light loggers on ground squirrels and used timing of light transitions to determine daily onset and offset of above-ground activity. We observed 87 animals over 3 years, collecting over 7500 observations of daily activity. We found that daily activity timing had moderate (onset) to low (offset) adjusted repeatability. The difference in daily activity timing between the sexes varied seasonally: males remained active later than females during mating, while females initiated activity earlier and extended activity later during lactation. Adjusted repeatability estimates were sensitive to sampling methodology: they varied seasonally and declined with increased behavioural sampling. These results suggest that offset, not onset, may be shaped by sexual selection and that life history differences shape sex-dependent activity patterns in ground squirrels. We propose that activity onset may be under more strict circadian control than offset. This study suggests that researchers must consider seasonality and sampling design when estimating behavioural repeatability. Biologging could transform studies of individual variation by enabling high-frequency sampling of free-living animals. • Arctic ground squirrels showed evidence of circadian chronotypes. • Activity onset and offset differed by sex, especially during mating and lactation. • Activity onset reflected life-history energetics rather than sexual selection. • Repeatability estimates were affected by sampling frequency and design. [ABSTRACT FROM AUTHOR]

Published

2020

10. Glucocorticoids and activity in free-living arctic ground squirrels: Interrelationships between weather, body condition, and reproduction.

Author

Zhang, Victor Y., Williams, Cory T., Palme, Rupert, and Buck, C. Loren

Subjects

*GROUND squirrels, *GLUCOCORTICOIDS, *FORAGING behavior, *WEATHER, *SQUIRRELS, *REPRODUCTION

Abstract

The dynamic relationship between glucocorticoids and behavior are not well understood in wild mammals. We investigated how weather, body condition, and reproduction interact to affect cortisol levels and activity patterns in a free-living population of arctic ground squirrels (Urocitellus parryii). As a proxy for foraging and escape behaviors, collar-mounted accelerometers and light loggers were used to measure above-ground activity levels and the amount of time squirrels spent below the surface, respectively. Fecal cortisol metabolites (FCMs) were quantified to assess glucocorticoid secretion in squirrels. Male and female squirrels differed in above-ground activity levels and time spent below-ground across the active season, with males being most active during mating and females most active during lactation. We also found that female, but not male, squirrels exhibited seasonal variation in FCM levels, with concentrations highest during mid-lactation and lowest after the lactation period. In female squirrels, the seasonal relationships between breeding stage, activity, and FCM levels were also consistent with changes in maternal investment and the preparative role that glucocorticoids are hypothesized to play in energy mobilization. Body condition was not associated with FCM levels in squirrels. As predicted, deteriorating weather also influenced FCM levels and activity patterns in squirrels. FCM concentrations were affected by an interaction between temperature and wind speed when seasonal temperatures were lowest. In addition, above-ground activity, but not time spent below-ground, positively correlated with FCM levels. These results suggest that, although ground squirrels avoid inclement weather by remaining below-ground, activation of the stress axis may stimulate foraging activity. • Links between glucocorticoids and behavior are not well studied in wild mammals. • Biologgers were used to model foraging and escape behavior in ground squirrels. • Fecal cortisol and activity levels showed strong sex-dependent seasonal rhythms. • Inclement weather increased cortisol levels only during the early season. • Above-ground activity (foraging) positively correlated with cortisol levels. [ABSTRACT FROM AUTHOR]

Published

2020