Abiotic limitation and the C 3 hypothesis: isotopic evidence from G unnison's prairie dog during persistent drought

Gunnison's prairie dog ( Cynomys gunnisoni ) is an herbivore that ranges from desert grasslands to high‐montane meadows and is limited by disease across much of its range. The importance of abiotic drivers to the population dynamics of the species is poorly known. We employed stable isotope ana...

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Bibliographic Details
Published in:Ecosphere (Washington, D.C) D.C), 2016-12, Vol.7 (12)
Main Authors: Hayes, Charles L., Talbot, William A., Wolf, Blair O.
Format: Article
Language:English
Subjects:
Adipose tissue
Animal reproduction
Assimilation
Blood
Carbon
Consumers
Deserts
Diet
Drought
Energy storage
Food
Grasslands
Growth conditions
Hypotheses
Niches
Offspring
Plant nutrition
Population
Population decline
Prairie dogs
Precipitation
Productivity
Seasons
Stable isotopes
Wildlife sanctuaries
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Summary:Gunnison's prairie dog ( Cynomys gunnisoni ) is an herbivore that ranges from desert grasslands to high‐montane meadows and is limited by disease across much of its range. The importance of abiotic drivers to the population dynamics of the species is poorly known. We employed stable isotope analysis to investigate energy assimilation patterns as indicators of abiotic limitation in arid grassland and montane populations of C. gunnisoni during a multi‐year drought. Standard ellipse areas of plasma and red blood cell carbon (δ 13 C) and nitrogen (δ 15 N) isotope values, representing population‐level foraging niche widths, declined during years and seasons of drought stress at both study sites. Prairie dogs at the montane site, but not at the desert grassland site, maintained seasonal shifts in dietary niche width corresponding to periods of favorable growth conditions for the more nutritious C 3 plants. Production of offspring was strongly and positively correlated with C 3 resource use as indicated by δ 13 C values in metabolically active tissues (plasma and red blood cells), but not with δ 13 C values in adipose tissues used for long‐term energy storage, or with foraging niche widths. These findings demonstrate that assimilation of energy from C 3 plants is associated with increased reproductive output and that drought conditions importantly constrain the resource base available to C. gunnisoni . The link between plant nutritional quality and demographic parameters highlights the role of abiotic regulation within this reportedly disease‐limited species.
ISSN:2150-8925
2150-8925
DOI:10.1002/ecs2.1626