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- Title
Isotope values of California vole (Microtus californicus) hair relate to historical drought and land use patterns in California, USA.
- Authors
Crumsey, Jasmine M.; Searle, Jeremy B.; Sparks, Jed P.
- Abstract
Increased drought frequency and intensity and agricultural intensification have been key stressors to ecological systems over the past century. Biological proxies (e.g., pollen, tree rings) have been used to track this environmental change; however, linking these changes to the ecology of organisms remains challenging. Here, we link historical drought records to conditions of high water-stress in grassland habitats through the stable isotope analysis of California vole museum specimens (Microtus californicus). Using museum collections spanning 118-years (1891–2009), isotope values of dated hair tissues were associated with statewide drought metrics on the Palmer Drought Severity Index. We observed a positive correlation between δ15N and δ18O values and drought severity. The range in δ15N values (~ 18‰) is greater than what would be expected as a result of dietary shifts across the landscape (~ 3‰), and is likely attributed to the combined effects of physiological responses of M. californicus and isotopic shifts in plant resources with increased water-stress. Geospatial patterns in δ34S values of hair tissues reflect higher baseline isotope values in coastal habitats. However, comparably high δ34S values in the southern-most inland localities suggest sulfur fertilization of croplands and subsequent transfer to surrounding grassland habitats in 34S enriched forms. A broad δ13C range (− 28.7 to − 14.3‰) further suggests the consumption of C3 and C4 plant-based dietary proteins. As shown here, stable isotope analysis of museum collections can provide a climate and land use record based on the physiological performance and ecology of a study species in a region affected intensely by anthropogenic activities.
- Subjects
CALIFORNIA; MICROTUS; LAND use; STABLE isotope analysis; ECOPHYSIOLOGY; VOLES; DROUGHTS; SHRUBLANDS; TROPICAL cyclones
- Publication
Oecologia, 2019, Vol 190, Issue 4, p769
- ISSN
0029-8549
- Publication type
Article
- DOI
10.1007/s00442-019-04457-2