1. Refining Aging Criteria for Northern Sea Otters in Washington State
- Author
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Krysten L. Schuler, C. Leann White, Carolina Perez-Heydrich, Paula M. Holahan, Nancy J. Thomas, Bridget B. Baker, and Karl A. Mayer
- Subjects
0106 biological sciences ,Ecology ,Enhydra lutris ,biology ,Ossification ,010603 evolutionary biology ,01 natural sciences ,010601 ecology ,Fishery ,Skull ,Geography ,medicine.anatomical_structure ,Tooth wear ,Age estimation ,biology.animal ,parasitic diseases ,medicine ,Animal Science and Zoology ,medicine.symptom ,Ecology, Evolution, Behavior and Systematics ,Nature and Landscape Conservation - Abstract
Measurement of skull ossification patterns is a standard method for aging various mammalian species and has been used to age sea otters Enhydra lutris from Russia, California, and Alaska. Cementum annuli counts have also been verified as an accurate aging method for sea otters in Alaska. In this study, we compared cementum annuli count results and skull ossification patterns as methods for aging the northern sea otter, E. l. kenyoni, in Washington State. We found significant agreement between the two methods, suggesting that either method could be used to age sea otters in Washington. We found that ossification of the squamosal–jugal suture at the ventral glenoid fossa can be used to differentiate male subadults from adults. To assist field biologists or others without access to cementum annuli or skull ossification analysis techniques, we analyzed a suite of morphologic, physiologic, and developmental characteristics to assess whether a set of these more easily accessible parameters could also predict age class. We identified tooth condition score, evidence of reproductive activity in females, and tooth eruption pattern as the most useful criteria for classifying sea otters in Washington. We created a simple decision tree based on characteristics accessible in the field or at necropsy, which can be used to reliably predict age class of Washington sea otters as determined by cementum annuli. These techniques offer field biologists and marine mammal stranding networks a replicable, cost-conscious methodology to gather useful biological information from sea otters.
- Published
- 2018
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