Journal
ISOTOPES IN ENVIRONMENTAL AND HEALTH STUDIES
Volume 51, Issue 2, Pages 214-230Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/10256016.2015.969256
Keywords
keratin; hydrogen-2; exchangeable hydrogen; feather; isotope ecology; fractionation
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Hydrogen in organic tissue resides in a complex mixture of molecular contexts. Some hydrogen, called non-exchangeable (H-non), is strongly bound, and its isotopic ratio is fixed when the tissue is synthesized. Other pools of hydrogen, called exchangeable hydrogen (H-ex), constantly exchange with ambient water vapor. The measurement of the delta H-2(non) in organic tissues such as hair or feather therefore requires an analytical process that accounts for exchangeable hydrogen. In this study, swan feather and sheep wool keratin were used to test the effects of sample drying and capsule closure on the measurement of delta H-2(non) values, and the rate of back-reaction with ambient water vapor. Homogenous feather or wool keratins were also calibrated at room temperature for use as control standards to correct for the effects of exchangeable hydrogen on feathers. Total delta H-2 values of both feather and wool samples showed large changes throughout the first similar to 6 h of drying. Desiccant plus low vacuum seems to be more effective than room temperature vacuum pumping for drying samples. The degree of capsule closure affects exchangeable hydrogen equilibration and drying, with closed capsules responding more slowly. Using one control keratin standard to correct for the delta H-2(ex) value for a batch of samples leads to internally consistent delta H-2(non) values for other calibrated keratins run as unknowns. When placed in the context of other recent improvements in the measurement of keratin delta H-2(non) values, we make recommendations for sample handing, data calibration and the reporting of results.
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