PT  - JOURNAL ARTICLE
AU  - Aubrey M. Tauer
AU  - Michael J. Liles
AU  - Sofía Chavarría
AU  - Melissa Valle
AU  - Sada Amaya
AU  - Gabriela Quijada
AU  - Oscar Meléndez
AU  - Stanley Rodríguez
AU  - Eric F. Lock
AU  - Ana V. Henríquez
AU  - Alexander R. Gaos
AU  - Jeffrey A. Seminoff
TI  - Hematology, biochemistry, and toxicology of wild hawksbill turtles (<em>Eretmochelys imbricata</em>) nesting in mangrove estuaries in the eastern Pacific Ocean
AID  - 10.1101/238956
DP  - 2017 Jan 01
TA  - bioRxiv
PG  - 238956
4099  - http://biorxiv.org/content/early/2017/12/23/238956.short
4100  - http://biorxiv.org/content/early/2017/12/23/238956.full
AB  - Sea turtles are a keystone species and are highly sensitive to changes in their environment, making them excellent environmental indicators. In light of environmental and climate changes, species are increasingly threatened by pollution, changes in ocean health, habitat alteration, and plastic ingestion. There may be additional health related threats and understanding these threats is key in directing future management and conservation efforts, particularly for severely reduced sea turtle populations. Hawksbill turtles (Eretmochelys imbricata) are critically endangered, with those in the eastern Pacific Ocean (Mexico–Peru) considered one of the most threatened sea turtle populations in the world. This study establishes baseline health parameters in hematology and blood biochemistry as well as tested for heavy metals and persitent organic pollutants in eastern Pacific hawksbills at a primary nesting colony located in a mangrove estuary. Whereas hematology and biochemistry results are consistent with healthy populations of other species of sea turtles, we identified differences in packed cell volume, heterophils and lympohcyte counts, and glucose when comparing our data to other adult hawksbill analysis (1), (2), (3). Our analysis of heavy metal contamination revealed a mean blood level of 0.245 ppm of arsenic, 0.045 ppm of lead, and 0.008 ppm of mercury. Blood levels of persistent organic pollutants were below the laboratory detection limit for all turtles. Our results suggest that differences in the feeding ecology of eastern Pacific hawksbills in mangrove estuaries may make them less likely to accumulate persistent organic pollutants and heavy metals in their blood. These baseline data on blood values in hawksbills nesting within a mangrove estuary in the eastern Pacific offer important guidance for health assessments of the species in the wild and in clinical rehabilitation facilities, and underscore the importance of preventing contamination from point and non-point sources in mangrove estuaries, which represent primary habitat to hawksbills and myriad other marine species in the eastern Pacific Ocean.