Several major unusual mortality events occurring in recent years have increased the
level of concern for the health of bottlenose dolphin populations along the United
States Atlantic and Gulf of Mexico coasts. Trace element concentrations were examined
in a population of free-ranging dolphins in Sarasota Bay, Florida, in order to develop
a benchmark for future comparisons within and between populations. Whole blood (n=51)
and skin (n=40) samples were collected through capture and release health assessment
events during 2002-2004. Samples were analyzed for Al, V, Cr, Mn, Cu, Zn, As, Se,
Rb, Sr, Mo, Cd, and Pb by inductively coupled plasma mass spectrometry (ICPMS) and
Hg via atomic fluorescence spectrometry (AFS). Trace element concentrations (wet mass)
in skin were 2 to 45 times greater than blood, except Cu was approximately 1.5 times
higher in blood. Statistically strong correlations (p<0.05) were found for V, As,
Se, Rb, Sr, and Hg between blood and skin demonstrating that these tissues can be
used as effective non-lethal monitoring tools. The strongest correlation was established
for Hg (r=0.9689) and concentrations in both blood and skin were above the threshold
at which detrimental effects are observed in other vertebrate species. Female dolphins
had significantly greater Hg concentrations in blood and skin and Pb concentrations
in skin, relative to males. Calves exhibited significantly lower V, As, and Hg concentrations
in blood and V and Hg concentrations in skin, relative to other age classes. Rubidium
and Cu concentrations in skin were greatest in subadults and calves, respectively.
In blood, V, Zn, and As concentrations were significantly greater in winter, relative
to summer, and the opposite trend was observed for Rb and Sr concentrations. In skin,
Cu and Zn concentrations were significantly greater in winter, relative to summer,
and the opposite trend was observed for Mn, Rb, Cd, and Pb concentrations. The baseline
concentrations and trends established in this study will serve as a benchmark for
comparison and aid in sampling design for future monitoring of this population and
other coastal bottlenose dolphin populations.