Targeted
environmental monitoring reveals contamination by known
chemicals, but may exclude potentially pervasive but unknown compounds.
Marine mammals are sentinels of persistent and bioaccumulative contaminants
due to their longevity and high trophic position. Using nontargeted
analysis, we constructed a mass spectral library of 327 persistent
and bioaccumulative compounds identified in blubber from two ecotypes
of common bottlenose dolphins (Tursiops truncatus) sampled in the Southern California Bight. This library of halogenated
organic compounds (HOCs) consisted of 180 anthropogenic contaminants,
41 natural products, 4 with mixed sources, 8 with unknown sources,
and 94 with partial structural characterization and unknown sources.
The abundance of compounds whose structures could not be fully elucidated
highlights the prevalence of undiscovered HOCs accumulating in marine
food webs. Eighty-six percent of the identified compounds are not
currently monitored, including 133 known anthropogenic chemicals.
Compounds related to dichlorodiphenyltrichloroethane (DDT) were the
most abundant. Natural products were, in some cases, detected at abundances
similar to anthropogenic compounds. The profile of naturally occurring
HOCs differed between ecotypes, suggesting more abundant offshore
sources of these compounds. This nontargeted analytical framework
provided a comprehensive list of HOCs that may be characteristic of
the region, and its application within monitoring surveys may suggest
new chemicals for evaluation.
A novel molecular technique was used to measure blubber testosterone (BT) in 114 male short‐beaked common dolphins, Delphinus delphis, collected from incidental fishery bycatch and strandings. When these concentrations were compared across maturity states, the mean (± SEM) BT levels of mature D. delphis (14.3 ± 3.0 ng/g) were significantly higher than those of pubertal (2.5 ± 0.5 ng/g, P= 0.006) and immature animals (2.2 ± 0.3 ng/g, P < 0.0001). BT concentrations in mature males were significantly higher in summer months (53.9 ± 2.0 ng/g) than during the rest of the year (7.9 ± 0.69 ng/g, P < 0.0001), indicating reproductive seasonality. An analysis of BT in different anatomical locations showed that hormone concentrations were not homogenous throughout the body; the levels in the dorsal fin were significantly lower than in most other areas (F= 5.39, P= 0.043). Conversely, we found no significant differences in BT concentration with respect to subepidermal depth (F= 2.09, P= 0.146). Finally, testosterone levels in biopsies from 138 free‐swimming male D. delphis, of unknown maturity state, sampled off California were found to be of concentrations similar to those from the fishery bycatch and stranding samples and revealed an analogous trend with respect to ordinal date.
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