Jm. Gauthier et al., ENVIRONMENTAL CONTAMINANTS IN TISSUES OF A NEONATE ST-LAWRENCE BELUGAWHALE (DELPHINAPTERUS-LEUCAS), Marine pollution bulletin, 36(1), 1998, pp. 102-108
Tissue samples of brain, kidney, liver, and blubber from a neonate St
Lawrence beluga whale were analyzed for ortho and non-ortho polychlori
nated (PCB) congeners, organochlorine (OC) compounds, polychlorinated
dibenzo-p-dioxins and -dibenzofurans (PCDD/Fs), and total mercury. As
gamma-globulins, which indicate presence of colostrum, were not found
in serum of the live neonate, it was unlikely that there had been lact
ational transfer of environmental contaminants to the neonate. No PCDF
s were detected. Of the PCDD congeners, only OCDD was found in all tis
sues; ranging from 12 pg g(-1) lipid in brain to 1138 pg g(-1) in live
r. Concentrations of Sigma PCB (sum of 25 ortho and 4 non-ortho PCBs)
and Sigma DDT were lowest in brain (1.7 and 0.7 mu g(-1) lipid, respec
tively), intermediate in kidney (4.1 and 2.3 mu g g(-1)) and highest i
n liver (8.8 and 3.5 mu g g(-1)) and blubber (17.6 and 2.2 mu g g(-1).
PCB 126 was the predominant non-ortho congener. Toxic equivalent 2,3,
7,8-TCDD concentrations (TEQs) (pg g(-1) lipid) were: mono-ortho PCBs
> non-ortho PCBs > PCDDs. Major individual OC compounds were DDE, HCB,
oxychlordane and cis-nonachlor. Similar PCB and OC patterns were foun
d for different tissues, with the exception of cr-HCH in brain. Total
mercury was detected in liver, kidney and brain at concentrations of 4
9-145 ng g(-1) (wet weight). Concentrations of PCBs, OCs, and mercury
in the neonate were lower than or in the lower range of those found in
published data on female adult beluga whales of the St Lawrence, and
this is probably due to absence of lactational transfer of contaminant
s in the neonate. Proportions of lower chlorinated PCBs, HCB, and HCH
compounds were greater in the neonate than in these female whales, whi
ch may indicate preferential gestational transfer of these compounds.
(C) 1998 Elsevier Science Ltd. All rights reserved.