80 MERCURY 1N LIVER, EGGS AND FEATHER OF BLACK GUILLEMOT CEPPHUS GRYLLE FAEROENSISIN THE FAROE ISLANDS as would be the case if the bird had changed their diets the years the pollutants measure- ments were ongoing towards a lower troph- ic level. But as the stable isotopes analyses do indicate a change in the downward di- rection, it is speculated whether the black guillemots these years may have changed the diet from a migrating species towards a local species occupying a higher trophic level, as would be the case in going from for example sandeel to cod. The likelihood of the reduction in egg mercury concentra- tion being a reflection of changing environ- mental pollution of mercury is limited. It is plausible that part of this decrease could be a consequence of reduced pollution, how- ever it is not possible to substantiate this because the location of the source of the mercury, which is available for these black guillemots colonies, is not known. A simi- lar study of stable nitrogen isotopes and mercury in fulmars from Shetland and Out- er Hebrides gave a similar trend where spa- tial comparisons of mercury and 6 I5N gave inverse relative changes and thus con- cluded that the trophic level was not the principal factor in determining mercury concentration (Thompson et al., 1998). Discussion Spatial comparisons As the growth of feathers offloads the bioavailable body pool of mercury, the pro- duction of eggs provides a route for detox- ication in the female (Backstrom, 1969; Lewis et al., 1993). It is questionable whether this excretion is detectable above excretion following the non-sexually relat- ed processes, and studies of mercury in adult specimens of known age of gulls, great skuas and an albatross species have revealed that the mercury concentration in adults is not dependent on age nor sex (Fur- ness et al., 1990; Thompson et al., 1991; 1993). The present study did find a differ- ence between the adult female liver mer- cury concentration and that in the juvenile females, but not between the females and males. Thus the detoxification due to growth of eggs is not of a magnitude suffi- cient to be detected above the variability stemming from other elements of biologi- cal processes and “lifestyle”. The analyses of the present material also showed that there were age-related differences in liver mercury concentrations, but that the indi- vidual variability among the males was so great that this difference could not be de- tected when only the males were studied. Data for comparision is available from Greenland, where the black guillemot egg mercury concentration was found to be 0,34 mg/kg and 0,26 mg/kg ww in 1999 and 2000 respectively, in two different colonies (Riget et al., 2003). Combining the data from the two sites in the present study gives mean egg mercury values of 0,51 and 0,33 mg/kg (calculated from data in Tab 1), for 1999 and 2000 respectively. Black guillemot eggs from three colonies in Arctic Canada in 1993 and 1998 have been shown to contain mercury in the range 0,39 mg/kg to 0,60 mg/kg (Braune et al., 2002), and are thus in the same range as the ones from the Faroe Islands. The May liver mercury concentration in black guillemots in Iceland (Gunnarsson et al, in press), was 0,9 mg/kg, and thus sim-

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