KYKSILVUR í LIVUR, EGGUM OG FJØÐUR CEPPHUS GRYLLE EAEROENSIS IN THE FAROE ISLANDS 75 moult, so that the moulting becomes an im- portant part of the detoxification of the body pool of mercury (see for instance Lewis and Furness, 1991), and thus feath- ers will reflect the contamination at the site of foraging during moult (Goede et al., 1989). Therefore, as a stationary species is cho- sen as indicator species, it can be assumed that the feather mercury concentration will reflect the mercury load of that particular area as long as the trophic level of the species remains the same. Studies have re- vealed that indications of the trophic level of a seabird (or other species) may be achieved via the analyses of fractionation of stable isotopes of nitrogen in particular, but also of carbon and sulphur (Hobson and Welch, 1992; Hobson et al., 1994). Espe- cially the fractionation of nitrogen isotope l5N relative to that of l4N (denoted 6 15 N) is supposed to provide information on the trophic level, whereas the fractionation of carbon isotopes (13 C/12 C, denoted 8 13 C ) is supposed to give insight into the proxim- ity to the terrestrial environment. Typically, a change in 3-4 %o of 8 15 N is thought to ac- company a one tier shift in trophic status (Peterson and Fry, 1987). Due to the storage of birds in museums it has been possible to elucidate historical trends in mercury contamination through the analyses of feathers (Thompson and Furness, 1989; Appelquist et al., 1984) as well as spatial trends like the study includ- ing guillemots frorn the Baltic and the North East Atlantic (Somer and Appel- quist, 1974; Appelquist et al., 1985; Fur- ness et al., 1995). Methods Black guillemots (142 individuals in all) were shot using mainly steel-hail near Sveipur and Hestoy from November 1995 to February 1997, with sampling taking place approximately every second month. The birds were registered and the external measures taken on one and the same day. The birds were stored frozen until further treatment. During dissection, the sexual status was recorded, for the female this sta- tus was inferred from the appearance of the ovary and oviduct, and for the males the sexual status was determined from the ex- ternal appearances among them the plum- age and possible brood patches in combina- tion with an assessment of the gonads. The birds where thus sorted into age and sex classes of adult (ie. breeding) females and males and juveniles (pre-breeding). Body feathers from the back and under one wing were taken from 15 indiviđuals and analy- sed separately for mercury. These individu- als were taken at Hestoy in August 1996 and near Sveipur at Streymoy in June 1996. A selection of samples from each bird were taken into storage at -f20()C in the Environ- mental Specimen Bank at the Food and En- vironmental Agency, awaiting further op- portunities for analyses and studies (see also www.hfs.fo/enviromental_specimen. htm). Black guillemot eggs were sampled on Koltur and on Skúvoy in three consecutive years in 1999, 2000 and 2001. One egg was taken from each nest and the santpling would ideally be done early in the egg-lay- ing period, which begins in early June. The eggs were stored in refrigerator until fur-

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