Náttúrufræðingurinn 10. mynd. Ungi maðurinn á myndinni tínir krækling i f'ótuna sína þrátt fyrir kalsaveður, enda kominn vetur. Einna öruggast er líklega að tína krækling síðla vetrar og snemma vors. - A young man collecting blue mussels in winter. Late winter and early spring seem to be the safest seasons for mussel collecting. Ljósm./Photo: Karl Gunnarsson. þó ekki mælt. P. pseudodelicatissima hefur áður fundist í talsverðum mæli hér við land, meðal annars við Vestfirði.10 Þar var blóminn til staðar í nokkrar vikur án þess að ASP- eitrun mældist í skelfiski á svæðinu. Rannsóknir á öðrum hafsvæðum hafa leitt í ljós að tegundin myndar ekki alltaf eitur.29 Hins vegar hefur ASP-eitrun mælst í kræklingi víða í Norður-Atlantshafi eftir blóma Pseudo-nitzschia-tegunda. Það er því full ástæða til að vera á varðbergi og mæla ASP í skelfiski ef vart verður við mikinn þéttleika af Pseudo- nitzschia. Niðurlag Niðurstöður rannsóknarinnar í Hvalfirði árið 1997 sýna að þegar eiturþörungar voru til staðar var kræklingurinn fljótur að safna upp eitri, en það tók hann hins vegar langan tíma að hreinsa sig af því aftur. Skelfiskeitrunar getur því gætt mun lengur en aðalvaxtartími skoru- þörunganna varir. Neysla skelfisks úr Hvalfirði var varhugaverð frá því blómi Dinophysis norvegica varð í júlí og fram á vetur (10. mynd). SUMMARY Phytoplankton and shellfish poisoning in Hvalfjörður, Southwestem Iceland During the year 1997 phytoplankton succession was followed in Hvaifjördur, southwestern Iceland (Fig. 2). Several species known to cause shellfish poisoning were found during the study. This paper de- scribes the results with respect to the toxic algae found. Samples were collected ap- proximately once every week at two stations in the inner part of Hvalfjörður. Phytoplankton species were determined and counted in quantitative samples and net samples were used for identification of species. Mussels, Mytilus edulis, were collect- ed simultaneously for DSP-toxidty tests. Eight potentially toxic species were found and some of them were present the whole year (Table 1). The diatom Pseudo- nitzschia pseudodelicatissima, known to cause amnesic shellfish poisoning (ASP), occurred in large numbers in July; howev- er, the blooming was unlikely to have poi- soned shellfish in the area, mainly because of its short duration (Figs. 7 and 9). On the other hand, the dinoflagellate Dinophysis norvegica, known to cause diarrhetic shell- fish poisoning (DSP), bloomed for a more extended period from July till September (Figs. 6 and 8). After September, D. norveg- ica was present only in low numbers. Tox- icity tests on the mussels revealed high lev- els of DSP during the period from July until the sampling ended in November (Table 2). This shows that DSP in the mus- sels can be attained quickly and retained long after the algae causing it declines in number. 104

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