110 NOTES ON XESTIA ALPICOLA SSP. ATLANTICA NOV. ON THE FAROES drucei, Vaccinium myrtillus and Empetrum hermaphroditum. The moth fauna on that day was dominated by many Entephria caesiata Den. & Schiff. and Epinotia mer- curiana Frol., flying freely together with a few late Catoptria furcatella Zett. and Xan- thorhoe munitata Flb. A similar vegetation characterizes many other mountain slopes at altitudes between 400-600 metres on the northern Faroe isles. Presumably such sites also contain other populations of Xestia alpicola which are easily overlooked. The bionomy ofXestia alpicola in Northern Europe The present Faroese Xestia alpicola-speci- mens have all been caught or observed in the even years 1956 and 1996. In this re- spect the population corresponds closely with the population in Northem Scandi- navia, where it and most other boreal Xes- íia-species occur in even years, while in Southern Norway, southwestern Finland and the Baltic countries it mainly occurs in odd years (Mikkola, 1976). The British X. a/p/co/a-population which is restricted to the northernmost counties in England, the Scottish Highlands-, northern Ireland, the Orkneys and Shetland shows a similar pat- tern. A biennial pattern corresponding with the Scandinavian and the Faroe Isles has been observed in the Scottish Highlands where populations preferably occur in even years (Bretherton et al„ 1983). Regarding the population in Shetland very little recent information exists in the British litera- ture. According to unpublished material gathered by Mr. Mike Pennington, Unst, the available data from the last century in- dicate that the presumably extinct popula- tion on Mainland mainly occurred in the odd years 1881 and 1883, and was found again on Mainland and Unst in 1893, an- other odd year. However, the last known occurrence in Shetland - the only one known from this century - was in July 1932, an even year (Mike Pennington, i.l. 1996). In the Orkneys the species has only been mentioned once, from the odd year 1895 (South, 1895; Lorimer, 1983). How- ever, in 1986 a male was attracted to mer- cury vapour light on Orphir during a period with very warm weather (Lorimer, 1993). In Northwestern Ireland the very few ob- servations have also been made in both even (1972) and odd years (1973) (Redway and Heath, 1973; Redway, 1973). In North- ern England the local populations also oc- cur in both even and odd years, preferably in odd years (Bretherton et al„ 1983). In the literature there has been some speculation regarding the background of this biennial pattern. Kettlewell, in Ford (1954), proposed that the reason might be found in common parasitation from other alpine moth species flying in the interven- ing years. Thus the parasites might prevent Xestia alpicola from changing flight years. He suggested that the alternate flight years in Scotland of X. alpicola and the geome- trid moth Psodos coracina could serve as an indication for this theory. As P. coracina in Northern Scandinavia does not show any altemate-year rhythm, this theory does not seem to be likely. Later on Mikkola (1976) therefore proposed a more elaborate theory. He considers that the biennial regulation is chiefly due to the peculiar biological condi-

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