Intraspecific Variations of Morphology and Physiology of Temperate to Arctic Populations of Cetraria Nivalis

Abstract Five populations of the circumpolar Arctic-alpine lichen species Cetraria nivalis were sampled along a latitudinal gradient from the temperate to the Arctic climatic zone. The populations were compared with respect to their CO 2 exchange, water relations and morphology/anatomy. Provenances...

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Bibliographic Details
Published in:The Lichenologist
Main Authors: Schipperges, B., Kappen, L., Sonesson, M.
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 1995
Subjects:
Abisko
Arctic
Online Access:http://dx.doi.org/10.1016/s0024-2829(95)80011-5
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https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0024282995000648
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Summary:Abstract Five populations of the circumpolar Arctic-alpine lichen species Cetraria nivalis were sampled along a latitudinal gradient from the temperate to the Arctic climatic zone. The populations were compared with respect to their CO 2 exchange, water relations and morphology/anatomy. Provenances from places along this latitudinal gradient were transplanted in 1983/84 to a site near the Scientific Research Station in Abisko, to see whether they are identical with plastic acclimation ability or whether they represent different ecotypes. The five populations represent two major geographical groups, a ‘southern’ and a ‘northern’ one, with respect to some morphological and anatomical features, chlorophyll content and water relations. The transplanted C. nivalis provenances showed a tendency towards increasing net photosynthetic rates with origin in the higher latitudes. The CO 2 exchange response of the native populations was the reverse of this tendency although CO 2 exchange was in general flexible. It is concluded that the investigated C. nivalis populations were different ecotypes because of genetic differences and a distinct seasonal plasticity. The ecotypes are interpreted as a result of isolation in different refugia during the Pleistocene.

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