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- Title
Diatom Inferred Acidity History Of 32 Lakes On The Kola Peninsula, Russia.
- Authors
Weckström, Jan; Snyder, Jeffrey A.; Korhola, Atte; Laing, Tamsin E.; Macdonald, Glen M.
- Abstract
The Kola Peninsula is characterised by vast environmental contrasts. Large areas are almost in pristine condition. However, mining and associated industrial activity generate one of the largest sources of heavy metal and sulphur emissions in the world and create `technogenic wastelands' around smelters. Due to the lack of monitoring data, insufficient knowledge is available regarding the acidification history of lakes on the peninsula. In this study, palaeolimnological techniques were used to reveal the pre-industrial pH status of 32 small lakes in order to evaluate the role of human impacts on freshwater ecosystems. Diatom-inferred pH reconstructions demonstrated that for 22 (68.75%) of the lakes, the pH was below 6.5 and in eight (25%) below 6.0 during the pre-industrial period; signs of recent acidification could be detected only in seven lakes of which five are located relatively close to current pollution sources. Furthermore, no substantial changes between the pre-industrial and modern species richness and composition were observed, indicating relatively stable environmental conditions. Most of the lakes seem to have undergone long-term acidification and are mainly affected by natural acidifying factors (e.g., vegetation, bedrock, climate, sea salt). The effect of anthropogenic emissions seems to be surprisingly geographically restricted and controlled mainly by the surrounding topography and prevailing winds. However, although many lakes seem to be in relatively pristine condition, only a significant reduction in heavy metal and sulphur emissions will prevent the lakes from acidifying in the future.
- Subjects
KOLA Peninsula (Russia); RUSSIA; DIATOMS; ALGAE; PHYTOPLANKTON; WATER pollution; POLLUTION
- Publication
Water, Air & Soil Pollution, 2003, Vol 149, Issue 1-4, p339
- ISSN
0049-6979
- Publication type
Article
- DOI
10.1023/A:1025682801187