Global change revealed by palaeolimnological records from remote lakes: a review.

23 páginas, 7 figuras, 1 tabla. Over recent decades, palaeolimnological records from remote sites have provided convincing evidence for the onset and development of several facets of global environmental change. Remote lakes, defined here as those occurring in high latitude or high altitude regions,...

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Bibliographic Details
Published in:Journal of Paleolimnology
Main Authors: Catalán, Jordi, Pla-Rabes, S., Wolfe, Alexander P., Smol, J. P., Rühland, K., Anderson, J., Kopáček, J., Stuchlík, Evzen, Schmidt, R., Koinig, Karin Anne, Camarero, Lluís, Flower, Roger J., Heiri, O., Kamenik, C., Korhola, A., Leavitt, P. R., Psenner, Roland, Renberg, I.
Format: Article in Journal/Newspaper
Language:English
Published: Springer 2013
Subjects:
Remote lake palaeolimnology
Climate change
Nitrogen cascade
Acidification
Long-range atmospheric pollution
Arctic lakes
Alpine lakes
High latitude
High altitude
Arctic
Canada
Greenland
Remote Lake
Online Access:http://hdl.handle.net/10261/74378
https://doi.org/10.1007/s10933-013-9681-2
Description
Summary:23 páginas, 7 figuras, 1 tabla. Over recent decades, palaeolimnological records from remote sites have provided convincing evidence for the onset and development of several facets of global environmental change. Remote lakes, defined here as those occurring in high latitude or high altitude regions, have the advantage of not being overprinted by local anthropogenic processes. As such, many of these sites record broad-scale environmental changes, frequently driven by regime shifts in the Earth system. Here, we review a selection of studies from North America and Europe and discuss their broader implications. The history of investigation has evolved synchronously with the scope and awareness of environmental problems. An initial focus on acid deposition switched to metal and other types of pollutants, then climate change and eventually to atmospheric deposition-fertilising effects. However, none of these topics is independent of the other, and all of them affect ecosystem function and biodiversity in profound ways. Currently, remote lake palaeolimnology is developing unique datasets for each region investigated that benchmark current trends with respect to past, purely natural variability in lake systems. Fostering conceptual and methodological bridges with other environmental disciplines will upturn contribution of remote lake palaeolimnology in solving existing and emerging questions in global change science and planetary stewardship. The authors acknowledge project support from GRACCIE (CSD2007-00067), NITROPIR (CGL2010- 19373), OCUPA (088/2009), the European Research Council (Starting Grant Project, 239858), the Natural Sciences and Engineering Research Council of Canada, the US Department of the Interior, the Commission for Scientific Research in Greenland, the Austrian Science Foundation (FWF R 29N10, FWF J 1963-Geo), the Alpine Research Programme of the Austrian Academy of Sciences (project DETECTIVE), and the Czech Science Foundation (project GACR 526/09/0567). Peer reviewed

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