Environmental and climate change in the southern Central Pyrenees since the Last Glacial Maximum: A view from the lake records

In this contribution we compile and summarize the available paleo-environmental lacustrine data for the last 20,000years from the southern Central Pyrenees (from west to east: El Portalet, Tramacastilla, Basa de la Mora, Estanya, Redon, Montcortès and Marcelino lakes) and present a new sequence from...

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Bibliographic Details
Published in:Catena (Giessen) 2017-02, Vol.149, p.668-688
Main Authors: González-Sampériz, Penélope, Aranbarri, Josu, Pérez-Sanz, Ana, Gil-Romera, Graciela, Moreno, Ana, Leunda, María, Sevilla-Callejo, Miguel, Corella, Juan Pablo, Morellón, Mario, Oliva, Belén, Valero-Garcés, Blas
Format: Article
Language:English
Subjects:
Central Pyrenees
Climate changes
Human impact
Lacustrine sequences
Long-term geoecological evolution
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Summary:In this contribution we compile and summarize the available paleo-environmental lacustrine data for the last 20,000years from the southern Central Pyrenees (from west to east: El Portalet, Tramacastilla, Basa de la Mora, Estanya, Redon, Montcortès and Marcelino lakes) and present a new sequence from mid altitude (Holocene record of Lake Estanya). Multiproxy analyses of lake records have identified large vegetation and hydrological changes during last glacial, deglaciation and the Holocene periods at millennial, centennial and even decadal scales and documented their timing, intensity and varied nature. The review indicates that landscape dynamics in the Pyrenees have been greatly controlled by both long term and abrupt climate changes and, since the Middle Holocene, and particularly since Medieval times, by human activities as new transforming agent. Although high internal variability characterized every site, common temporal trends are evidenced, as well as a suggestive western–eastern gradient superimposed to the expected altitudinal one (highlands versus lowlands). Thus, the long-term Central Pyrenees environmental history presents a relatively high degree of internal coherence across space and provides some past scenarios of landscape-climate interactions to evaluate the expected impacts of current and future Global Change. •Use of long-term lacustrine sequences is essential to know geoenvironmental evolution.•Comparing data from different altitude provides an integrated spatio-temporal history.•Vegetation & lake level fluctuations are the main features of environmental evolution.•Both climate and human impact are main agents of environmental changes.•Evaluation agents help to know since when and where current landscapes exist.
ISSN:0341-8162
1872-6887
DOI:10.1016/j.catena.2016.07.041