The biogeochemical imprint of the Azores Archipelago lacustrine sedimentary infill. A linkage between the climatic effects of the north Atlantic atmospheric circulation and the tectono-volcanic landscape of the triple junction during the late Holocene

[eng] The Azores Archipelago, strategically located in the central North Atlantic, serves as a key location for analyzing regional atmospheric dynamics. Thus, climate reconstructions derived from from sediments of the Azorean lakes are useful for improving our understanding of North Atlantic atmosph...

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Detalles Bibliográficos
Autor: Benavente Marín, Mario
Tipo de recurso: tesis doctoral
Estado:Versión publicada
Fecha de publicación:2024
País:España
Institución:Universidad de Barcelona
Repositorio:Dipòsit Digital de la UB
OAI Identifier:oai:diposit.ub.edu:2445/217747
Acceso en línea:https://hdl.handle.net/2445/217747
http://hdl.handle.net/10803/693403
Access Level:acceso abierto
Palabra clave:Circulació atmosfèrica
Açores
Paleolimnologia
Paisatge
Sedimentologia
Biogeoquímica
Atmospheric circulation
Azores
Paleolimnology
Landscape
Sedimentology
Biogeochemistry
Descripción
Sumario:[eng] The Azores Archipelago, strategically located in the central North Atlantic, serves as a key location for analyzing regional atmospheric dynamics. Thus, climate reconstructions derived from from sediments of the Azorean lakes are useful for improving our understanding of North Atlantic atmospheric patterns beyond instrumental records. However, the use of such sediments for climate and environmental reconstructions includes complexities, as they are also located in one of the most complex geodynamic regions on the planet. Additionally, early colonization of the archipelago has increased anthropogenic pressure on its ecosystems since settlement. The multi-proxy approach of sedimentary sequences, combined with innovative limnogeomorphic spatial analysis techniques, have facilitated the study of landscape evolution within lake basins of the archipelago and their relationship with the geological substrate. Variable morpho-stratigraphic patterns reflect the morphosedimentary evolution of the depositional environments over the last millennia, within the deep Lake Funda, located on Flores Island, the shallow Lake Caldeirão, on Corvo Island, and the small Lake Caveiro, on Pico Island. The biogeochemical imprint of the sediments from these lakes was variable due to different morphologies of the lake-catchment systems. Furthermore, accelerated sedimentary responses of the systems revealed the increasing anthropogenic transformation of the landscape. The tectono-volcanic configuration of the lake basins modulates the sedimentary responses to hydroclimate and deforestation in the archipelago, emphasizing some effects over others. Verticalized topo-bathymetric morphologies in Funda and the first stages of Caveiro lake-catchment systems evolved with enhanced sediment cascading and reduced evapotranspiration after deforestation that provoked lake deepening. In contrast, the horizontal reliefs of the flat topo-bathymetric morphologies of Caldeirão and the last stages of Caveiro lake-catchment systems promoted paralimnetic sediment storage, and deforestation resulted in marked soil degradation. Furthermore, oriented reliefs in Funda and Caveiro systems induced preferential morpho-sedimentary evolution, whereas chaotic reliefs within Caldeirão system favoured spatial stationarity. The biogeochemical imprint of Caldeirão system sedimentation demonstrated to be the most appropriate for paleoclimatic reconstructions. This is confirmed through correlation between proxy- based and instrumental data. A comparative analysis with the North Atlantic climatic evolution allows for the spatio-temporal evolution of North Atlantic atmospheric dynamics characterized by specific NAO and EA configurations.