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author Yang, Bingjie
Ljung, Karl
Ning, Wenxin
Filipsson, Helena L
Nielsen, Anne Birgitte
author_facet Yang, Bingjie
Ljung, Karl
Ning, Wenxin
Filipsson, Helena L
Nielsen, Anne Birgitte
collection Datos científicos de ciencias marinas y ambientales
contents Terrestrial organic matter (OM) plays a key role in coastal organic carbon burial. However, few studies focus on the relationship between land use in the watershed and the transport of terrestrial OM to coasts from a long-term perspective. In this study, we compared terrestrial OM deposition between an inlet of the Baltic Sea and an upstream lake within the same watershed over the last 500 years, using lignin biomarkers in the sediments. In combination with pollen-based quantitative land cover reconstruction, we assessed the impacts of semicentennial-scale changes in land use on terrestrial OM export. The data is the original dataset of vegetation cover estimates of in percentage from Gåsfjärden based on the Landscape Reconstruction Algorithm (Sugita, S. 2007. Theory of quantitative reconstruction of vegetation I: pollen from large sites REVEALS regional vegetation composition. Holocene 17, 229-241).
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_965108
institution PANGAEA
language en
publishDate 2024
publisher PANGAEA
record_format pangaea
spellingShingle Vegetation cover estimates of Gåsfjärden based on the LRA-REVEAL model
Yang, Bingjie
Ljung, Karl
Ning, Wenxin
Filipsson, Helena L
Nielsen, Anne Birgitte
Age; AGE; Alnus; Artemisia; Baltic Sea; Betula; Calluna vulgaris; Carpinus; Cerealia-type; Corylus; Cyperaceae; Fagus; Filipendula; Fraxinus; Gasfjärden_Lake; Juniperus; land use; Lignin phenols; Östergötland; Picea; Pinus; Plantago lanceolata; Poaceae; Pollen; Quercus; Reconstructed, based on LRA-REVEAL model (Sugita 2007); Rumex acetosa-type; Salix; Secale cereale; Sediment sample; SES; Terrestrial Organic Matter; Tilia; Ulmus
Terrestrial organic matter (OM) plays a key role in coastal organic carbon burial. However, few studies focus on the relationship between land use in the watershed and the transport of terrestrial OM to coasts from a long-term perspective. In this study, we compared terrestrial OM deposition between an inlet of the Baltic Sea and an upstream lake within the same watershed over the last 500 years, using lignin biomarkers in the sediments. In combination with pollen-based quantitative land cover reconstruction, we assessed the impacts of semicentennial-scale changes in land use on terrestrial OM export. The data is the original dataset of vegetation cover estimates of in percentage from Gåsfjärden based on the Landscape Reconstruction Algorithm (Sugita, S. 2007. Theory of quantitative reconstruction of vegetation I: pollen from large sites REVEALS regional vegetation composition. Holocene 17, 229-241).
title Vegetation cover estimates of Gåsfjärden based on the LRA-REVEAL model
topic Age; AGE; Alnus; Artemisia; Baltic Sea; Betula; Calluna vulgaris; Carpinus; Cerealia-type; Corylus; Cyperaceae; Fagus; Filipendula; Fraxinus; Gasfjärden_Lake; Juniperus; land use; Lignin phenols; Östergötland; Picea; Pinus; Plantago lanceolata; Poaceae; Pollen; Quercus; Reconstructed, based on LRA-REVEAL model (Sugita 2007); Rumex acetosa-type; Salix; Secale cereale; Sediment sample; SES; Terrestrial Organic Matter; Tilia; Ulmus
url https://doi.org/10.1594/PANGAEA.965108