Floodplain deposition rates have increased markedly under influence of human impact throughout the late Holocene in many western and central European catchments. Consequently the geomorphology and ecology of many floodplains changed. In this study we discuss this human impact and its influence on the floodplain geoecology during the middle and late Holocene for the headwaters of the Dijle catchment, located in the Belgian loess belt. The floodplain geoecology and the regional vegetation was reconstructed from sedimentological and palynological analyses. An age–depth model for the studied sequences was obtained using 17 radiocarbon dates. Statistical analyses of the pollen data (cluster analysis and canonical correspondence analysis) were us...
This study quantifies Holocene alluvial sediment deposition in the Belgian Amblève catchment (1080 k...
Interest in the Holocene development of small to medium-sized river catchments in Western and Centra...
Sediment budgets quantify sediment fluxes (typically erosion and deposition) for a given time period...
Floodplain deposition rates have increased markedly under influence of human impact throughout the l...
Floodplain deposition rates have increased markedly under influence of human impact throughout the l...
Floodplain deposition rates have increased markedly under influence of human impact throughout the L...
Many fluvial systems in West and Central European have undergone important changes in their sediment...
© 2015 Elsevier Ltd. Floodplain systems underwent important changes in many West and Central Europea...
Floodplain deposition rates have increased markedly under influence of human impact throughout the L...
Fluvial architecture changed under influence of increasing human impact throughout the Holocene in m...
Reconstructing and quantifying human impact is an important step to understand how, when and to what...
Holocene floodplain sediments are an important environmental archive, that can be accesed for recons...
Fluvial architecture changed under the influence of increasing human impact throughout the Holocene ...
peer reviewedHolocene alluvial sediment deposition was studied in several contrasting Belgian catchm...
This study quantifies Holocene alluvial sediment deposition in the Belgian Amblève catchment (1080 k...
This study quantifies Holocene alluvial sediment deposition in the Belgian Amblève catchment (1080 k...
Interest in the Holocene development of small to medium-sized river catchments in Western and Centra...
Sediment budgets quantify sediment fluxes (typically erosion and deposition) for a given time period...
Floodplain deposition rates have increased markedly under influence of human impact throughout the l...
Floodplain deposition rates have increased markedly under influence of human impact throughout the l...
Floodplain deposition rates have increased markedly under influence of human impact throughout the L...
Many fluvial systems in West and Central European have undergone important changes in their sediment...
© 2015 Elsevier Ltd. Floodplain systems underwent important changes in many West and Central Europea...
Floodplain deposition rates have increased markedly under influence of human impact throughout the L...
Fluvial architecture changed under influence of increasing human impact throughout the Holocene in m...
Reconstructing and quantifying human impact is an important step to understand how, when and to what...
Holocene floodplain sediments are an important environmental archive, that can be accesed for recons...
Fluvial architecture changed under the influence of increasing human impact throughout the Holocene ...
peer reviewedHolocene alluvial sediment deposition was studied in several contrasting Belgian catchm...
This study quantifies Holocene alluvial sediment deposition in the Belgian Amblève catchment (1080 k...
This study quantifies Holocene alluvial sediment deposition in the Belgian Amblève catchment (1080 k...
Interest in the Holocene development of small to medium-sized river catchments in Western and Centra...
Sediment budgets quantify sediment fluxes (typically erosion and deposition) for a given time period...