Landscape change in the Icelandic highland : A long-term record of the impacts of land use, climate and volcanism

Agriculture has been practiced in Iceland since settlement (landnam; AD 877). This has caused changes in vegetation communities, soil erosion, desertification and loss of carbon stocks. Little data exist regarding vegetation and ecosystems in the Icelandic highland before landnam and therefore the i...

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Bibliographic Details
Published in:Quaternary Science Reviews
Main Authors: Dögg Eddudottir, Sigrun, Erlendsson, Egill, Gisladottir, Gudrun
Format: Article in Journal/Newspaper
Language:English
Published: Uppsala universitet, Arkeologi 2020
Subjects:
Anthropocene
Paleolimnology
Europe
Vegetation dynamics
Organic geochemistry
Stable isotopes
Physical Geography
Naturgeografi
Iceland
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-419792
https://doi.org/10.1016/j.quascirev.2020.106363
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Summary:Agriculture has been practiced in Iceland since settlement (landnam; AD 877). This has caused changes in vegetation communities, soil erosion, desertification and loss of carbon stocks. Little data exist regarding vegetation and ecosystems in the Icelandic highland before landnam and therefore the impact of land use over time is poorly understood. The objectives of the study are to examine the timing, nature and causes of land degradation in the highland of Northwest Iceland. Specifically, to determine the resilience of the pre-landnam highland environment to disturbances (i.e. climate cooling and volcanism) and whether land use pressure was of sufficient magnitude to facilitate ecosystem change. A sediment core was taken from the highland lake Galtabol. A chronology for the core was constructed using known tephra layers and radiocarbon dated plant macrofossils. Pollen analysis (vegetation), coprophilous fungal spores (proxy for grazing), and sediment properties (proxies for erosion) were used to provide a high-resolution, integrated vegetation and paleoenvironmental reconstruction. The pre-landnam environment showed resilience to climate cooling and repeated tephra fall. Soon after landnam the vegetation community changed and instability increased, indicated by changes in sediment properties. The pollen and spore record suggest introduction of grazing herbivores into the area after landnam. Following landnam, indicators of soil erosion appear in the sediment properties. Intensification of soil erosion occurred during the 17th century. The Galtabol record clearly demonstrates what can happen in landscapes without adequate management of natural resources and underestimation of landscape sensitivity. Introduction of land use resulted in changes in vegetation communities, loss of resilience and onset of increased soil erosion. Paleoenvironmental reconstructions may inform future decisions on management of the highland by providing baselines for natural variability in the pre-landmim environment.

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