Impacts of climate, tephra and land use upon Holocene landscape stability in Northwest Iceland

• Published in: Geomorphology (Amsterdam, Netherlands) Vol. 322; pp. 117 - 131
• Main Authors: Tinganelli, Leone, Erlendsson, Egill, Eddudóttir, Sigrún Dögg, Gísladóttir, Guðrún
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.12.2018
• Subjects: Climate; Land use; Soil erosion; Tephra; Climate; Tephra; Soil erosion; Land use
• ISSN: 0169-555X; 1872-695X
• DOI: 10.1016/j.geomorph.2018.08.025

Climate, land use and tephra deposition are the primary drivers of environmental change in Iceland. Understanding the roles of these factors in the formation of the current Icelandic landscape requires an examination of environmental change over wide temporal and spatial scales. Using sediments from two lakes, each spanning the last 10,300 years, this study presents evidence of the effects of climate, volcanism and human settlement on the environment in the highland margin and in lowland areas in Northwest Iceland during the Holocene. The results show that sedimentary processes in the lakes have been primarily driven by the different geographical settings in lowland and highland areas. The impacts of Holocene climate change on the environment were identified in both lake records by distinct variations in both physical and chemical proxies. The lacustrine sedimentary records from Hafratjörn and Barðalækjartjörn highlight the important relationship between vegetation cover and landscape resilience to two of the most voluminous tephra deposits of the Holocene: Hekla 4 and Hekla 3. The detrimental human impact on landscape stability is marked in the lake records by an increase in minerogenic material and by elevated C/N ratios in the sediment. •Geographical settings, topography and vegetation control sedimentation in lakes.•Early-Holocene climate amelioration enhanced landscape stability.•Mid- and late-Holocene climate cooling did not discernibly enhance soil erosion.•Human-induced destruction of vegetation accelerated soil erosion.•Woodland is fundamental in stabilization of tephra in wake of large eruptions.