Mid-Holocene European climate revisited: New high-resolution regional climate model simulations using pollen-based land-cover. (1st April 2022)
- Record Type:
- Journal Article
- Title:
- Mid-Holocene European climate revisited: New high-resolution regional climate model simulations using pollen-based land-cover. (1st April 2022)
- Main Title:
- Mid-Holocene European climate revisited: New high-resolution regional climate model simulations using pollen-based land-cover
- Authors:
- Strandberg, Gustav
Lindström, Johan
Poska, Anneli
Zhang, Qiong
Fyfe, Ralph
Githumbi, Esther
Kjellström, Erik
Mazier, Florenze
Nielsen, Anne Birgitte
Sugita, Shinya
Trondman, Anna-Kari
Woodbridge, Jessie
Gaillard, Marie-José - Abstract:
- Abstract: Land-cover changes have a clear impact on local climates via biophysical effects. European land cover has been affected by human activities for at least 6000 years, but possibly longer. It is thus highly probable that humans altered climate before the industrial revolution (AD1750–1850). In this study, climate and vegetation 6000 years (6 ka) ago is investigated using one global climate model, two regional climate models, one dynamical vegetation model, pollen-based reconstruction of past vegetation cover using a model of the pollen-vegetation relationship and a statistical model for spatial interpolation of the reconstructed land cover. This approach enables us to study 6 ka climate with potential natural and reconstructed land cover, and to determine how differences in land cover impact upon simulated climate. The use of two regional climate models enables us to discuss the robustness of the results. This is the first experiment with two regional climate models of simulated palaeo-climate based on regional climate models. Different estimates of 6 ka vegetation are constructed: simulated potential vegetation and reconstructed vegetation. Potential vegetation is the natural climate-induced vegetation as simulated by a dynamical vegetation model driven by climate conditions from a climate model. Bayesian spatial model interpolated point estimates of pollen-based plant abundances combined with estimates of climate-induced potential un-vegetated land cover were usedAbstract: Land-cover changes have a clear impact on local climates via biophysical effects. European land cover has been affected by human activities for at least 6000 years, but possibly longer. It is thus highly probable that humans altered climate before the industrial revolution (AD1750–1850). In this study, climate and vegetation 6000 years (6 ka) ago is investigated using one global climate model, two regional climate models, one dynamical vegetation model, pollen-based reconstruction of past vegetation cover using a model of the pollen-vegetation relationship and a statistical model for spatial interpolation of the reconstructed land cover. This approach enables us to study 6 ka climate with potential natural and reconstructed land cover, and to determine how differences in land cover impact upon simulated climate. The use of two regional climate models enables us to discuss the robustness of the results. This is the first experiment with two regional climate models of simulated palaeo-climate based on regional climate models. Different estimates of 6 ka vegetation are constructed: simulated potential vegetation and reconstructed vegetation. Potential vegetation is the natural climate-induced vegetation as simulated by a dynamical vegetation model driven by climate conditions from a climate model. Bayesian spatial model interpolated point estimates of pollen-based plant abundances combined with estimates of climate-induced potential un-vegetated land cover were used for reconstructed vegetation. The simulated potential vegetation is heavily dominated by forests: evergreen coniferous forests dominate in northern and eastern Europe, while deciduous broadleaved forests dominate central and western Europe. In contrast, the reconstructed vegetation cover has a large component of open land in most of Europe. The simulated 6 ka climate using reconstructed vegetation was 0–5 °C warmer than the pre-industrial (PI) climate, depending on season and region. The largest differences are seen in north-eastern Europe in winter with about 4–6 °C, and the smallest differences (close to zero) in southwestern Europe in winter. The simulated 6 ka climate had 10–20% more precipitation than PI climate in northern Europe and 10–20% less precipitation in southern Europe in summer. The results are in reasonable agreement with proxy-based climate reconstructions and previous similar climate modelling studies. As expected, the global model and regional models indicate relatively similar climates albeit with regional differences indicating that, models response to land-cover changes differently. The results indicate that the anthropogenic land-cover changes, as given by the reconstructed vegetation, in this study are large enough to have a significant impact on climate. It is likely that anthropogenic impact on European climate via land-use change was already taking place at 6 ka. Our results suggest that anthropogenic land-cover changes at 6 ka lead to around 0.5 °C warmer in southern Europe in summer due to biogeophysical forcing. Highlights: First simulation of paleoclimate using more than one regional climate model. Mid-Holocene vegetation constructed both by dynamical vegetation model and pollen records and statistical methods. Differences between modelled and reconstructed vegetation, and the response to land-cover changes in regional climate models. Anthropogenic land-cover changes are large enough to have a significant impact on European climate already at Mid-Holocene. … (more)
- Is Part Of:
- Quaternary science reviews. Volume 281(2022)
- Journal:
- Quaternary science reviews
- Issue:
- Volume 281(2022)
- Issue Display:
- Volume 281, Issue 2022 (2022)
- Year:
- 2022
- Volume:
- 281
- Issue:
- 2022
- Issue Sort Value:
- 2022-0281-2022-0000
- Page Start:
- Page End:
- Publication Date:
- 2022-04-01
- Subjects:
- Paleoclimate -- Global climate model -- Dynamical vegetation model -- Vegetation reconstruction -- Spatial statistical models -- Land-use and land-cover change -- REVEALS -- LPJ-GUESS -- EC-Earth -- RCA4 -- HCLIM
Geology, Stratigraphic -- Quaternary -- Periodicals
Stratigraphie -- Quaternaire -- Périodiques
551.79 - Journal URLs:
- http://www.sciencedirect.com/science/journal/02773791 ↗
http://www.elsevier.com/journals ↗
http://www.journals.elsevier.com/quaternary-science-reviews/ ↗ - DOI:
- 10.1016/j.quascirev.2022.107431 ↗
- Languages:
- English
- ISSNs:
- 0277-3791
- Deposit Type:
- Legaldeposit
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- British Library DSC - 7210.220000
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