A past and present perspective on the European summer vapor pressure deficit

Nagavciuc, Viorica; Michel, Simon L. L.; Balting, Daniel F.; Helle, G.; Freund, Mandy; Schleser, Gerhard H.; Steger, David N.; Lohmann, Gerrit; Ionita, Monica

doi:10.5194/cp-20-573-2024

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A past and present perspective on the European summer vapor pressure deficit

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Nagavciuc, Viorica
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Michel, Simon L. L.
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Balting, Daniel F.
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Helle, G.
4.3 Climate Dynamics and Landscape Evolution, 4.0 Geosystems, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Freund, Mandy
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Schleser, Gerhard H.
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Steger, David N.
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Lohmann, Gerrit
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Ionita, Monica
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Citation

Nagavciuc, V., Michel, S. L. L., Balting, D. F., Helle, G., Freund, M., Schleser, G. H., Steger, D. N., Lohmann, G., Ionita, M. (2024): A past and present perspective on the European summer vapor pressure deficit. - Climate of the Past, 20, 3, 573-595.
https://doi.org/10.5194/cp-20-573-2024

Cite as: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5025391

Abstract

The response of evapotranspiration to anthropogenic warming is of critical importance for the water and carbon cycle. Contradictory conclusions about evapotranspiration changes are caused primarily by their brevity in time and sparsity in space, as well as the strong influence of internal variability. Here, we present the first gridded reconstruction of the summer (June, July, and August) vapor pressure deficit (VPD) for the past 4 centuries at the European level. This gridded reconstruction is based on 26 European tree ring oxygen isotope records and is obtained using a random forest approach. According to validation scores obtained with the Nash–Sutcliffe model efficiency, our reconstruction is robust over large parts of Europe since 1600, in particular for the westernmost and northernmost regions, where most tree ring records are located. Based on our reconstruction, we show that from the mid-1700s a trend towards higher summer VPD occurred in central Europe and the Mediterranean region that is related to a simultaneous increase in temperature and decrease in precipitation. This increasing summer VPD trend continues throughout the observational period and in recent times. Moreover, our summer VPD reconstruction helps to visualize the local and regional impacts of the current climate change, as well as to minimize statistical uncertainties of historical VPD variability. This paper provides also new insights into the relationship between summer VPD and large-scale atmospheric circulation, and we show that summer VPD has two preferred modes of variability, namely a NW–SE dipole-like mode and a N–S dipole-like mode. Furthermore, the interdisciplinary use of the data should be emphasized, as summer VPD is a crucial parameter for many climatological feedback processes in the Earth's surface system. The reconstructed summer VPD gridded data over the last 400 years are available at the following link: https://doi.org/10.5281/zenodo.5958836 (Balting et al., 2022).