Recent human-induced atmospheric drying across Europe unprecedented in the last 400 years

Kerstin Treydte; Laibao Liu; Ryan S. Padrón; Elisabet Martínez-Sancho; Flurin Babst; David C. Frank; Arthur Gessler; Ansgar Kahmen; Benjamin Poulter; Sonia I. Seneviratne; Annemiek I. Stegehuis; Rob Wilson; Laia Andreu-Hayles; Roderick Bale; Zdzislaw Bednarz; Tatjana Boettger; Frank Berninger; Ulf Büntgen; Valerie Daux; Isabel Dorado-Liñán; Jan Esper; Michael Friedrich; Mary Gagen; Michael Grabner; Håkan Grudd; Björn E. Gunnarsson; Emilia Gutiérrez; Polona Hafner; Marika Haupt; Emmi Hilasvuori; Ingo Heinrich; Gerhard Helle; Risto Jalkanen; Högne Jungner; Maarit Kalela-Brundin; Andreas Kessler; Andreas Kirchhefer; Stephan Klesse; Marek Krapiec; Tom Levanič; Markus Leuenberger; Hans W. Linderholm; Danny McCarroll; Valérie Masson-Delmotte; Slawomira Pawelczyk; Anna Pazdur; Octavi Planells; Rutile Pukiene; Katja T. Rinne-Garmston; Iain Robertson; Antonio Saracino; Matthias Saurer; Gerhard H. Schleser; Kristina Seftigen; Rolf T.W. Siegwolf; Eloni Sonninen; Michel Stievenard; Elzbieta Szychowska-Krapiec; Malgorzata Szymaszek; Luigi Todaro; John S. Waterhouse; Martin Weigl-Kuska; Rosemarie B. Weigt; Rupert Wimmer; Ewan J. Woodley; Adomas Vitas; Giles Young; Neil J. Loader

doi:10.1038/s41561-023-01335-8

Recent human-induced atmospheric drying across Europe unprecedented in the last 400 years

Kerstin Treydte, Laibao Liu, Ryan S. Padrón, Elisabet Martínez-Sancho, Flurin Babst, David C. Frank, Arthur Gessler, Ansgar Kahmen, Benjamin Poulter, Sonia I. Seneviratne, Annemiek I. Stegehuis, Rob Wilson, Laia Andreu-Hayles, Roderick Bale, Zdzislaw Bednarz, Tatjana Boettger, Frank Berninger, Ulf Büntgen, Valerie Daux, Isabel Dorado-LiñánJan Esper, Michael Friedrich, Mary Gagen, Michael Grabner, Håkan Grudd, Björn E. Gunnarsson, Emilia Gutiérrez, Polona Hafner, Marika Haupt, Emmi Hilasvuori, Ingo Heinrich, Gerhard Helle, Risto Jalkanen, Högne Jungner, Maarit Kalela-Brundin, Andreas Kessler, Andreas Kirchhefer, Stephan Klesse, Marek Krapiec, Tom Levanič, Markus Leuenberger, Hans W. Linderholm, Danny McCarroll, Valérie Masson-Delmotte, Slawomira Pawelczyk, Anna Pazdur, Octavi Planells, Rutile Pukiene, Katja T. Rinne-Garmston, Iain Robertson, Antonio Saracino, Matthias Saurer, Gerhard H. Schleser, Kristina Seftigen, Rolf T.W. Siegwolf, Eloni Sonninen, Michel Stievenard, Elzbieta Szychowska-Krapiec, Malgorzata Szymaszek, Luigi Todaro, John S. Waterhouse, Martin Weigl-Kuska, Rosemarie B. Weigt, Rupert Wimmer, Ewan J. Woodley, Adomas Vitas, Giles Young, Neil J. Loader

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

The vapor pressure deficit reflects the difference between how much moisture the atmosphere could and actually does hold, a factor that fundamentally affects evapotranspiration, ecosystem functioning, and vegetation carbon uptake. Its spatial variability and long-term trends under natural versus human-influenced climate are poorly known despite being essential for predicting future effects on natural ecosystems and human societies such as crop yield, wildfires, and health. Here we combine regionally distinct reconstructions of pre-industrial summer vapor pressure deficit variability from Europe’s largest oxygen-isotope network of tree-ring cellulose with observational records and Earth system model simulations with and without human forcing included. We demonstrate that an intensification of atmospheric drying during the recent decades across different European target regions is unprecedented in a pre-industrial context and that it is attributed to human influence with more than 98% probability. The magnitude of this trend is largest in Western and Central Europe, the Alps and Pyrenees region, and the smallest in southern Fennoscandia. In view of the extreme drought and compound events of the recent years, further atmospheric drying poses an enhanced risk to vegetation, specifically in the densely populated areas of the European temperate lowlands.

Original language	English (US)
Pages (from-to)	58-65
Number of pages	8
Journal	Nature Geoscience
Volume	17
Issue number	1
DOIs	https://doi.org/10.1038/s41561-023-01335-8
State	Published - Jan 2024

ASJC Scopus subject areas

General Earth and Planetary Sciences

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10.1038/s41561-023-01335-8

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Treydte, K., Liu, L., Padrón, R. S., Martínez-Sancho, E., Babst, F., Frank, D. C., Gessler, A., Kahmen, A., Poulter, B., Seneviratne, S. I., Stegehuis, A. I., Wilson, R., Andreu-Hayles, L., Bale, R., Bednarz, Z., Boettger, T., Berninger, F., Büntgen, U., Daux, V., ... Loader, N. J. (2024). Recent human-induced atmospheric drying across Europe unprecedented in the last 400 years. Nature Geoscience, 17(1), 58-65. https://doi.org/10.1038/s41561-023-01335-8

Treydte, K, Liu, L, Padrón, RS, Martínez-Sancho, E, Babst, F , Frank, DC, Gessler, A, Kahmen, A, Poulter, B, Seneviratne, SI, Stegehuis, AI, Wilson, R, Andreu-Hayles, L, Bale, R, Bednarz, Z, Boettger, T, Berninger, F, Büntgen, U, Daux, V, Dorado-Liñán, I, Esper, J, Friedrich, M, Gagen, M, Grabner, M, Grudd, H, Gunnarsson, BE, Gutiérrez, E, Hafner, P, Haupt, M, Hilasvuori, E, Heinrich, I, Helle, G, Jalkanen, R, Jungner, H, Kalela-Brundin, M, Kessler, A, Kirchhefer, A, Klesse, S, Krapiec, M, Levanič, T, Leuenberger, M, Linderholm, HW, McCarroll, D, Masson-Delmotte, V, Pawelczyk, S, Pazdur, A, Planells, O, Pukiene, R, Rinne-Garmston, KT, Robertson, I, Saracino, A, Saurer, M, Schleser, GH, Seftigen, K, Siegwolf, RTW, Sonninen, E, Stievenard, M, Szychowska-Krapiec, E, Szymaszek, M, Todaro, L, Waterhouse, JS, Weigl-Kuska, M, Weigt, RB, Wimmer, R, Woodley, EJ, Vitas, A, Young, G & Loader, NJ 2024, 'Recent human-induced atmospheric drying across Europe unprecedented in the last 400 years', Nature Geoscience, vol. 17, no. 1, pp. 58-65. https://doi.org/10.1038/s41561-023-01335-8

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title = "Recent human-induced atmospheric drying across Europe unprecedented in the last 400 years",

abstract = "The vapor pressure deficit reflects the difference between how much moisture the atmosphere could and actually does hold, a factor that fundamentally affects evapotranspiration, ecosystem functioning, and vegetation carbon uptake. Its spatial variability and long-term trends under natural versus human-influenced climate are poorly known despite being essential for predicting future effects on natural ecosystems and human societies such as crop yield, wildfires, and health. Here we combine regionally distinct reconstructions of pre-industrial summer vapor pressure deficit variability from Europe{\textquoteright}s largest oxygen-isotope network of tree-ring cellulose with observational records and Earth system model simulations with and without human forcing included. We demonstrate that an intensification of atmospheric drying during the recent decades across different European target regions is unprecedented in a pre-industrial context and that it is attributed to human influence with more than 98% probability. The magnitude of this trend is largest in Western and Central Europe, the Alps and Pyrenees region, and the smallest in southern Fennoscandia. In view of the extreme drought and compound events of the recent years, further atmospheric drying poses an enhanced risk to vegetation, specifically in the densely populated areas of the European temperate lowlands.",

author = "Kerstin Treydte and Laibao Liu and Padr{\'o}n, {Ryan S.} and Elisabet Mart{\'i}nez-Sancho and Flurin Babst and Frank, {David C.} and Arthur Gessler and Ansgar Kahmen and Benjamin Poulter and Seneviratne, {Sonia I.} and Stegehuis, {Annemiek I.} and Rob Wilson and Laia Andreu-Hayles and Roderick Bale and Zdzislaw Bednarz and Tatjana Boettger and Frank Berninger and Ulf B{\"u}ntgen and Valerie Daux and Isabel Dorado-Li{\~n}{\'a}n and Jan Esper and Michael Friedrich and Mary Gagen and Michael Grabner and H{\aa}kan Grudd and Gunnarsson, {Bj{\"o}rn E.} and Emilia Guti{\'e}rrez and Polona Hafner and Marika Haupt and Emmi Hilasvuori and Ingo Heinrich and Gerhard Helle and Risto Jalkanen and H{\"o}gne Jungner and Maarit Kalela-Brundin and Andreas Kessler and Andreas Kirchhefer and Stephan Klesse and Marek Krapiec and Tom Levani{\v c} and Markus Leuenberger and Linderholm, {Hans W.} and Danny McCarroll and Val{\'e}rie Masson-Delmotte and Slawomira Pawelczyk and Anna Pazdur and Octavi Planells and Rutile Pukiene and Rinne-Garmston, {Katja T.} and Iain Robertson and Antonio Saracino and Matthias Saurer and Schleser, {Gerhard H.} and Kristina Seftigen and Siegwolf, {Rolf T.W.} and Eloni Sonninen and Michel Stievenard and Elzbieta Szychowska-Krapiec and Malgorzata Szymaszek and Luigi Todaro and Waterhouse, {John S.} and Martin Weigl-Kuska and Weigt, {Rosemarie B.} and Rupert Wimmer and Woodley, {Ewan J.} and Adomas Vitas and Giles Young and Loader, {Neil J.}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2024",

month = jan,

doi = "10.1038/s41561-023-01335-8",

language = "English (US)",

volume = "17",

pages = "58--65",

journal = "Nature Geoscience",

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T1 - Recent human-induced atmospheric drying across Europe unprecedented in the last 400 years

AU - Treydte, Kerstin

AU - Liu, Laibao

AU - Padrón, Ryan S.

AU - Martínez-Sancho, Elisabet

AU - Babst, Flurin

AU - Frank, David C.

AU - Gessler, Arthur

AU - Kahmen, Ansgar

AU - Poulter, Benjamin

AU - Seneviratne, Sonia I.

AU - Stegehuis, Annemiek I.

AU - Wilson, Rob

AU - Andreu-Hayles, Laia

AU - Bale, Roderick

AU - Bednarz, Zdzislaw

AU - Boettger, Tatjana

AU - Berninger, Frank

AU - Büntgen, Ulf

AU - Daux, Valerie

AU - Dorado-Liñán, Isabel

AU - Esper, Jan

AU - Friedrich, Michael

AU - Gagen, Mary

AU - Grabner, Michael

AU - Grudd, Håkan

AU - Gunnarsson, Björn E.

AU - Gutiérrez, Emilia

AU - Hafner, Polona

AU - Haupt, Marika

AU - Hilasvuori, Emmi

AU - Heinrich, Ingo

AU - Helle, Gerhard

AU - Jalkanen, Risto

AU - Jungner, Högne

AU - Kalela-Brundin, Maarit

AU - Kessler, Andreas

AU - Kirchhefer, Andreas

AU - Klesse, Stephan

AU - Krapiec, Marek

AU - Levanič, Tom

AU - Leuenberger, Markus

AU - Linderholm, Hans W.

AU - McCarroll, Danny

AU - Masson-Delmotte, Valérie

AU - Pawelczyk, Slawomira

AU - Pazdur, Anna

AU - Planells, Octavi

AU - Pukiene, Rutile

AU - Rinne-Garmston, Katja T.

AU - Robertson, Iain

AU - Saracino, Antonio

AU - Saurer, Matthias

AU - Schleser, Gerhard H.

AU - Seftigen, Kristina

AU - Siegwolf, Rolf T.W.

AU - Sonninen, Eloni

AU - Stievenard, Michel

AU - Szychowska-Krapiec, Elzbieta

AU - Szymaszek, Malgorzata

AU - Todaro, Luigi

AU - Waterhouse, John S.

AU - Weigl-Kuska, Martin

AU - Weigt, Rosemarie B.

AU - Wimmer, Rupert

AU - Woodley, Ewan J.

AU - Vitas, Adomas

AU - Young, Giles

AU - Loader, Neil J.

PY - 2024/1

Y1 - 2024/1

N2 - The vapor pressure deficit reflects the difference between how much moisture the atmosphere could and actually does hold, a factor that fundamentally affects evapotranspiration, ecosystem functioning, and vegetation carbon uptake. Its spatial variability and long-term trends under natural versus human-influenced climate are poorly known despite being essential for predicting future effects on natural ecosystems and human societies such as crop yield, wildfires, and health. Here we combine regionally distinct reconstructions of pre-industrial summer vapor pressure deficit variability from Europe’s largest oxygen-isotope network of tree-ring cellulose with observational records and Earth system model simulations with and without human forcing included. We demonstrate that an intensification of atmospheric drying during the recent decades across different European target regions is unprecedented in a pre-industrial context and that it is attributed to human influence with more than 98% probability. The magnitude of this trend is largest in Western and Central Europe, the Alps and Pyrenees region, and the smallest in southern Fennoscandia. In view of the extreme drought and compound events of the recent years, further atmospheric drying poses an enhanced risk to vegetation, specifically in the densely populated areas of the European temperate lowlands.

AB - The vapor pressure deficit reflects the difference between how much moisture the atmosphere could and actually does hold, a factor that fundamentally affects evapotranspiration, ecosystem functioning, and vegetation carbon uptake. Its spatial variability and long-term trends under natural versus human-influenced climate are poorly known despite being essential for predicting future effects on natural ecosystems and human societies such as crop yield, wildfires, and health. Here we combine regionally distinct reconstructions of pre-industrial summer vapor pressure deficit variability from Europe’s largest oxygen-isotope network of tree-ring cellulose with observational records and Earth system model simulations with and without human forcing included. We demonstrate that an intensification of atmospheric drying during the recent decades across different European target regions is unprecedented in a pre-industrial context and that it is attributed to human influence with more than 98% probability. The magnitude of this trend is largest in Western and Central Europe, the Alps and Pyrenees region, and the smallest in southern Fennoscandia. In view of the extreme drought and compound events of the recent years, further atmospheric drying poses an enhanced risk to vegetation, specifically in the densely populated areas of the European temperate lowlands.

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JO - Nature Geoscience

JF - Nature Geoscience

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Recent human-induced atmospheric drying across Europe unprecedented in the last 400 years

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