Literature DB >> 28092919

Compensatory water effects link yearly global land CO2 sink changes to temperature.

Martin Jung1, Markus Reichstein1,2, Christopher R Schwalm3, Chris Huntingford4, Stephen Sitch5, Anders Ahlström6,7, Almut Arneth8, Gustau Camps-Valls9, Philippe Ciais10, Pierre Friedlingstein11, Fabian Gans1, Kazuhito Ichii12,13, Atul K Jain14, Etsushi Kato15, Dario Papale16, Ben Poulter17, Botond Raduly16,18, Christian Rödenbeck19, Gianluca Tramontana16, Nicolas Viovy10, Ying-Ping Wang20, Ulrich Weber1, Sönke Zaehle1,2, Ning Zeng21,22.   

Abstract

Large interannual variations in the measured growth rate of atmospheric carbon dioxide (CO2) originate primarily from fluctuations in carbon uptake by land ecosystems. It remains uncertain, however, to what extent temperature and water availability control the carbon balance of land ecosystems across spatial and temporal scales. Here we use empirical models based on eddy covariance data and process-based models to investigate the effect of changes in temperature and water availability on gross primary productivity (GPP), terrestrial ecosystem respiration (TER) and net ecosystem exchange (NEE) at local and global scales. We find that water availability is the dominant driver of the local interannual variability in GPP and TER. To a lesser extent this is true also for NEE at the local scale, but when integrated globally, temporal NEE variability is mostly driven by temperature fluctuations. We suggest that this apparent paradox can be explained by two compensatory water effects. Temporal water-driven GPP and TER variations compensate locally, dampening water-driven NEE variability. Spatial water availability anomalies also compensate, leaving a dominant temperature signal in the year-to-year fluctuations of the land carbon sink. These findings help to reconcile seemingly contradictory reports regarding the importance of temperature and water in controlling the interannual variability of the terrestrial carbon balance. Our study indicates that spatial climate covariation drives the global carbon cycle response.

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Year:  2017        PMID: 28092919     DOI: 10.1038/nature20780

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  13 in total

1.  Regional changes in carbon dioxide fluxes of land and oceans since 1980.

Authors:  P Bousquet; P Peylin; P Ciais; C Le Quéré; P Friedlingstein; P P Tans
Journal:  Science       Date:  2000-11-17       Impact factor: 47.728

2.  Tropical nighttime warming as a dominant driver of variability in the terrestrial carbon sink.

Authors:  William R L Anderegg; Ashley P Ballantyne; W Kolby Smith; Joseph Majkut; Sam Rabin; Claudie Beaulieu; Richard Birdsey; John P Dunne; Richard A Houghton; Ranga B Myneni; Yude Pan; Jorge L Sarmiento; Nathan Serota; Elena Shevliakova; Pieter Tans; Stephen W Pacala
Journal:  Proc Natl Acad Sci U S A       Date:  2015-12-07       Impact factor: 11.205

3.  Terrestrial carbon balance in a drier world: the effects of water availability in southwestern North America.

Authors:  Joel A Biederman; Russell L Scott; Michael L Goulden; Rodrigo Vargas; Marcy E Litvak; Thomas E Kolb; Enrico A Yepez; Walter C Oechel; Peter D Blanken; Tom W Bell; Jaime Garatuza-Payan; Gregory E Maurer; Sabina Dore; Sean P Burns
Journal:  Glob Chang Biol       Date:  2016-02-15       Impact factor: 10.863

4.  Europe-wide reduction in primary productivity caused by the heat and drought in 2003.

Authors:  Ph Ciais; M Reichstein; N Viovy; A Granier; J Ogée; V Allard; M Aubinet; N Buchmann; Chr Bernhofer; A Carrara; F Chevallier; N De Noblet; A D Friend; P Friedlingstein; T Grünwald; B Heinesch; P Keronen; A Knohl; G Krinner; D Loustau; G Manca; G Matteucci; F Miglietta; J M Ourcival; D Papale; K Pilegaard; S Rambal; G Seufert; J F Soussana; M J Sanz; E D Schulze; T Vesala; R Valentini
Journal:  Nature       Date:  2005-09-22       Impact factor: 49.962

Review 5.  Observing terrestrial ecosystems and the carbon cycle from space.

Authors:  David Schimel; Ryan Pavlick; Joshua B Fisher; Gregory P Asner; Sassan Saatchi; Philip Townsend; Charles Miller; Christian Frankenberg; Kathy Hibbard; Peter Cox
Journal:  Glob Chang Biol       Date:  2015-02-06       Impact factor: 10.863

6.  Carbon cycle. The dominant role of semi-arid ecosystems in the trend and variability of the land CO₂ sink.

Authors:  Anders Ahlström; Michael R Raupach; Guy Schurgers; Benjamin Smith; Almut Arneth; Martin Jung; Markus Reichstein; Josep G Canadell; Pierre Friedlingstein; Atul K Jain; Etsushi Kato; Benjamin Poulter; Stephen Sitch; Benjamin D Stocker; Nicolas Viovy; Ying Ping Wang; Andy Wiltshire; Sönke Zaehle; Ning Zeng
Journal:  Science       Date:  2015-05-21       Impact factor: 47.728

7.  A two-fold increase of carbon cycle sensitivity to tropical temperature variations.

Authors:  Xuhui Wang; Shilong Piao; Philippe Ciais; Pierre Friedlingstein; Ranga B Myneni; Peter Cox; Martin Heimann; John Miller; Shushi Peng; Tao Wang; Hui Yang; Anping Chen
Journal:  Nature       Date:  2014-01-26       Impact factor: 49.962

8.  Contribution of semi-arid ecosystems to interannual variability of the global carbon cycle.

Authors:  Benjamin Poulter; David Frank; Philippe Ciais; Ranga B Myneni; Niels Andela; Jian Bi; Gregoire Broquet; Josep G Canadell; Frederic Chevallier; Yi Y Liu; Steven W Running; Stephen Sitch; Guido R van der Werf
Journal:  Nature       Date:  2014-05-21       Impact factor: 49.962

9.  Variations in atmospheric CO2 growth rates coupled with tropical temperature.

Authors:  Weile Wang; Philippe Ciais; Ramakrishna R Nemani; Josep G Canadell; Shilong Piao; Stephen Sitch; Michael A White; Hirofumi Hashimoto; Cristina Milesi; Ranga B Myneni
Journal:  Proc Natl Acad Sci U S A       Date:  2013-07-24       Impact factor: 11.205

10.  The response of tropical rainforests to drought-lessons from recent research and future prospects.

Authors:  Damien Bonal; Benoit Burban; Clément Stahl; Fabien Wagner; Bruno Hérault
Journal:  Ann For Sci       Date:  2015-09-25       Impact factor: 2.583
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  41 in total

1.  The impact of the 2015/2016 El Niño on global photosynthesis using satellite remote sensing.

Authors:  Xiangzhong Luo; Trevor F Keenan; Joshua B Fisher; Juan-Carlos Jiménez-Muñoz; Jing M Chen; Chongya Jiang; Weimin Ju; Naga-Vineet Perakalapudi; Youngryel Ryu; Jovan M Tadić
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2018-10-08       Impact factor: 6.237

2.  New insights into the variability of the tropical land carbon cycle from the El Niño of 2015/2016.

Authors:  Yadvinder Malhi; Lucy Rowland; Luiz E O C Aragão; Rosie A Fisher
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2018-10-08       Impact factor: 6.237

3.  Estimating surface soil moisture from SMAP observations using a Neural Network technique.

Authors:  J Kolassa; R H Reichle; Q Liu; S H Alemohammad; P Gentine; K Aida; J Asanuma; S Bircher; T Caldwell; A Colliander; M Cosh; C Holifield Collins; T J Jackson; J Martínez-Fernández; H McNairn; A Pacheco; M Thibeault; J P Walker
Journal:  Remote Sens Environ       Date:  2017-11-11       Impact factor: 10.164

4.  Climate change and carbon sink: a bibliometric analysis.

Authors:  Li Huang; Ke Chen; Mi Zhou
Journal:  Environ Sci Pollut Res Int       Date:  2020-01-07       Impact factor: 4.223

5.  Worldwide impacts of atmospheric vapor pressure deficit on the interannual variability of terrestrial carbon sinks.

Authors:  Bin He; Chen Chen; Shangrong Lin; Wenping Yuan; Hans W Chen; Deliang Chen; Yafeng Zhang; Lanlan Guo; Xiang Zhao; Xuebang Liu; Shilong Piao; Ziqian Zhong; Rui Wang; Rui Tang
Journal:  Natl Sci Rev       Date:  2021-08-20       Impact factor: 17.275

6.  Regional and seasonal partitioning of water and temperature controls on global land carbon uptake variability.

Authors:  Kai Wang; Ana Bastos; Philippe Ciais; Xuhui Wang; Christian Rödenbeck; Pierre Gentine; Frédéric Chevallier; Vincent W Humphrey; Chris Huntingford; Michael O'Sullivan; Sonia I Seneviratne; Stephen Sitch; Shilong Piao
Journal:  Nat Commun       Date:  2022-06-16       Impact factor: 17.694

7.  Interannual and Seasonal Drivers of Carbon Cycle Variability Represented by the Community Earth System Model (CESM2).

Authors:  William R Wieder; Zachary Butterfield; Keith Lindsay; Danica L Lombardozzi; Gretchen Keppel-Aleks
Journal:  Global Biogeochem Cycles       Date:  2021-09-13       Impact factor: 6.500

Review 8.  Water-Food-Carbon Nexus Related to the Producer-Consumer Link: A Review.

Authors:  Jiahui Wang; Shikun Sun; Yali Yin; Kaixuan Wang; Jingxin Sun; Yihe Tang; Jinfeng Zhao
Journal:  Adv Nutr       Date:  2022-06-01       Impact factor: 11.567

9.  Increased water-use efficiency and reduced CO2 uptake by plants during droughts at a continental-scale.

Authors:  Wouter Peters; Ivar R van der Velde; Erik van Schaik; John B Miller; Philippe Ciais; Henrique F Duarte; Ingrid T van der Laan-Luijkx; Michiel K van der Molen; Marko Scholze; Kevin Schaefer; Pier Luigi Vidale; Anne Verhoef; David Wårlind; Dan Zhu; Pieter P Tans; Bruce Vaughn; James W C White
Journal:  Nat Geosci       Date:  2018-08-27       Impact factor: 16.908

10.  Plant uptake of CO2 outpaces losses from permafrost and plant respiration on the Tibetan Plateau.

Authors:  Da Wei; Yahui Qi; Yaoming Ma; Xufeng Wang; Weiqiang Ma; Tanguang Gao; Lin Huang; Hui Zhao; Jianxin Zhang; Xiaodan Wang
Journal:  Proc Natl Acad Sci U S A       Date:  2021-08-17       Impact factor: 12.779
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