Literature DB >> 32269351

The fate of carbon in a mature forest under carbon dioxide enrichment.

Mingkai Jiang1, Belinda E Medlyn2, John E Drake3,4, Remko A Duursma3, Ian C Anderson3, Craig V M Barton3, Matthias M Boer3, Yolima Carrillo3, Laura Castañeda-Gómez3, Luke Collins3,5,6, Kristine Y Crous3, Martin G De Kauwe7,8,9, Bruna M Dos Santos10,11, Kathryn M Emmerson12, Sarah L Facey3, Andrew N Gherlenda3, Teresa E Gimeno3,13,14, Shun Hasegawa3,15, Scott N Johnson3, Astrid Kännaste16, Catriona A Macdonald3, Kashif Mahmud3,17, Ben D Moore3, Loïc Nazaries3, Elizabeth H J Neilson10,11, Uffe N Nielsen3, Ülo Niinemets16, Nam Jin Noh3,18, Raúl Ochoa-Hueso3,19, Varsha S Pathare3,20, Elise Pendall3, Johanna Pihlblad3, Juan Piñeiro3,21, Jeff R Powell3, Sally A Power3, Peter B Reich3,22, Alexandre A Renchon3, Markus Riegler3, Riikka Rinnan23, Paul D Rymer3, Roberto L Salomón24, Brajesh K Singh3,25, Benjamin Smith3,26, Mark G Tjoelker3, Jennifer K M Walker3, Agnieszka Wujeska-Klause3, Jinyan Yang3, Sönke Zaehle27, David S Ellsworth3.   

Abstract

Atmospheric carbon dioxide enrichment (eCO2) can enhance plant carbon uptake and growth1-5, thereby providing an important negative feedback to climate change by slowing the rate of increase of the atmospheric CO2 concentration6. Although evidence gathered from young aggrading forests has generally indicated a strong CO2 fertilization effect on biomass growth3-5, it is unclear whether mature forests respond to eCO2 in a similar way. In mature trees and forest stands7-10, photosynthetic uptake has been found to increase under eCO2 without any apparent accompanying growth response, leaving the fate of additional carbon fixed under eCO2 unclear4,5,7-11. Here using data from the first ecosystem-scale Free-Air CO2 Enrichment (FACE) experiment in a mature forest, we constructed a comprehensive ecosystem carbon budget to track the fate of carbon as the forest responded to four years of eCO2 exposure. We show that, although the eCO2 treatment of +150 parts per million (+38 per cent) above ambient levels induced a 12 per cent (+247 grams of carbon per square metre per year) increase in carbon uptake through gross primary production, this additional carbon uptake did not lead to increased carbon sequestration at the ecosystem level. Instead, the majority of the extra carbon was emitted back into the atmosphere via several respiratory fluxes, with increased soil respiration alone accounting for half of the total uptake surplus. Our results call into question the predominant thinking that the capacity of forests to act as carbon sinks will be generally enhanced under eCO2, and challenge the efficacy of climate mitigation strategies that rely on ubiquitous CO2 fertilization as a driver of increased carbon sinks in global forests.

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Year:  2020        PMID: 32269351     DOI: 10.1038/s41586-020-2128-9

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


  25 in total

1.  Model-data synthesis for the next generation of forest free-air CO2 enrichment (FACE) experiments.

Authors:  Richard J Norby; Martin G De Kauwe; Tomas F Domingues; Remko A Duursma; David S Ellsworth; Daniel S Goll; David M Lapola; Kristina A Luus; A Rob MacKenzie; Belinda E Medlyn; Ryan Pavlick; Anja Rammig; Benjamin Smith; Rick Thomas; Kirsten Thonicke; Anthony P Walker; Xiaojuan Yang; Sönke Zaehle
Journal:  New Phytol       Date:  2015-08-06       Impact factor: 10.151

2.  Effect of increasing CO2 on the terrestrial carbon cycle.

Authors:  David Schimel; Britton B Stephens; Joshua B Fisher
Journal:  Proc Natl Acad Sci U S A       Date:  2014-12-29       Impact factor: 11.205

3.  Role of forest regrowth in global carbon sink dynamics.

Authors:  Thomas A M Pugh; Mats Lindeskog; Benjamin Smith; Benjamin Poulter; Almut Arneth; Vanessa Haverd; Leonardo Calle
Journal:  Proc Natl Acad Sci U S A       Date:  2019-02-19       Impact factor: 11.205

4.  Beyond global change: lessons from 25 years of CO2 research.

Authors:  Sebastian Leuzinger; Stephan Hättenschwiler
Journal:  Oecologia       Date:  2013-01-10       Impact factor: 3.225

Review 5.  Shifting from a fertilization-dominated to a warming-dominated period.

Authors:  Josep Peñuelas; Philippe Ciais; Josep G Canadell; Ivan A Janssens; Marcos Fernández-Martínez; Jofre Carnicer; Michael Obersteiner; Shilong Piao; Robert Vautard; Jordi Sardans
Journal:  Nat Ecol Evol       Date:  2017-09-18       Impact factor: 15.460

6.  Net primary production of a forest ecosystem with experimental CO2 enrichment

Authors: 
Journal:  Science       Date:  1999-05-14       Impact factor: 47.728

7.  Carbon flux and growth in mature deciduous forest trees exposed to elevated CO2.

Authors:  Christian Körner; Roman Asshoff; Olivier Bignucolo; Stephan Hättenschwiler; Sonja G Keel; Susanna Peláez-Riedl; Steeve Pepin; Rolf T W Siegwolf; Gerhard Zotz
Journal:  Science       Date:  2005-08-26       Impact factor: 47.728

8.  Increases in the flux of carbon belowground stimulate nitrogen uptake and sustain the long-term enhancement of forest productivity under elevated CO₂.

Authors:  John E Drake; Anne Gallet-Budynek; Kirsten S Hofmockel; Emily S Bernhardt; Sharon A Billings; Robert B Jackson; Kurt S Johnsen; John Lichter; Heather R McCarthy; M Luke McCormack; David J P Moore; Ram Oren; Sari Palmroth; Richard P Phillips; Jeffrey S Pippen; Seth G Pritchard; Kathleen K Treseder; William H Schlesinger; Evan H Delucia; Adrien C Finzi
Journal:  Ecol Lett       Date:  2011-02-09       Impact factor: 9.492

9.  Three decades of research at Flakaliden advancing whole-tree physiology, forest ecosystem and global change research.

Authors:  Michael G Ryan
Journal:  Tree Physiol       Date:  2013-11       Impact factor: 4.196

10.  Decadal biomass increment in early secondary succession woody ecosystems is increased by CO2 enrichment.

Authors:  Anthony P Walker; Martin G De Kauwe; Belinda E Medlyn; Sönke Zaehle; Colleen M Iversen; Shinichi Asao; Bertrand Guenet; Anna Harper; Thomas Hickler; Bruce A Hungate; Atul K Jain; Yiqi Luo; Xingjie Lu; Meng Lu; Kristina Luus; J Patrick Megonigal; Ram Oren; Edmund Ryan; Shijie Shu; Alan Talhelm; Ying-Ping Wang; Jeffrey M Warren; Christian Werner; Jianyang Xia; Bai Yang; Donald R Zak; Richard J Norby
Journal:  Nat Commun       Date:  2019-02-14       Impact factor: 14.919
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  14 in total

1.  Contrasting responses of woody and grassland ecosystems to increased CO2 as water supply varies.

Authors:  Yude Pan; Robert B Jackson; David Y Hollinger; Oliver L Phillips; Robert S Nowak; Richard J Norby; Ram Oren; Peter B Reich; Andreas Lüscher; Kevin E Mueller; Clenton Owensby; Richard Birdsey; John Hom; Yiqi Luo
Journal:  Nat Ecol Evol       Date:  2022-01-13       Impact factor: 15.460

2.  Enhanced leaf turnover and nitrogen recycling sustain CO2 fertilization effect on tree-ring growth.

Authors:  Ying Guo; Lin Zhang; Liu Yang; Wei Shen; Yude Pan; Ian J Wright; Yiqi Luo; Tianxiang Luo
Journal:  Nat Ecol Evol       Date:  2022-07-11       Impact factor: 19.100

3.  Warm springs alter timing but not total growth of temperate deciduous trees.

Authors:  Cameron Dow; Albert Y Kim; Loïc D'Orangeville; Erika B Gonzalez-Akre; Ryan Helcoski; Valentine Herrmann; Grant L Harley; Justin T Maxwell; Ian R McGregor; William J McShea; Sean M McMahon; Neil Pederson; Alan J Tepley; Kristina J Anderson-Teixeira
Journal:  Nature       Date:  2022-08-10       Impact factor: 69.504

4.  The early arrival of spring doesn't boost annual tree growth.

Authors:  Cyrille B K Rathgeber; Patrick Fonti
Journal:  Nature       Date:  2022-08       Impact factor: 69.504

5.  The role of China's terrestrial carbon sequestration 2010-2060 in offsetting energy-related CO2 emissions.

Authors:  Yao Huang; Wenjuan Sun; Zhangcai Qin; Wen Zhang; Yongqiang Yu; Tingting Li; Qing Zhang; Guocheng Wang; Lingfei Yu; Yijie Wang; Fan Ding; Ping Zhang
Journal:  Natl Sci Rev       Date:  2022-03-25       Impact factor: 23.178

6.  Sensitivity of grassland carbon pools to plant diversity, elevated CO2, and soil nitrogen addition over 19 years.

Authors:  Melissa A Pastore; Sarah E Hobbie; Peter B Reich
Journal:  Proc Natl Acad Sci U S A       Date:  2021-04-27       Impact factor: 11.205

7.  A trade-off between plant and soil carbon storage under elevated CO2.

Authors:  C Terrer; R P Phillips; B A Hungate; J Rosende; J Pett-Ridge; M E Craig; K J van Groenigen; T F Keenan; B N Sulman; B D Stocker; P B Reich; A F A Pellegrini; E Pendall; H Zhang; R D Evans; Y Carrillo; J B Fisher; K Van Sundert; Sara Vicca; R B Jackson
Journal:  Nature       Date:  2021-03-24       Impact factor: 69.504

Review 8.  Ecotrons: Powerful and versatile ecosystem analysers for ecology, agronomy and environmental science.

Authors:  Jacques Roy; François Rineau; Hans J De Boeck; Ivan Nijs; Thomas Pütz; Samuel Abiven; John A Arnone; Craig V M Barton; Natalie Beenaerts; Nicolas Brüggemann; Matteo Dainese; Timo Domisch; Nico Eisenhauer; Sarah Garré; Alban Gebler; Andrea Ghirardo; Richard L Jasoni; George Kowalchuk; Damien Landais; Stuart H Larsen; Vincent Leemans; Jean-François Le Galliard; Bernard Longdoz; Florent Massol; Teis N Mikkelsen; Georg Niedrist; Clément Piel; Olivier Ravel; Joana Sauze; Anja Schmidt; Jörg-Peter Schnitzler; Leonardo H Teixeira; Mark G Tjoelker; Wolfgang W Weisser; Barbro Winkler; Alexandru Milcu
Journal:  Glob Chang Biol       Date:  2021-01-28       Impact factor: 10.863

9.  Multi-decadal increase of forest burned area in Australia is linked to climate change.

Authors:  Josep G Canadell; C P Mick Meyer; Garry D Cook; Andrew Dowdy; Peter R Briggs; Jürgen Knauer; Acacia Pepler; Vanessa Haverd
Journal:  Nat Commun       Date:  2021-11-26       Impact factor: 14.919

10.  Is photosynthetic enhancement sustained through three years of elevated CO2 exposure in 175-year-old Quercus robur?

Authors:  A Gardner; D S Ellsworth; K Y Crous; J Pritchard; A R MacKenzie
Journal:  Tree Physiol       Date:  2022-01-05       Impact factor: 4.196
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