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The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal , Data Paper 2020Embargo end date: 09 Jul 2020 Germany, Italy, Denmark, Italy, Italy, Australia, Germany, Germany, Belgium, Australia, Italy, Netherlands, Belgium, Italy, Australia, Italy, Russian Federation, Germany, Czech Republic, Germany, Italy, Australia, Netherlands, Australia, Switzerland, Italy, Australia, Germany, Netherlands, Norway, Germany, Australia, Australia, Italy, Finland, Sweden, Czech Republic, France, Spain, Denmark, Netherlands, Finland, United States Publisher:Springer Science and Business Media LLCPublicly fundedFunded by:UKRI | RootDetect: Remote Detect...
UKRI| RootDetect: Remote Detection and Precision Management of Root Health
Authors: Andreas Ibrom; Bruno De Cinti; Jean Marc Ourcival; Vincenzo Magliulo; +196 Authors
Andreas Ibrom; Bruno De Cinti; Jean Marc Ourcival; Vincenzo Magliulo; Onil Bergeron; M. Altaf Arain; Andrew Feitz; Zulia Mayari Sanchez-Mejia; Christof Ammann; Yann Nouvellon; Siyan Ma; Brian D. Amiro; Kim Pilegaard; Eddy Moors; Michele Tomassucci; Asko Noormets; Shawn Urbanski; Damiano Gianelle; Anatoly A. Gitelson; E. Canfora; You Wei Cheah; Ko van Huissteden; Shicheng Jiang; Hans Peter Schmid; Albin Hammerle; Brent E. Ewers; Virginie Moreaux; Housen Chu; Anne Griebel; Timothy J. Arkebauer; Peter Cale; Barbara Marcolla; Alan G. Barr; Alan G. Barr; Scott D. Miller; Lutz Merbold; Ivan Schroder; Joseph Verfaillie; Stefan K. Arndt; Scott R. Saleska; Nicolas Delpierre; Catharine van Ingen; Christine Moureaux; Annalea Lohila; Annalea Lohila; Gabriela Posse; Bernard Heinesch; Pierpaolo Duce; Raimundo Cosme de Oliveira; Kenneth J. Davis; Markus Hehn; Torben R. Christensen; Tilden P. Meyers; Werner L. Kutsch; Lindsay B. Hutley; Üllar Rannik; W.W.P. Jans; Riccardo Valentini; Myroslava Khomik; Myroslava Khomik; Pierre Cellier; Ayumi Kotani; Xiaoqin Dai; Marta Galvagno; Frans-Jan W. Parmentier; Frans-Jan W. Parmentier; Eric Dufrêne; Marius Schmidt; Birger Ulf Hansen; Alessio Collalti; Alessio Collalti; Ivan Shironya; Christian Brümmer; Russell L. Scott; Serge Rambal; Jonas Ardö; Natalia Restrepo-Coupe; Donatella Zona; Elizabeth A. Walter-Shea; Russell K. Monson; Silvano Fares; Sean P. Burns; Sean P. Burns; Mauro Cavagna; Guoyi Zhou; Suzanne M. Prober; Juha Pekka Tuovinen; Georgia R. Koerber; Yuelin Li; Alexander Knohl; Mikhail Mastepanov; Mikhail Mastepanov; Yanhong Tang; Johan Neirynck; Matthew Northwood; Pauline Buysse; Thomas Grünwald; Sabina Dore; N. Pirk; N. Pirk; Hiroki Ikawa; Craig Macfarlane; Jean-Marc Limousin; Carlos Marcelo Di Bella; Leiming Zhang; Juha Hatakka; Margaret S. Torn; Mika Aurela; Bert Gielen; Jiquan Chen; Regine Maier; Karl Schneider; Christian Wille; Nina Buchmann; Daniel Berveiller; Peter D. Blanken; Wayne S. Meyer; Dennis D. Baldocchi; Benjamin Loubet; Giovanni Manca; Hatim Abdalla M. ElKhidir; James Cleverly; Harry McCaughey; Agnès de Grandcourt; Matthias Peichl; Adam J. Liska; Jonathan E. Thom; Christian Bernhofer; Jean Marc Bonnefond; Alexander Graf; Roser Matamala; M. Goeckede; Marian Pavelka; Hank A. Margolis; Eugénie Paul-Limoges; Andrew S. Kowalski; Taro Nakai; Taro Nakai; Marcelo D. Nosetto; Tomomichi Kato; Ray Leuning; Beniamino Gioli; Marc Aubinet; Tuomas Laurila; Andrej Varlagin; Ignacio Goded; David R. Bowling; Nigel J. Tapper; Ana López-Ballesteros; Denis Loustau; Iris Feigenwinter; Uta Moderow; Edoardo Cremonese; Gianluca Filippa; Domenico Vitale; Abdelrahman Elbashandy; Gilberto Pastorello; Ettore D'Andrea; Gil Bohrer; Thomas L. Powell; Serena Marras; Daniela Famulari; Christopher M. Gough; Enrique P. Sánchez-Cañete; Satoru Takanashi; Michael J. Liddell; Jason Brodeur; Marc Fischer; Zoran Nesic; William J. Massman; Janina Klatt; Samuli Launiainen; Anne De Ligne; Leonardo Montagnani; Sebastian Wolf; Rainer Steinbrecher; Yingnian Li; Donatella Spano; A. Ribeca; Rosvel Bracho; Walter C. Oechel; B.R. Reverter; Jiří Dušek; Sebastian Westermann; Rachhpal S. Jassal; Derek Eamus; Claudia Consalvo; Claudia Consalvo; Marty Humphrey; Timo Vesala; Cristina Poindexter; Jeffrey P. Walker; Humberto Ribeiro da Rocha; Paul V. Bolstad; Elise Pendall; Diego Polidori; Peter S. Curtis; Chad Hanson; Francisco Domingo; Jason Beringer;
doi: 10.1038/s41597-020-0534-3 , 10.5445/ir/1000123863 , 10.3929/ethz-b-000426936
pmid: 32647314
pmc: PMC7347557
handle: 1871.1/2be3a3d2-3c8e-439d-925d-23e9fda6feb3 , 10852/81470 , 20.500.14243/407554 , 11388/307148 , 2078.1/231960 , 10138/325020 , 10481/64201 , 10067/1712560151162165141 , 10449/64207 , 11573/1665169 , 1959.7/uws:57306 , 10568/108878 , 11343/244534 , 2440/129213 , 2067/45442
doi: 10.1038/s41597-020-0534-3 , 10.5445/ir/1000123863 , 10.3929/ethz-b-000426936
pmid: 32647314
pmc: PMC7347557
handle: 1871.1/2be3a3d2-3c8e-439d-925d-23e9fda6feb3 , 10852/81470 , 20.500.14243/407554 , 11388/307148 , 2078.1/231960 , 10138/325020 , 10481/64201 , 10067/1712560151162165141 , 10449/64207 , 11573/1665169 , 1959.7/uws:57306 , 10568/108878 , 11343/244534 , 2440/129213 , 2067/45442
AbstractThe FLUXNET2015 dataset provides ecosystem-scale data on CO2, water, and energy exchange between the biosphere and the atmosphere, and other meteorological and biological measurements, from 212 sites around the globe (over 1500 site-years, up to and including year 2014). These sites, independently managed and operated, voluntarily contributed their data to create global datasets. Data were quality controlled and processed using uniform methods, to improve consistency and intercomparability across sites. The dataset is already being used in a number of applications, including ecophysiology studies, remote sensing studies, and development of ecosystem and Earth system models. FLUXNET2015 includes derived-data products, such as gap-filled time series, ecosystem respiration and photosynthetic uptake estimates, estimation of uncertainties, and metadata about the measurements, presented for the first time in this paper. In addition, 206 of these sites are for the first time distributed under a Creative Commons (CC-BY 4.0) license. This paper details this enhanced dataset and the processing methods, now made available as open-source codes, making the dataset more accessible, transparent, and reproducible.
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Atmospheric deposition, CO2, and change in the land carbon sink
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2017 Italy, Finland, Italy, Italy, Austria, Italy, Netherlands, Netherlands, Netherlands, Italy, Germany, Denmark, Netherlands, France, Italy, Italy, Belgium, Germany, United States Publisher:Springer Science and Business Media LLCFunded by:EC | IMBALANCE-P
EC| IMBALANCE-P
Authors: Jean-Marc Limousin; Ivan Mammarella; S. L. Piao; S. L. Piao; +29 Authors
Jean-Marc Limousin; Ivan Mammarella; S. L. Piao; S. L. Piao; Alexander Knohl; Russell K. Monson; Dario Papale; Michael Obersteiner; Aleixandre Verger; Josep Peñuelas; J. W. Munger; Damiano Gianelle; Bernard Heinesch; Leonardo Montagnani; Peter S. Curtis; Christian Bernhofer; Beverly E. Law; Eddy Moors; Mireia Bartrons; Jordi Sardans; Marcos Fernández-Martínez; Denis Loustau; Thomas Grünwald; Sara Vicca; Terhi K. Laurila; Ivan A. Janssens; Philippe Ciais; Xizhang Wang; Josep G. Canadell; Bernard Longdoz; Giorgio Matteucci; Frédéric Chevallier; Andreas Ibrom;
doi: 10.1038/s41598-017-08755-8 , 10.60692/ezmrb-ya974 , 10.60692/e1cff-a4r64
pmid: 28851977
pmc: PMC5574890
handle: 1871.1/b0ab2b9d-8fdc-47f1-8ade-fdb7d9074e96 , 20.500.14243/416898 , 10138/224185 , 10067/1456960151162165141 , 10449/43598 , 2607/4525 , 2607/30543
doi: 10.1038/s41598-017-08755-8 , 10.60692/ezmrb-ya974 , 10.60692/e1cff-a4r64
pmid: 28851977
pmc: PMC5574890
handle: 1871.1/b0ab2b9d-8fdc-47f1-8ade-fdb7d9074e96 , 20.500.14243/416898 , 10138/224185 , 10067/1456960151162165141 , 10449/43598 , 2607/4525 , 2607/30543
AbstractConcentrations of atmospheric carbon dioxide (CO2) have continued to increase whereas atmospheric deposition of sulphur and nitrogen has declined in Europe and the USA during recent decades. Using time series of flux observations from 23 forests distributed throughout Europe and the USA, and generalised mixed models, we found that forest-level net ecosystem production and gross primary production have increased by 1% annually from 1995 to 2011. Statistical models indicated that increasing atmospheric CO2 was the most important factor driving the increasing strength of carbon sinks in these forests. We also found that the reduction of sulphur deposition in Europe and the USA lead to higher recovery in ecosystem respiration than in gross primary production, thus limiting the increase of carbon sequestration. By contrast, trends in climate and nitrogen deposition did not significantly contribute to changing carbon fluxes during the studied period. Our findings support the hypothesis of a general CO2-fertilization effect on vegetation growth and suggest that, so far unknown, sulphur deposition plays a significant role in the carbon balance of forests in industrialized regions. Our results show the need to include the effects of changing atmospheric composition, beyond CO2, to assess future dynamics of carbon-climate feedbacks not currently considered in earth system/climate modelling.
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Decoding autumn phenology: Unraveling the link between observation methods and detected environmental cues
descriptionPublicationkeyboard_double_arrow_right Article 2024 Germany Publisher:WileyFunded by:DFG
DFG
Authors: Simon Kloos; Anne Klosterhalfen; Alexander Knohl; Annette Menzel;
doi: 10.1111/gcb.17231
pmid: 38481067
doi: 10.1111/gcb.17231
pmid: 38481067
AbstractLeaf coloring and fall mark the end of the growing season (EOS), playing essential roles in nutrient cycling, resource allocation, ecological interactions, and as climate change indicators. However, understanding future changes in autumn phenology is challenging due to the multitude of likely environmental cues and substantial variations in timing caused by different derivation methods. Yet, it remains unclear whether these two factors are independent or if methodological uncertainties influence the environmental cues determined. We derived start of growing season (SOS) and EOS at a mixed beech forest in Central Germany for the period 2000–2020 based on four different derivation methods using a unique long‐term data set of in‐situ data, canopy imagery, eddy covariance measurements, and satellite remote sensing data and determined their influence on a predictor analysis of leaf senescence. Both SOS and EOS exhibited substantial ranges in mean onset dates (39.5 and 28.6 days, respectively) across the different methods, although inter‐annual variations and advancing SOS trends were similar across methods. Depending on the data, EOS trends were advanced or delayed, but inter‐annual patterns correlated well (mean r = .46). Overall, warm, dry, and less photosynthetically productive growing seasons were more likely to be associated with a delayed EOS, while colder, wetter, and more photosynthetically productive vegetation periods resulted in an earlier EOS. In addition, contrary to recent results, no clear influence of pre‐solstice vegetation activity on the timing of senescence was detected. However, most notable were the large differences in sign and strength of potential drivers both in the univariate and multivariate analyses when comparing derivation methodologies. The results suggest that an ensemble analysis of all available phenological data sources and derivation methods is needed for general statements on autumn phenology and its influencing variables and correct implementation of the senescence process in ecosystem models.
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Leaf-level coordination principles propagate to the ecosystem scale
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2023Embargo end date: 04 Jul 2023 France, Italy, Germany, Denmark, United States, France, New Zealand, Spain, Denmark, Czech Republic, Czech Republic, Switzerland, New Zealand Publisher:Springer Science and Business Media LLCFunded by:SNSF | ICOS-CH: Integrated Carbo..., SNSF | Robust models for assessi..., NSF | BII-Implementation: The c... +4 projects
SNSF| ICOS-CH: Integrated Carbon Observation System in Switzerland ,
SNSF| Robust models for assessing the effectiveness of technologies and managements to reduce N2O emissions from grazed pastures (Models4Pastures) ,
NSF| BII-Implementation: The causes and consequences of plant biodiversity across scales in a rapidly changing world ,
SNSF| ICOS-CH Phase 3 ,
EC| USMILE ,
SNSF| ICOS-CH Phase 2 ,
EC| TERRAFORM
Authors: Ulisse Gomarasca; Mirco Migliavacca; Jens Kattge; Jacob A. Nelson; +40 Authors
Ulisse Gomarasca; Mirco Migliavacca; Jens Kattge; Jacob A. Nelson; Ülo Niinemets; Christian Wirth; Alessandro Cescatti; Michael Bahn; Richard Nair; Alicia T. R. Acosta; M. Altaf Arain; Mirela Beloiu; T. Andrew Black; Hans Henrik Bruun; Solveig Franziska Bucher; Nina Buchmann; Chaeho Byun; Arnaud Carrara; Adriano Conte; Ana C. da Silva; Gregory Duveiller; Silvano Fares; Andreas Ibrom; Alexander Knohl; Benjamin Komac; Jean-Marc Limousin; Christopher H. Lusk; Miguel D. Mahecha; David Martini; Vanessa Minden; Leonardo Montagnani; Akira S. Mori; Yusuke Onoda; Josep Peñuelas; Oscar Perez-Priego; Peter Poschlod; Thomas L. Powell; Peter B. Reich; Ladislav Šigut; Peter M. van Bodegom; Sophia Walther; Georg Wohlfahrt; Ian J. Wright; Markus Reichstein;
doi: 10.1038/s41467-023-39572-5 , 10.21203/rs.3.rs-2394473/v1 , 10.3929/ethz-b-000622235
pmid: 37402725
pmc: PMC10319885
handle: 20.500.14243/461553 , 21.11116/0000-000D-A674-5 , 21.11116/0000-000D-A675-4 , 21.11116/0000-000C-400C-F , 11590/446307 , 1959.7/uws:74439 , 10289/16163
doi: 10.1038/s41467-023-39572-5 , 10.21203/rs.3.rs-2394473/v1 , 10.3929/ethz-b-000622235
pmid: 37402725
pmc: PMC10319885
handle: 20.500.14243/461553 , 21.11116/0000-000D-A674-5 , 21.11116/0000-000D-A675-4 , 21.11116/0000-000C-400C-F , 11590/446307 , 1959.7/uws:74439 , 10289/16163
AbstractFundamental axes of variation in plant traits result from trade-offs between costs and benefits of resource-use strategies at the leaf scale. However, it is unclear whether similar trade-offs propagate to the ecosystem level. Here, we test whether trait correlation patterns predicted by three well-known leaf- and plant-level coordination theories – the leaf economics spectrum, the global spectrum of plant form and function, and the least-cost hypothesis – are also observed between community mean traits and ecosystem processes. We combined ecosystem functional properties from FLUXNET sites, vegetation properties, and community mean plant traits into three corresponding principal component analyses. We find that the leaf economics spectrum (90 sites), the global spectrum of plant form and function (89 sites), and the least-cost hypothesis (82 sites) all propagate at the ecosystem level. However, we also find evidence of additional scale-emergent properties. Evaluating the coordination of ecosystem functional properties may aid the development of more realistic global dynamic vegetation models with critical empirical data, reducing the uncertainty of climate change projections.
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License: http://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (http://creativecommons.org/licenses/by/4.0/) .
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Article . 2023
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Full-Text: https://iris.cnr.it/bitstream/20.500.14243/461553/2/Leaf-level%20coordination%20principles%20propagate%20to%20the%20ecosystem%20scale.pdf
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Other literature type . 2023
License: http://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (http://creativecommons.org/licenses/by/4.0/) .
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Old-growth forests as global carbon sinks
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2008 France, Netherlands, Germany, Belgium, Netherlands Publisher:Springer Science and Business Media LLC
Authors: Luyssaert, Sebastiaan; Schulze, Ernst Detlef; Börner, Annett; Knohl, Alexander; +4 Authors
Luyssaert, Sebastiaan; Schulze, Ernst Detlef; Börner, Annett; Knohl, Alexander; Hessenmöller, Dominik; Law, Beverly; Ciais, Philippe; Grace, John;
doi: 10.1038/nature07276
pmid: 18784722
handle: 1871.1/6c224929-34f1-4d3b-89b0-43204014c3a5 , 10067/707940151162165141
doi: 10.1038/nature07276
pmid: 18784722
handle: 1871.1/6c224929-34f1-4d3b-89b0-43204014c3a5 , 10067/707940151162165141
Old-growth forests remove carbon dioxide from the atmosphere at rates that vary with climate and nitrogen deposition. The sequestered carbon dioxide is stored in live woody tissues and slowly decomposing organic matter in litter and soil. Old-growth forests therefore serve as a global carbon dioxide sink, but they are not protected by international treaties, because it is generally thought that ageing forests cease to accumulate carbon. Here we report a search of literature and databases for forest carbon-flux estimates. We find that in forests between 15 and 800 years of age, net ecosystem productivity (the net carbon balance of the forest including soils) is usually positive. Our results demonstrate that old-growth forests can continue to accumulate carbon, contrary to the long-standing view that they are carbon neutral. Over 30 per cent of the global forest area is unmanaged primary forest, and this area contains the remaining old-growth forests. Half of the primary forests (6 x 10(8) hectares) are located in the boreal and temperate regions of the Northern Hemisphere. On the basis of our analysis, these forests alone sequester about 1.3 +/- 0.5 gigatonnes of carbon per year. Thus, our findings suggest that 15 per cent of the global forest area, which is currently not considered when offsetting increasing atmospheric carbon dioxide concentrations, provides at least 10 per cent of the global net ecosystem productivity. Old-growth forests accumulate carbon for centuries and contain large quantities of it. We expect, however, that much of this carbon, even soil carbon, will move back to the atmosphere if these forests are disturbed.
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Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQ
Article . 2008
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Selected breakpoints of net forest carbon uptake at four eddy-covariance sites
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2021 Finland, Germany, Germany Publisher:Stockholm University Press
Authors: Foken, Thomas; Babel, Wolfgang; Munger, J. William; Grönholm, Tiia; +2 Authors
Foken, Thomas; Babel, Wolfgang; Munger, J. William; Grönholm, Tiia; Vesala, Timo; Knohl, Alexander;
doi: 10.1080/16000889.2021.1915648
handle: 10138/330559
doi: 10.1080/16000889.2021.1915648
handle: 10138/330559
Extensive studies are available that analyse time series of carbon dioxide and water flux measurements of FLUXNET sites over many years and link these results to climate change such as changes in atmospheric carbon dioxide concentration, air temperature and growing season length and other factors. Many of the sites show trends to a larger carbon uptake. Here we analyse time series of net ecosystem exchange, gross primary production, respiration, and evapotranspiration of four forest sites with particularly long measurement periods of about 20 years. The regular trends shown are interrupted by periods with higher or lower increases of carbon uptake. These breakpoints can be of very different origin and include forest decline, increased vegetation period, drought effects, heat waves, and changes in site heterogeneity. The influence of such breakpoints should be included in long-term studies of land-atmosphere exchange processes.
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Article . 2021
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HELDA - Digital Repository of the University of Helsinki
Article . 2021 . Peer-reviewed
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Article . 2022
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Temporal variation in nitrous oxide (N2O) fluxes from an oil palm plantation in Indonesia: An ecosystem‐scale analysis
descriptionPublicationkeyboard_double_arrow_right Article 2023 Germany Publisher:WileyFunded by:DFG
DFG
Authors: Christian Stiegler; Franziska Koebsch; Ashehad Ashween Ali; Tania June; +5 Authors
Christian Stiegler; Franziska Koebsch; Ashehad Ashween Ali; Tania June; Edzo Veldkamp; Marife D. Corre; Joost Koks; Aiyen Tjoa; Alexander Knohl;
doi: 10.1111/gcbb.13088
doi: 10.1111/gcbb.13088
AbstractThe rapidly growing areal extent of oil palm (Elaeis guineensis Jacq.) plantations and their high fertilizer input raises concerns about their role as substantial N2O sources. In this study, we present the first eddy covariance (EC) measurements of ecosystem‐scale N2O fluxes in an oil palm plantation and combine them with vented soil chamber measurements of point‐scale soil N2O fluxes. Based on EC measurements during the period August 2017 to April 2019, the studied oil palm plantation in the tropical lowlands of Jambi Province (Sumatra, Indonesia) is a high source of N2O, with average emission of 0.32 ± 0.003 g N2O‐N m−2 year−1 (149.85 ± 1.40 g CO2‐equivalent m−2 year−1). Compared to the EC‐based N2O flux, average chamber‐based soil N2O fluxes (0.16 ± 0.047 g N2O‐N m−2 year−1, 74.93 ± 23.41 g CO2‐equivalent m−2 year−1) are significantly (~49%, p < 0.05) lower, suggesting that important N2O pathways are not covered by the chamber measurements. Conventional chamber‐based N2O emission estimates from oil palm up‐scaled to ecosystem level might therefore be substantially underestimated. We show that the dynamic gas exchange of the oil palm canopy with the atmosphere and the oil palms' response to meteorological and soil conditions may play an important but yet widely unexplored role in the N2O budget of oil palm plantations. Diel pattern of N2O fluxes showed strong causal relationships with photosynthesis‐related variables, i.e. latent heat flux, incoming photosynthetically active radiation and gross primary productivity during day time, and ecosystem respiration and soil temperature during night time. At longer time scales (>2 days), soil temperature and water‐filled pore space gained importance on N2O flux variation. These results suggest a plant‐mediated N2O transport, providing important input for modelling approaches and strategies to mitigate the negative impact of N2O emissions from oil palm cultivation through appropriate site selection and management.
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Carbon costs and benefits of Indonesian rainforest conversion to plantations
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2018 Germany, Switzerland Publisher:Springer Science and Business Media LLC
Authors: Thomas Guillaume; Thomas Guillaume; Thomas Guillaume; Dietrich Hertel; +6 Authors
Thomas Guillaume; Thomas Guillaume; Thomas Guillaume; Dietrich Hertel; Valentyna Krashevska; Martyna M. Kotowska; Yakov Kuzyakov; Stefan Scheu; Alexander Knohl; Kukuh Murtilaksono;
doi: 10.1038/s41467-018-04755-y
pmid: 29921837
pmc: PMC6008452
doi: 10.1038/s41467-018-04755-y
pmid: 29921837
pmc: PMC6008452
AbstractLand-use intensification in the tropics plays an important role in meeting global demand for agricultural commodities but generates high environmental costs. Here, we synthesize the impacts of rainforest conversion to tree plantations of increasing management intensity on carbon stocks and dynamics. Rainforests in Sumatra converted to jungle rubber, rubber, and oil palm monocultures lost 116 Mg C ha−1, 159 Mg C ha−1, and 174 Mg C ha−1, respectively. Up to 21% of these carbon losses originated from belowground pools, where soil organic matter still decreases a decade after conversion. Oil palm cultivation leads to the highest carbon losses but it is the most efficient land use, providing the lowest ratio between ecosystem carbon storage loss or net primary production (NPP) decrease and yield. The imbalanced sharing of NPP between short-term human needs and maintenance of long-term ecosystem functions could compromise the ability of plantations to provide ecosystem services regulating climate, soil fertility, water, and nutrient cycles.
Nature Communication...arrow_drop_down
Nature Communications
Article . 2018 . Peer-reviewed
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Publikationenserver der Georg-August-Universität Göttingen
Article . 2019
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Article . 2019
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Infoscience - École polytechnique fédérale de Lausanne
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Full-Text: https://infoscience.epfl.ch/record/258453/files/s41467-018-04755-y.pdf
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The pantropical response of soil moisture to El Niño
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2019 France, Germany, Brazil, Brazil, United States, France Publisher:Copernicus GmbHFunded by:DFG | Ecological and socioecono..., ANR | ARBRE, NSF | Collaborative Research: P...
DFG| Ecological and socioeconomic functions of tropical lowland rainforest transformation systems (Sumatra, Indonesia) ,
ANR| ARBRE ,
NSF| Collaborative Research: Planning And Land Management in Tropical Ecosystem; Complexities of land-use and hydrology coupling in the Panama Canal Watershed
Authors: K. C. Solander; B. D. Newman; A. Carioca de Araujo; H. R. Barnard; +25 Authors
K. C. Solander; B. D. Newman; A. Carioca de Araujo; H. R. Barnard; Z. C. Berry; D. Bonal; M. Bretfeld; M. Bretfeld; B. Burban; L. Antonio Candido; R. Célleri; J. Q. Chambers; B. O. Christoffersen; M. Detto; M. Detto; W. A. Dorigo; B. E. Ewers; S. José Filgueiras Ferreira; A. Knohl; L. R. Leung; N. G. McDowell; G. R. Miller; M. Terezinha Ferreira Monteiro; G. W. Moore; R. Negron-Juarez; S. R. Saleska; C. Stiegler; J. Tomasella; C. Xu;
doi: 10.5194/hess-24-2303-2020 , 10.5194/hess-2019-535 , 10.60692/848rb-1f708 , 10.60692/hfke3-bz939
doi: 10.5194/hess-24-2303-2020 , 10.5194/hess-2019-535 , 10.60692/848rb-1f708 , 10.60692/hfke3-bz939
Abstract. The 2015–2016 El Niño event ranks as one of the most severe on record in terms of the magnitude and extent of sea surface temperature (SST) anomalies generated in the tropical Pacific Ocean. Corresponding global impacts on the climate were expected to rival, or even surpass, those of the 1997–1998 severe El Niño event, which had SST anomalies that were similar in size. However, the 2015–2016 event failed to meet expectations for hydrologic change in many areas, including those expected to receive well above normal precipitation. To better understand how climate anomalies during an El Niño event impact soil moisture, we investigate changes in soil moisture in the humid tropics (between ±25∘) during the three most recent super El Niño events of 1982–1983, 1997–1998 and 2015–2016, using data from the Global Land Data Assimilation System (GLDAS). First, we use in situ soil moisture observations obtained from 16 sites across five continents to validate and bias-correct estimates from GLDAS (r2=0.54). Next, we apply a k-means cluster analysis to the soil moisture estimates during the El Niño mature phase, resulting in four groups of clustered data. The strongest and most consistent decreases in soil moisture occur in the Amazon basin and maritime southeastern Asia, while the most consistent increases occur over eastern Africa. In addition, we compare changes in soil moisture to both precipitation and evapotranspiration, which showed a lack of agreement in the direction of change between these variables and soil moisture most prominently in the southern Amazon basin, the Sahel and mainland southeastern Asia. Our results can be used to improve estimates of spatiotemporal differences in El Niño impacts on soil moisture in tropical hydrology and ecosystem models at multiple scales.
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Article . 2020
Full-Text: https://hal.inrae.fr/hal-03006193/document
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Article . 2020
Full-Text: https://hal.inrae.fr/hal-03006193
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Article . 2020
Full-Text: https://escholarship.org/uc/item/4k94820k
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Hydrology and Earth System Sciences (HESS)
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Impacts of droughts and extreme temperature events on gross primary production and ecosystem respiration: a systematic assessment across ecosystems and climate zones
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Research , Journal 2017Embargo end date: 01 Jan 2018 France, Norway, Italy, Germany, Switzerland, Ireland, Germany, France Publisher:Copernicus GmbHPublicly fundedFunded by:NSERC, EC | BACI, EC | ICOS
NSERC ,
EC| BACI ,
EC| ICOS
Authors: J. von Buttlar; J. von Buttlar; J. Zscheischler; J. Zscheischler; +34 Authors
J. von Buttlar; J. von Buttlar; J. Zscheischler; J. Zscheischler; A. Rammig; S. Sippel; S. Sippel; M. Reichstein; M. Reichstein; A. Knohl; M. Jung; O. Menzer; M. A. Arain; N. Buchmann; A. Cescatti; D. Gianelle; G. Kiely; B. E. Law; V. Magliulo; H. Margolis; H. McCaughey; L. Merbold; L. Merbold; M. Migliavacca; L. Montagnani; W. Oechel; W. Oechel; M. Pavelka; M. Peichl; S. Rambal; A. Raschi; R. L. Scott; F. P. Vaccari; E. van Gorsel; A. Varlagin; G. Wohlfahrt; M. D. Mahecha; M. D. Mahecha;
doi: 10.5194/bg-2017-393 , 10.5194/bg-15-1293-2018 , 10.3929/ethz-b-000224136 , 10.60692/wcgpv-npt56 , 10.3929/ethz-b-000319384 , 10.60692/8sbqk-pem96
handle: 11250/2501755 , 20.500.14243/333784 , 10468/6321 , 10449/46682 , 10568/92063
doi: 10.5194/bg-2017-393 , 10.5194/bg-15-1293-2018 , 10.3929/ethz-b-000224136 , 10.60692/wcgpv-npt56 , 10.3929/ethz-b-000319384 , 10.60692/8sbqk-pem96
handle: 11250/2501755 , 20.500.14243/333784 , 10468/6321 , 10449/46682 , 10568/92063
Abstract. Extreme climatic events, such as droughts and heat stress induce anomalies in ecosystem-atmosphere CO2 fluxes, such as gross primary production (GPP) and ecosystem respiration (Reco), and, hence, can change the net ecosystem carbon balance. However, despite our increasing understanding of the underlying mechanisms, the magnitudes of the impacts of different types of extremes on GPP and Reco within and between ecosystems remain poorly predicted. Here we aim to identify the major factors controlling the amplitude of extreme event impacts on GPP, Reco, and the resulting net ecosystem production (NEP). We focus on the impacts of heat and drought and their combination. We identified hydrometeorological extreme events in consistently downscaled water availability and temperature measurements over a 30 year time period. We then used FLUXNET eddy-covariance flux measurements to estimate the CO2 flux anomalies during these extreme events across dominant vegetation types and climate zones. Overall, our results indicate that short-term heat extremes increased respiration more strongly than they down-regulated GPP, resulting in a moderate reduction of the ecosystem’s carbon sink potential. In the absence of heat stress, droughts tended to have smaller and similarly dampening effects on both GPP and Reco, and, hence, often resulted in neutral NEP responses. The combination of drought and heat typically led to a strong decrease in GPP, whereas heat and drought impacts on respiration partially offset each other. Taken together, compound heat and drought events led to the strongest C sink reduction compared to any single-factor extreme. A key insight of this paper, however, is that duration matters most: for heat stress during droughts, the magnitude of impacts systematically increased with duration, whereas under heat stress without drought, the response of Reco over time turned from an initial increase to a down-regulation after about two weeks. This confirms earlier theories that not only the magnitude but also the duration of an extreme event determines its impact. Our study corroborates the results of several local site-level case studies, but as a novelty generalizes these findings at the global scale. Specifically, we find that the different response functions of the two antipodal land-atmosphere fluxes GPP and Reco can also result in increasing NEP during certain extreme conditions. Apparently counterintuitive findings of this kind bear great potential for scrutinizing the mechanisms implemented in state-of-the-art terrestrial biosphere models and provide a benchmark for future model development and testing.
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The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal , Data Paper 2020Embargo end date: 09 Jul 2020 Germany, Italy, Denmark, Italy, Italy, Australia, Germany, Germany, Belgium, Australia, Italy, Netherlands, Belgium, Italy, Australia, Italy, Russian Federation, Germany, Czech Republic, Germany, Italy, Australia, Netherlands, Australia, Switzerland, Italy, Australia, Germany, Netherlands, Norway, Germany, Australia, Australia, Italy, Finland, Sweden, Czech Republic, France, Spain, Denmark, Netherlands, Finland, United States Publisher:Springer Science and Business Media LLCPublicly fundedFunded by:UKRI | RootDetect: Remote Detect...
UKRI| RootDetect: Remote Detection and Precision Management of Root Health
Authors: Andreas Ibrom; Bruno De Cinti; Jean Marc Ourcival; Vincenzo Magliulo; +196 Authors
Andreas Ibrom; Bruno De Cinti; Jean Marc Ourcival; Vincenzo Magliulo; Onil Bergeron; M. Altaf Arain; Andrew Feitz; Zulia Mayari Sanchez-Mejia; Christof Ammann; Yann Nouvellon; Siyan Ma; Brian D. Amiro; Kim Pilegaard; Eddy Moors; Michele Tomassucci; Asko Noormets; Shawn Urbanski; Damiano Gianelle; Anatoly A. Gitelson; E. Canfora; You Wei Cheah; Ko van Huissteden; Shicheng Jiang; Hans Peter Schmid; Albin Hammerle; Brent E. Ewers; Virginie Moreaux; Housen Chu; Anne Griebel; Timothy J. Arkebauer; Peter Cale; Barbara Marcolla; Alan G. Barr; Alan G. Barr; Scott D. Miller; Lutz Merbold; Ivan Schroder; Joseph Verfaillie; Stefan K. Arndt; Scott R. Saleska; Nicolas Delpierre; Catharine van Ingen; Christine Moureaux; Annalea Lohila; Annalea Lohila; Gabriela Posse; Bernard Heinesch; Pierpaolo Duce; Raimundo Cosme de Oliveira; Kenneth J. Davis; Markus Hehn; Torben R. Christensen; Tilden P. Meyers; Werner L. Kutsch; Lindsay B. Hutley; Üllar Rannik; W.W.P. Jans; Riccardo Valentini; Myroslava Khomik; Myroslava Khomik; Pierre Cellier; Ayumi Kotani; Xiaoqin Dai; Marta Galvagno; Frans-Jan W. Parmentier; Frans-Jan W. Parmentier; Eric Dufrêne; Marius Schmidt; Birger Ulf Hansen; Alessio Collalti; Alessio Collalti; Ivan Shironya; Christian Brümmer; Russell L. Scott; Serge Rambal; Jonas Ardö; Natalia Restrepo-Coupe; Donatella Zona; Elizabeth A. Walter-Shea; Russell K. Monson; Silvano Fares; Sean P. Burns; Sean P. Burns; Mauro Cavagna; Guoyi Zhou; Suzanne M. Prober; Juha Pekka Tuovinen; Georgia R. Koerber; Yuelin Li; Alexander Knohl; Mikhail Mastepanov; Mikhail Mastepanov; Yanhong Tang; Johan Neirynck; Matthew Northwood; Pauline Buysse; Thomas Grünwald; Sabina Dore; N. Pirk; N. Pirk; Hiroki Ikawa; Craig Macfarlane; Jean-Marc Limousin; Carlos Marcelo Di Bella; Leiming Zhang; Juha Hatakka; Margaret S. Torn; Mika Aurela; Bert Gielen; Jiquan Chen; Regine Maier; Karl Schneider; Christian Wille; Nina Buchmann; Daniel Berveiller; Peter D. Blanken; Wayne S. Meyer; Dennis D. Baldocchi; Benjamin Loubet; Giovanni Manca; Hatim Abdalla M. ElKhidir; James Cleverly; Harry McCaughey; Agnès de Grandcourt; Matthias Peichl; Adam J. Liska; Jonathan E. Thom; Christian Bernhofer; Jean Marc Bonnefond; Alexander Graf; Roser Matamala; M. Goeckede; Marian Pavelka; Hank A. Margolis; Eugénie Paul-Limoges; Andrew S. Kowalski; Taro Nakai; Taro Nakai; Marcelo D. Nosetto; Tomomichi Kato; Ray Leuning; Beniamino Gioli; Marc Aubinet; Tuomas Laurila; Andrej Varlagin; Ignacio Goded; David R. Bowling; Nigel J. Tapper; Ana López-Ballesteros; Denis Loustau; Iris Feigenwinter; Uta Moderow; Edoardo Cremonese; Gianluca Filippa; Domenico Vitale; Abdelrahman Elbashandy; Gilberto Pastorello; Ettore D'Andrea; Gil Bohrer; Thomas L. Powell; Serena Marras; Daniela Famulari; Christopher M. Gough; Enrique P. Sánchez-Cañete; Satoru Takanashi; Michael J. Liddell; Jason Brodeur; Marc Fischer; Zoran Nesic; William J. Massman; Janina Klatt; Samuli Launiainen; Anne De Ligne; Leonardo Montagnani; Sebastian Wolf; Rainer Steinbrecher; Yingnian Li; Donatella Spano; A. Ribeca; Rosvel Bracho; Walter C. Oechel; B.R. Reverter; Jiří Dušek; Sebastian Westermann; Rachhpal S. Jassal; Derek Eamus; Claudia Consalvo; Claudia Consalvo; Marty Humphrey; Timo Vesala; Cristina Poindexter; Jeffrey P. Walker; Humberto Ribeiro da Rocha; Paul V. Bolstad; Elise Pendall; Diego Polidori; Peter S. Curtis; Chad Hanson; Francisco Domingo; Jason Beringer;
doi: 10.1038/s41597-020-0534-3 , 10.5445/ir/1000123863 , 10.3929/ethz-b-000426936
pmid: 32647314
pmc: PMC7347557
handle: 1871.1/2be3a3d2-3c8e-439d-925d-23e9fda6feb3 , 10852/81470 , 20.500.14243/407554 , 11388/307148 , 2078.1/231960 , 10138/325020 , 10481/64201 , 10067/1712560151162165141 , 10449/64207 , 11573/1665169 , 1959.7/uws:57306 , 10568/108878 , 11343/244534 , 2440/129213 , 2067/45442
doi: 10.1038/s41597-020-0534-3 , 10.5445/ir/1000123863 , 10.3929/ethz-b-000426936
pmid: 32647314
pmc: PMC7347557
handle: 1871.1/2be3a3d2-3c8e-439d-925d-23e9fda6feb3 , 10852/81470 , 20.500.14243/407554 , 11388/307148 , 2078.1/231960 , 10138/325020 , 10481/64201 , 10067/1712560151162165141 , 10449/64207 , 11573/1665169 , 1959.7/uws:57306 , 10568/108878 , 11343/244534 , 2440/129213 , 2067/45442
AbstractThe FLUXNET2015 dataset provides ecosystem-scale data on CO2, water, and energy exchange between the biosphere and the atmosphere, and other meteorological and biological measurements, from 212 sites around the globe (over 1500 site-years, up to and including year 2014). These sites, independently managed and operated, voluntarily contributed their data to create global datasets. Data were quality controlled and processed using uniform methods, to improve consistency and intercomparability across sites. The dataset is already being used in a number of applications, including ecophysiology studies, remote sensing studies, and development of ecosystem and Earth system models. FLUXNET2015 includes derived-data products, such as gap-filled time series, ecosystem respiration and photosynthetic uptake estimates, estimation of uncertainties, and metadata about the measurements, presented for the first time in this paper. In addition, 206 of these sites are for the first time distributed under a Creative Commons (CC-BY 4.0) license. This paper details this enhanced dataset and the processing methods, now made available as open-source codes, making the dataset more accessible, transparent, and reproducible.
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Article . 2020
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Scientific Data
Article . 2020
Full-Text: https://www.nature.com/articles/s41597-020-0534-3.pdf
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Article . 2020
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Article . 2020
License: CC BY
Full-Text: https://openpub.fmach.it/bitstream/10449/64207/1/Pastorello_etal2020_Scientific-Data_FLUXNET2015-dataset-and-the-ONEFlux-processing-pipeline-for-eddy-covaria%5b29316%5d.pdf
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Archivio della ricerca- Università di Roma La Sapienza
Article . 2020
License: CC BY
Full-Text: https://iris.uniroma1.it/bitstream/11573/1665169/1/Vitale_FLUXNET2015_2020.pdf
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Article . 2020
License: CC BY
Full-Text: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5002567
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Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQ
Article . 2020
Full-Text: https://doi.org/10.6084/m9.figshare.12295910
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Article . 2020
License: CC BY
Full-Text: https://hdl.handle.net/10568/108878
Data sources: Bielefeld Academic Search Engine (BASE)
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Article . 2020
Full-Text: https://hal.science/hal-03778635
Data sources: Bielefeld Academic Search Engine (BASE)
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Article . 2020
License: CC BY
Full-Text: http://hdl.handle.net/10852/81470
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Article . 2020
License: CC BY
Full-Text: https://publikationen.bibliothek.kit.edu/1000123863
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Atmospheric deposition, CO2, and change in the land carbon sink
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2017 Italy, Finland, Italy, Italy, Austria, Italy, Netherlands, Netherlands, Netherlands, Italy, Germany, Denmark, Netherlands, France, Italy, Italy, Belgium, Germany, United States Publisher:Springer Science and Business Media LLCFunded by:EC | IMBALANCE-P
EC| IMBALANCE-P
Authors: Jean-Marc Limousin; Ivan Mammarella; S. L. Piao; S. L. Piao; +29 Authors
Jean-Marc Limousin; Ivan Mammarella; S. L. Piao; S. L. Piao; Alexander Knohl; Russell K. Monson; Dario Papale; Michael Obersteiner; Aleixandre Verger; Josep Peñuelas; J. W. Munger; Damiano Gianelle; Bernard Heinesch; Leonardo Montagnani; Peter S. Curtis; Christian Bernhofer; Beverly E. Law; Eddy Moors; Mireia Bartrons; Jordi Sardans; Marcos Fernández-Martínez; Denis Loustau; Thomas Grünwald; Sara Vicca; Terhi K. Laurila; Ivan A. Janssens; Philippe Ciais; Xizhang Wang; Josep G. Canadell; Bernard Longdoz; Giorgio Matteucci; Frédéric Chevallier; Andreas Ibrom;
doi: 10.1038/s41598-017-08755-8 , 10.60692/ezmrb-ya974 , 10.60692/e1cff-a4r64
pmid: 28851977
pmc: PMC5574890
handle: 1871.1/b0ab2b9d-8fdc-47f1-8ade-fdb7d9074e96 , 20.500.14243/416898 , 10138/224185 , 10067/1456960151162165141 , 10449/43598 , 2607/4525 , 2607/30543
doi: 10.1038/s41598-017-08755-8 , 10.60692/ezmrb-ya974 , 10.60692/e1cff-a4r64
pmid: 28851977
pmc: PMC5574890
handle: 1871.1/b0ab2b9d-8fdc-47f1-8ade-fdb7d9074e96 , 20.500.14243/416898 , 10138/224185 , 10067/1456960151162165141 , 10449/43598 , 2607/4525 , 2607/30543
AbstractConcentrations of atmospheric carbon dioxide (CO2) have continued to increase whereas atmospheric deposition of sulphur and nitrogen has declined in Europe and the USA during recent decades. Using time series of flux observations from 23 forests distributed throughout Europe and the USA, and generalised mixed models, we found that forest-level net ecosystem production and gross primary production have increased by 1% annually from 1995 to 2011. Statistical models indicated that increasing atmospheric CO2 was the most important factor driving the increasing strength of carbon sinks in these forests. We also found that the reduction of sulphur deposition in Europe and the USA lead to higher recovery in ecosystem respiration than in gross primary production, thus limiting the increase of carbon sequestration. By contrast, trends in climate and nitrogen deposition did not significantly contribute to changing carbon fluxes during the studied period. Our findings support the hypothesis of a general CO2-fertilization effect on vegetation growth and suggest that, so far unknown, sulphur deposition plays a significant role in the carbon balance of forests in industrialized regions. Our results show the need to include the effects of changing atmospheric composition, beyond CO2, to assess future dynamics of carbon-climate feedbacks not currently considered in earth system/climate modelling.
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Decoding autumn phenology: Unraveling the link between observation methods and detected environmental cues
descriptionPublicationkeyboard_double_arrow_right Article 2024 Germany Publisher:WileyFunded by:DFG
DFG
Authors: Simon Kloos; Anne Klosterhalfen; Alexander Knohl; Annette Menzel;
doi: 10.1111/gcb.17231
pmid: 38481067
doi: 10.1111/gcb.17231
pmid: 38481067
AbstractLeaf coloring and fall mark the end of the growing season (EOS), playing essential roles in nutrient cycling, resource allocation, ecological interactions, and as climate change indicators. However, understanding future changes in autumn phenology is challenging due to the multitude of likely environmental cues and substantial variations in timing caused by different derivation methods. Yet, it remains unclear whether these two factors are independent or if methodological uncertainties influence the environmental cues determined. We derived start of growing season (SOS) and EOS at a mixed beech forest in Central Germany for the period 2000–2020 based on four different derivation methods using a unique long‐term data set of in‐situ data, canopy imagery, eddy covariance measurements, and satellite remote sensing data and determined their influence on a predictor analysis of leaf senescence. Both SOS and EOS exhibited substantial ranges in mean onset dates (39.5 and 28.6 days, respectively) across the different methods, although inter‐annual variations and advancing SOS trends were similar across methods. Depending on the data, EOS trends were advanced or delayed, but inter‐annual patterns correlated well (mean r = .46). Overall, warm, dry, and less photosynthetically productive growing seasons were more likely to be associated with a delayed EOS, while colder, wetter, and more photosynthetically productive vegetation periods resulted in an earlier EOS. In addition, contrary to recent results, no clear influence of pre‐solstice vegetation activity on the timing of senescence was detected. However, most notable were the large differences in sign and strength of potential drivers both in the univariate and multivariate analyses when comparing derivation methodologies. The results suggest that an ensemble analysis of all available phenological data sources and derivation methods is needed for general statements on autumn phenology and its influencing variables and correct implementation of the senescence process in ecosystem models.
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Leaf-level coordination principles propagate to the ecosystem scale
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2023Embargo end date: 04 Jul 2023 France, Italy, Germany, Denmark, United States, France, New Zealand, Spain, Denmark, Czech Republic, Czech Republic, Switzerland, New Zealand Publisher:Springer Science and Business Media LLCFunded by:SNSF | ICOS-CH: Integrated Carbo..., SNSF | Robust models for assessi..., NSF | BII-Implementation: The c... +4 projects
SNSF| ICOS-CH: Integrated Carbon Observation System in Switzerland ,
SNSF| Robust models for assessing the effectiveness of technologies and managements to reduce N2O emissions from grazed pastures (Models4Pastures) ,
NSF| BII-Implementation: The causes and consequences of plant biodiversity across scales in a rapidly changing world ,
SNSF| ICOS-CH Phase 3 ,
EC| USMILE ,
SNSF| ICOS-CH Phase 2 ,
EC| TERRAFORM
Authors: Ulisse Gomarasca; Mirco Migliavacca; Jens Kattge; Jacob A. Nelson; +40 Authors
Ulisse Gomarasca; Mirco Migliavacca; Jens Kattge; Jacob A. Nelson; Ülo Niinemets; Christian Wirth; Alessandro Cescatti; Michael Bahn; Richard Nair; Alicia T. R. Acosta; M. Altaf Arain; Mirela Beloiu; T. Andrew Black; Hans Henrik Bruun; Solveig Franziska Bucher; Nina Buchmann; Chaeho Byun; Arnaud Carrara; Adriano Conte; Ana C. da Silva; Gregory Duveiller; Silvano Fares; Andreas Ibrom; Alexander Knohl; Benjamin Komac; Jean-Marc Limousin; Christopher H. Lusk; Miguel D. Mahecha; David Martini; Vanessa Minden; Leonardo Montagnani; Akira S. Mori; Yusuke Onoda; Josep Peñuelas; Oscar Perez-Priego; Peter Poschlod; Thomas L. Powell; Peter B. Reich; Ladislav Šigut; Peter M. van Bodegom; Sophia Walther; Georg Wohlfahrt; Ian J. Wright; Markus Reichstein;
doi: 10.1038/s41467-023-39572-5 , 10.21203/rs.3.rs-2394473/v1 , 10.3929/ethz-b-000622235
pmid: 37402725
pmc: PMC10319885
handle: 20.500.14243/461553 , 21.11116/0000-000D-A674-5 , 21.11116/0000-000D-A675-4 , 21.11116/0000-000C-400C-F , 11590/446307 , 1959.7/uws:74439 , 10289/16163
doi: 10.1038/s41467-023-39572-5 , 10.21203/rs.3.rs-2394473/v1 , 10.3929/ethz-b-000622235
pmid: 37402725
pmc: PMC10319885
handle: 20.500.14243/461553 , 21.11116/0000-000D-A674-5 , 21.11116/0000-000D-A675-4 , 21.11116/0000-000C-400C-F , 11590/446307 , 1959.7/uws:74439 , 10289/16163
AbstractFundamental axes of variation in plant traits result from trade-offs between costs and benefits of resource-use strategies at the leaf scale. However, it is unclear whether similar trade-offs propagate to the ecosystem level. Here, we test whether trait correlation patterns predicted by three well-known leaf- and plant-level coordination theories – the leaf economics spectrum, the global spectrum of plant form and function, and the least-cost hypothesis – are also observed between community mean traits and ecosystem processes. We combined ecosystem functional properties from FLUXNET sites, vegetation properties, and community mean plant traits into three corresponding principal component analyses. We find that the leaf economics spectrum (90 sites), the global spectrum of plant form and function (89 sites), and the least-cost hypothesis (82 sites) all propagate at the ecosystem level. However, we also find evidence of additional scale-emergent properties. Evaluating the coordination of ecosystem functional properties may aid the development of more realistic global dynamic vegetation models with critical empirical data, reducing the uncertainty of climate change projections.
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License: http://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (http://creativecommons.org/licenses/by/4.0/) .
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License: http://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (http://creativecommons.org/licenses/by/4.0/) .
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Old-growth forests as global carbon sinks
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2008 France, Netherlands, Germany, Belgium, Netherlands Publisher:Springer Science and Business Media LLC
Authors: Luyssaert, Sebastiaan; Schulze, Ernst Detlef; Börner, Annett; Knohl, Alexander; +4 Authors
Luyssaert, Sebastiaan; Schulze, Ernst Detlef; Börner, Annett; Knohl, Alexander; Hessenmöller, Dominik; Law, Beverly; Ciais, Philippe; Grace, John;
doi: 10.1038/nature07276
pmid: 18784722
handle: 1871.1/6c224929-34f1-4d3b-89b0-43204014c3a5 , 10067/707940151162165141
doi: 10.1038/nature07276
pmid: 18784722
handle: 1871.1/6c224929-34f1-4d3b-89b0-43204014c3a5 , 10067/707940151162165141
Old-growth forests remove carbon dioxide from the atmosphere at rates that vary with climate and nitrogen deposition. The sequestered carbon dioxide is stored in live woody tissues and slowly decomposing organic matter in litter and soil. Old-growth forests therefore serve as a global carbon dioxide sink, but they are not protected by international treaties, because it is generally thought that ageing forests cease to accumulate carbon. Here we report a search of literature and databases for forest carbon-flux estimates. We find that in forests between 15 and 800 years of age, net ecosystem productivity (the net carbon balance of the forest including soils) is usually positive. Our results demonstrate that old-growth forests can continue to accumulate carbon, contrary to the long-standing view that they are carbon neutral. Over 30 per cent of the global forest area is unmanaged primary forest, and this area contains the remaining old-growth forests. Half of the primary forests (6 x 10(8) hectares) are located in the boreal and temperate regions of the Northern Hemisphere. On the basis of our analysis, these forests alone sequester about 1.3 +/- 0.5 gigatonnes of carbon per year. Thus, our findings suggest that 15 per cent of the global forest area, which is currently not considered when offsetting increasing atmospheric carbon dioxide concentrations, provides at least 10 per cent of the global net ecosystem productivity. Old-growth forests accumulate carbon for centuries and contain large quantities of it. We expect, however, that much of this carbon, even soil carbon, will move back to the atmosphere if these forests are disturbed.
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Selected breakpoints of net forest carbon uptake at four eddy-covariance sites
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2021 Finland, Germany, Germany Publisher:Stockholm University Press
Authors: Foken, Thomas; Babel, Wolfgang; Munger, J. William; Grönholm, Tiia; +2 Authors
Foken, Thomas; Babel, Wolfgang; Munger, J. William; Grönholm, Tiia; Vesala, Timo; Knohl, Alexander;
doi: 10.1080/16000889.2021.1915648
handle: 10138/330559
doi: 10.1080/16000889.2021.1915648
handle: 10138/330559
Extensive studies are available that analyse time series of carbon dioxide and water flux measurements of FLUXNET sites over many years and link these results to climate change such as changes in atmospheric carbon dioxide concentration, air temperature and growing season length and other factors. Many of the sites show trends to a larger carbon uptake. Here we analyse time series of net ecosystem exchange, gross primary production, respiration, and evapotranspiration of four forest sites with particularly long measurement periods of about 20 years. The regular trends shown are interrupted by periods with higher or lower increases of carbon uptake. These breakpoints can be of very different origin and include forest decline, increased vegetation period, drought effects, heat waves, and changes in site heterogeneity. The influence of such breakpoints should be included in long-term studies of land-atmosphere exchange processes.
Tellus: Series B, Ch...arrow_drop_down
Tellus: Series B, Chemical and Physical Meteorology
Article . 2021 . Peer-reviewed
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Article . 2021
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HELDA - Digital Repository of the University of Helsinki
Article . 2021 . Peer-reviewed
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Publikationenserver der Georg-August-Universität Göttingen
Article . 2022
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Article . 2022
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Article . 2021 . Peer-reviewed
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Article . 2021
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HELDA - Digital Repository of the University of Helsinki
Article . 2021 . Peer-reviewed
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Publikationenserver der Georg-August-Universität Göttingen
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Article . 2022
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Temporal variation in nitrous oxide (N2O) fluxes from an oil palm plantation in Indonesia: An ecosystem‐scale analysis
descriptionPublicationkeyboard_double_arrow_right Article 2023 Germany Publisher:WileyFunded by:DFG
DFG
Authors: Christian Stiegler; Franziska Koebsch; Ashehad Ashween Ali; Tania June; +5 Authors
Christian Stiegler; Franziska Koebsch; Ashehad Ashween Ali; Tania June; Edzo Veldkamp; Marife D. Corre; Joost Koks; Aiyen Tjoa; Alexander Knohl;
doi: 10.1111/gcbb.13088
doi: 10.1111/gcbb.13088
AbstractThe rapidly growing areal extent of oil palm (Elaeis guineensis Jacq.) plantations and their high fertilizer input raises concerns about their role as substantial N2O sources. In this study, we present the first eddy covariance (EC) measurements of ecosystem‐scale N2O fluxes in an oil palm plantation and combine them with vented soil chamber measurements of point‐scale soil N2O fluxes. Based on EC measurements during the period August 2017 to April 2019, the studied oil palm plantation in the tropical lowlands of Jambi Province (Sumatra, Indonesia) is a high source of N2O, with average emission of 0.32 ± 0.003 g N2O‐N m−2 year−1 (149.85 ± 1.40 g CO2‐equivalent m−2 year−1). Compared to the EC‐based N2O flux, average chamber‐based soil N2O fluxes (0.16 ± 0.047 g N2O‐N m−2 year−1, 74.93 ± 23.41 g CO2‐equivalent m−2 year−1) are significantly (~49%, p < 0.05) lower, suggesting that important N2O pathways are not covered by the chamber measurements. Conventional chamber‐based N2O emission estimates from oil palm up‐scaled to ecosystem level might therefore be substantially underestimated. We show that the dynamic gas exchange of the oil palm canopy with the atmosphere and the oil palms' response to meteorological and soil conditions may play an important but yet widely unexplored role in the N2O budget of oil palm plantations. Diel pattern of N2O fluxes showed strong causal relationships with photosynthesis‐related variables, i.e. latent heat flux, incoming photosynthetically active radiation and gross primary productivity during day time, and ecosystem respiration and soil temperature during night time. At longer time scales (>2 days), soil temperature and water‐filled pore space gained importance on N2O flux variation. These results suggest a plant‐mediated N2O transport, providing important input for modelling approaches and strategies to mitigate the negative impact of N2O emissions from oil palm cultivation through appropriate site selection and management.
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Article . 2023 . Peer-reviewed
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Article . 2023
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Carbon costs and benefits of Indonesian rainforest conversion to plantations
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2018 Germany, Switzerland Publisher:Springer Science and Business Media LLC
Authors: Thomas Guillaume; Thomas Guillaume; Thomas Guillaume; Dietrich Hertel; +6 Authors
Thomas Guillaume; Thomas Guillaume; Thomas Guillaume; Dietrich Hertel; Valentyna Krashevska; Martyna M. Kotowska; Yakov Kuzyakov; Stefan Scheu; Alexander Knohl; Kukuh Murtilaksono;
doi: 10.1038/s41467-018-04755-y
pmid: 29921837
pmc: PMC6008452
doi: 10.1038/s41467-018-04755-y
pmid: 29921837
pmc: PMC6008452
AbstractLand-use intensification in the tropics plays an important role in meeting global demand for agricultural commodities but generates high environmental costs. Here, we synthesize the impacts of rainforest conversion to tree plantations of increasing management intensity on carbon stocks and dynamics. Rainforests in Sumatra converted to jungle rubber, rubber, and oil palm monocultures lost 116 Mg C ha−1, 159 Mg C ha−1, and 174 Mg C ha−1, respectively. Up to 21% of these carbon losses originated from belowground pools, where soil organic matter still decreases a decade after conversion. Oil palm cultivation leads to the highest carbon losses but it is the most efficient land use, providing the lowest ratio between ecosystem carbon storage loss or net primary production (NPP) decrease and yield. The imbalanced sharing of NPP between short-term human needs and maintenance of long-term ecosystem functions could compromise the ability of plantations to provide ecosystem services regulating climate, soil fertility, water, and nutrient cycles.
Nature Communication...arrow_drop_down
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Infoscience - École polytechnique fédérale de Lausanne
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The pantropical response of soil moisture to El Niño
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2019 France, Germany, Brazil, Brazil, United States, France Publisher:Copernicus GmbHFunded by:DFG | Ecological and socioecono..., ANR | ARBRE, NSF | Collaborative Research: P...
DFG| Ecological and socioeconomic functions of tropical lowland rainforest transformation systems (Sumatra, Indonesia) ,
ANR| ARBRE ,
NSF| Collaborative Research: Planning And Land Management in Tropical Ecosystem; Complexities of land-use and hydrology coupling in the Panama Canal Watershed
Authors: K. C. Solander; B. D. Newman; A. Carioca de Araujo; H. R. Barnard; +25 Authors
K. C. Solander; B. D. Newman; A. Carioca de Araujo; H. R. Barnard; Z. C. Berry; D. Bonal; M. Bretfeld; M. Bretfeld; B. Burban; L. Antonio Candido; R. Célleri; J. Q. Chambers; B. O. Christoffersen; M. Detto; M. Detto; W. A. Dorigo; B. E. Ewers; S. José Filgueiras Ferreira; A. Knohl; L. R. Leung; N. G. McDowell; G. R. Miller; M. Terezinha Ferreira Monteiro; G. W. Moore; R. Negron-Juarez; S. R. Saleska; C. Stiegler; J. Tomasella; C. Xu;
doi: 10.5194/hess-24-2303-2020 , 10.5194/hess-2019-535 , 10.60692/848rb-1f708 , 10.60692/hfke3-bz939
doi: 10.5194/hess-24-2303-2020 , 10.5194/hess-2019-535 , 10.60692/848rb-1f708 , 10.60692/hfke3-bz939
Abstract. The 2015–2016 El Niño event ranks as one of the most severe on record in terms of the magnitude and extent of sea surface temperature (SST) anomalies generated in the tropical Pacific Ocean. Corresponding global impacts on the climate were expected to rival, or even surpass, those of the 1997–1998 severe El Niño event, which had SST anomalies that were similar in size. However, the 2015–2016 event failed to meet expectations for hydrologic change in many areas, including those expected to receive well above normal precipitation. To better understand how climate anomalies during an El Niño event impact soil moisture, we investigate changes in soil moisture in the humid tropics (between ±25∘) during the three most recent super El Niño events of 1982–1983, 1997–1998 and 2015–2016, using data from the Global Land Data Assimilation System (GLDAS). First, we use in situ soil moisture observations obtained from 16 sites across five continents to validate and bias-correct estimates from GLDAS (r2=0.54). Next, we apply a k-means cluster analysis to the soil moisture estimates during the El Niño mature phase, resulting in four groups of clustered data. The strongest and most consistent decreases in soil moisture occur in the Amazon basin and maritime southeastern Asia, while the most consistent increases occur over eastern Africa. In addition, we compare changes in soil moisture to both precipitation and evapotranspiration, which showed a lack of agreement in the direction of change between these variables and soil moisture most prominently in the southern Amazon basin, the Sahel and mainland southeastern Asia. Our results can be used to improve estimates of spatiotemporal differences in El Niño impacts on soil moisture in tropical hydrology and ecosystem models at multiple scales.
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Article . 2020
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Article . 2020
Full-Text: https://hal.inrae.fr/hal-03006193/document
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Article . 2020
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Hydrology and Earth System Sciences (HESS)
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Mémoires en Sciences de l'Information et de la Communication
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Impacts of droughts and extreme temperature events on gross primary production and ecosystem respiration: a systematic assessment across ecosystems and climate zones
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Research , Journal 2017Embargo end date: 01 Jan 2018 France, Norway, Italy, Germany, Switzerland, Ireland, Germany, France Publisher:Copernicus GmbHPublicly fundedFunded by:NSERC, EC | BACI, EC | ICOS
NSERC ,
EC| BACI ,
EC| ICOS
Authors: J. von Buttlar; J. von Buttlar; J. Zscheischler; J. Zscheischler; +34 Authors
J. von Buttlar; J. von Buttlar; J. Zscheischler; J. Zscheischler; A. Rammig; S. Sippel; S. Sippel; M. Reichstein; M. Reichstein; A. Knohl; M. Jung; O. Menzer; M. A. Arain; N. Buchmann; A. Cescatti; D. Gianelle; G. Kiely; B. E. Law; V. Magliulo; H. Margolis; H. McCaughey; L. Merbold; L. Merbold; M. Migliavacca; L. Montagnani; W. Oechel; W. Oechel; M. Pavelka; M. Peichl; S. Rambal; A. Raschi; R. L. Scott; F. P. Vaccari; E. van Gorsel; A. Varlagin; G. Wohlfahrt; M. D. Mahecha; M. D. Mahecha;
doi: 10.5194/bg-2017-393 , 10.5194/bg-15-1293-2018 , 10.3929/ethz-b-000224136 , 10.60692/wcgpv-npt56 , 10.3929/ethz-b-000319384 , 10.60692/8sbqk-pem96
handle: 11250/2501755 , 20.500.14243/333784 , 10468/6321 , 10449/46682 , 10568/92063
doi: 10.5194/bg-2017-393 , 10.5194/bg-15-1293-2018 , 10.3929/ethz-b-000224136 , 10.60692/wcgpv-npt56 , 10.3929/ethz-b-000319384 , 10.60692/8sbqk-pem96
handle: 11250/2501755 , 20.500.14243/333784 , 10468/6321 , 10449/46682 , 10568/92063
Abstract. Extreme climatic events, such as droughts and heat stress induce anomalies in ecosystem-atmosphere CO2 fluxes, such as gross primary production (GPP) and ecosystem respiration (Reco), and, hence, can change the net ecosystem carbon balance. However, despite our increasing understanding of the underlying mechanisms, the magnitudes of the impacts of different types of extremes on GPP and Reco within and between ecosystems remain poorly predicted. Here we aim to identify the major factors controlling the amplitude of extreme event impacts on GPP, Reco, and the resulting net ecosystem production (NEP). We focus on the impacts of heat and drought and their combination. We identified hydrometeorological extreme events in consistently downscaled water availability and temperature measurements over a 30 year time period. We then used FLUXNET eddy-covariance flux measurements to estimate the CO2 flux anomalies during these extreme events across dominant vegetation types and climate zones. Overall, our results indicate that short-term heat extremes increased respiration more strongly than they down-regulated GPP, resulting in a moderate reduction of the ecosystem’s carbon sink potential. In the absence of heat stress, droughts tended to have smaller and similarly dampening effects on both GPP and Reco, and, hence, often resulted in neutral NEP responses. The combination of drought and heat typically led to a strong decrease in GPP, whereas heat and drought impacts on respiration partially offset each other. Taken together, compound heat and drought events led to the strongest C sink reduction compared to any single-factor extreme. A key insight of this paper, however, is that duration matters most: for heat stress during droughts, the magnitude of impacts systematically increased with duration, whereas under heat stress without drought, the response of Reco over time turned from an initial increase to a down-regulation after about two weeks. This confirms earlier theories that not only the magnitude but also the duration of an extreme event determines its impact. Our study corroborates the results of several local site-level case studies, but as a novelty generalizes these findings at the global scale. Specifically, we find that the different response functions of the two antipodal land-atmosphere fluxes GPP and Reco can also result in increasing NEP during certain extreme conditions. Apparently counterintuitive findings of this kind bear great potential for scrutinizing the mechanisms implemented in state-of-the-art terrestrial biosphere models and provide a benchmark for future model development and testing.
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Article . 2018
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Archivio istituzionale della ricerca - Fondazione Edmund Mach
Article . 2018
License: CC BY
Full-Text: https://openpub.fmach.it/bitstream/10449/46682/1/2018_B_15_1293-1318.pdf
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Biogeosciences (BG)
Article
License: CC BY
Full-Text: https://bg.copernicus.org/articles/15/1293/2018/bg-15-1293-2018.pdf
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CGIAR CGSpace (Consultative Group on International Agricultural Research)
Article . 2018
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Full-Text: https://hdl.handle.net/10568/92063
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Fondazione Edmund Mach: IRIS-OpenPub
Article . 2018
Full-Text: http://hdl.handle.net/10449/46682
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The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data

Atmospheric deposition, CO2, and change in the land carbon sink

Decoding autumn phenology: Unraveling the link between observation methods and detected environmental cues

Leaf-level coordination principles propagate to the ecosystem scale

Old-growth forests as global carbon sinks

Selected breakpoints of net forest carbon uptake at four eddy-covariance sites

Temporal variation in nitrous oxide (N2O) fluxes from an oil palm plantation in Indonesia: An ecosystem‐scale analysis

Carbon costs and benefits of Indonesian rainforest conversion to plantations

The pantropical response of soil moisture to El Niño

Impacts of droughts and extreme temperature events on gross primary production and ecosystem respiration: a systematic assessment across ecosystems and climate zones

The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data

Atmospheric deposition, CO2, and change in the land carbon sink

Decoding autumn phenology: Unraveling the link between observation methods and detected environmental cues

Leaf-level coordination principles propagate to the ecosystem scale

Old-growth forests as global carbon sinks

Selected breakpoints of net forest carbon uptake at four eddy-covariance sites

Temporal variation in nitrous oxide (N2O) fluxes from an oil palm plantation in Indonesia: An ecosystem‐scale analysis

Carbon costs and benefits of Indonesian rainforest conversion to plantations

The pantropical response of soil moisture to El Niño

Impacts of droughts and extreme temperature events on gross primary production and ecosystem respiration: a systematic assessment across ecosystems and climate zones

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