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description Publicationkeyboard_double_arrow_right Article , Journal 2012 France, BelgiumPublisher:Oxford University Press (OUP) Asko Noormets; Ge Sun; Michael Gavazzi; Steve McNulty; Jean-Christophe Domec; Jérôme Ogée; John S. King; John S. King; Julien Jouangy; Emrys Treasure;Deep root water uptake and hydraulic redistribution (HR) have been shown to play a major role in forest ecosystems during drought, but little is known about the impact of climate change, fertilization and soil characteristics on HR and its consequences on water and carbon fluxes. Using data from three mid-rotation loblolly pine plantations, and simulations with the process-based model MuSICA, this study indicated that HR can mitigate the effects of soil drying and had important implications for carbon uptake potential and net ecosystem exchange (NEE), especially when N fertilization is considered. At the coastal site (C), characterized by deep organic soil, HR increased dry season tree transpiration (T) by up to 40%, and such an increase affected NEE through major changes in gross primary productivity (GPP). Deep-rooted trees did not necessarily translate into a large volume of HR unless soil texture allowed large water potential gradients to occur, as was the case at the sandy site (S). At the Piedmont site (P) characterized by a shallow clay-loam soil, HR was low but not negligible, representing up to 10% of T. In the absence of HR, it was predicted that at the C, S and P sites, annual GPP would have been diminished by 19, 7 and 9%, respectively. Under future climate conditions HR was predicted to be reduced by up to 25% at the C site, reducing the resilience of trees to precipitation deficits. The effect of HR on T and GPP was predicted to diminish under future conditions by 12 and 6% at the C and P sites, respectively. Under future conditions, T was predicted to stay the same at the P site, but to be marginally reduced at the C site and slightly increased at the S site. Future conditions and N fertilization would decrease T by 25% at the C site, by 15% at the P site and by 8% at the S site. At the C and S sites, GPP was estimated to increase by 18% and by >70% under future conditions, respectively, with little effect of N fertilization. At the P site, future conditions would stimulate GPP by only 12%, but future conditions plus N fertilization would increase GPP by 24%. As a consequence, in all sites, water use efficiency was predicted to improve dramatically with future conditions. Modeling the effect of reduced annual precipitation indicated that limited water availability would decrease all carbon fluxes, including NEE and respiration. Our simulations highlight the interactive effects of nutrients and elevated CO(2), and showed that the effect of N fertilization would be greater under future climate conditions.
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For further information contact us at helpdesk@openaire.euAccess Routeshybrid 69 citations 69 popularity Top 10% influence Top 10% impulse Top 10% Powered by BIP!
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Journal , Other literature type 2012 Netherlands, Netherlands, Belgium, France, United States, Germany, Italy, United KingdomPublisher:Wiley Publicly fundedFunded by:EC | GHG EUROPEEC| GHG EUROPENiu, S.; Luo, Y.; Fei, S.; Yuan, W.; Schimel, D.; Ammann, C.; Arain, M. A.; Arneth, A.; Aubinet, M.; Bar, A.; Beringer, J.; Bernhofer, C.; Black, A. T.; Buchmann, N.; Cescatti, A.; Chen, J.; Davis, K. J.; Dellwik, E.; Desai, A. R.; Dolman, H.; Etzold, S.; Francois, L.; Gianelle, Damiano; Gielen, B.; Goldstein, A.; Groenendijk, M.; Gu, L.; Hanan, N.; Helfter, C.; Hirano, T.; Hollinger, D. Y.; Jones, M. B.; Kiely, G.; Kolb, T. E.; Kutsch, W. L.; Lafleur, P.; Law, B. E.; Lawrence, D. M.; Li, L.; Lindroth, A.; Litvak, M.; Loustau, D.; Lund, M.; Ma, S.; Marek, M.; Martin, T. A.; Matteucci, G.; Migliavacca, M.; Montagnani, L.; Moors, E.; Munger, J. W.; Noormets, A.; Oechel, W.; Olejnik, J.; Paw, U.; Pilegaard, K.; Rambal, S.; Raschi, A.; Saleska, S.; Scott, R. L.; Seufert, G.; Spano, D.; Stoy, P.; Sutton, M. A.; Varlagin, A.; Vesala, T.; Weng, E.; Wohlfahrt, G.; Yang, B.; Zhang, Z.; Zhou, X.;pmid: 22404566
handle: 20.500.14243/267221 , 11388/46728 , 10067/982430151162165141 , 10449/20975
• It is well established that individual organisms can acclimate and adapt to temperature to optimize their functioning. However, thermal optimization of ecosystems, as an assemblage of organisms, has not been examined at broad spatial and temporal scales. • Here, we compiled data from 169 globally distributed sites of eddy covariance and quantified the temperature response functions of net ecosystem exchange (NEE), an ecosystem-level property, to determine whether NEE shows thermal optimality and to explore the underlying mechanisms. • We found that the temperature response of NEE followed a peak curve, with the optimum temperature (corresponding to the maximum magnitude of NEE) being positively correlated with annual mean temperature over years and across sites. Shifts of the optimum temperature of NEE were mostly a result of temperature acclimation of gross primary productivity (upward shift of optimum temperature) rather than changes in the temperature sensitivity of ecosystem respiration. • Ecosystem-level thermal optimality is a newly revealed ecosystem property, presumably reflecting associated evolutionary adaptation of organisms within ecosystems, and has the potential to significantly regulate ecosystem-climate change feedbacks. The thermal optimality of NEE has implications for understanding fundamental properties of ecosystems in changing environments and benchmarking global models.
KITopen (Karlsruhe I... arrow_drop_down KITopen (Karlsruhe Institute of Technologie)Article . 2012Data sources: Bielefeld Academic Search Engine (BASE)New PhytologistArticle . 2012 . Peer-reviewedLicense: Wiley Online Library User AgreementData sources: CrossrefFondazione Edmund Mach: IRIS-OpenPubArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)http://dx.doi.org/10.1111/j.14...Other literature typeData sources: European Union Open Data PortalInstitut National de la Recherche Agronomique: ProdINRAArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)Natural Environment Research Council: NERC Open Research ArchiveArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen bronze 125 citations 125 popularity Top 1% influence Top 10% impulse Top 10% Powered by BIP!
more_vert KITopen (Karlsruhe I... arrow_drop_down KITopen (Karlsruhe Institute of Technologie)Article . 2012Data sources: Bielefeld Academic Search Engine (BASE)New PhytologistArticle . 2012 . Peer-reviewedLicense: Wiley Online Library User AgreementData sources: CrossrefFondazione Edmund Mach: IRIS-OpenPubArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)http://dx.doi.org/10.1111/j.14...Other literature typeData sources: European Union Open Data PortalInstitut National de la Recherche Agronomique: ProdINRAArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)Natural Environment Research Council: NERC Open Research ArchiveArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_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 StatesPublisher:Springer Science and Business Media LLC Publicly fundedFunded by:UKRI | RootDetect: Remote Detect...UKRI| RootDetect: Remote Detection and Precision Management of Root HealthAndreas 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;pmid: 32647314
pmc: PMC7347557
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.
CORE arrow_drop_down Archivio della ricerca- Università di Roma La SapienzaArticle . 2020License: CC BYData sources: Archivio della ricerca- Università di Roma La SapienzaGFZpublic (German Research Centre for Geosciences, Helmholtz-Zentrum Potsdam)Article . 2020License: CC BYData sources: Bielefeld Academic Search Engine (BASE)Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQArticle . 2020Full-Text: https://doi.org/10.6084/m9.figshare.12295910Data sources: Bielefeld Academic Search Engine (BASE)CGIAR CGSpace (Consultative Group on International Agricultural Research)Article . 2020License: CC BYFull-Text: https://hdl.handle.net/10568/108878Data sources: Bielefeld Academic Search Engine (BASE)CIRAD: HAL (Agricultural Research for Development)Article . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Universitet i Oslo: Digitale utgivelser ved UiO (DUO)Article . 2020License: CC BYFull-Text: http://hdl.handle.net/10852/81470Data sources: Bielefeld Academic Search Engine (BASE)KITopen (Karlsruhe Institute of Technologie)Article . 2020License: CC BYData sources: Bielefeld Academic Search Engine (BASE)Fondazione Edmund Mach: IRIS-OpenPubArticle . 2020Full-Text: http://hdl.handle.net/10449/64207Data sources: Bielefeld Academic Search Engine (BASE)The University of Melbourne: Digital RepositoryArticle . 2020License: CC BYFull-Text: http://hdl.handle.net/11343/244534Data sources: Bielefeld Academic Search Engine (BASE)Edith Cowan University (ECU, Australia): Research OnlineArticle . 2020Full-Text: https://ro.ecu.edu.au/ecuworkspost2013/9096Data sources: Bielefeld Academic Search Engine (BASE)Institut National de la Recherche Agronomique: ProdINRAArticle . 2020Full-Text: https://doi.org/10.6084/m9.figshare.12295910Data sources: Bielefeld Academic Search Engine (BASE)University of California: eScholarshipArticle . 2020Full-Text: https://escholarship.org/uc/item/2xf0f1djData sources: Bielefeld Academic Search Engine (BASE)The University of Adelaide: Digital LibraryArticle . 2020License: CC BYFull-Text: http://hdl.handle.net/2440/129213Data sources: Bielefeld Academic Search Engine (BASE)James Cook University, Australia: ResearchOnline@JCUArticle . 2020Full-Text: https://doi.org/10.1038/s41597-020-0534-3Data sources: Bielefeld Academic Search Engine (BASE)Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQArticle . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Institut national des sciences de l'Univers: HAL-INSUArticle . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Recolector de Ciencia Abierta, RECOLECTAArticle . 2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTAArticle . 2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTA2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTAScientific DataArticle . 2020Online Research Database In TechnologyArticle . 2020Data sources: Online Research Database In TechnologyHELDA - Digital Repository of the University of HelsinkiArticle . 2021 . Peer-reviewedData sources: HELDA - Digital Repository of the University of HelsinkiPublikationenserver der Georg-August-Universität GöttingenArticle . 2021Institutional Repository Universiteit AntwerpenArticle . 2020Data sources: Institutional Repository Universiteit AntwerpenUniversity of Oulu Repository - JultikaArticle . 2020Data sources: University of Oulu Repository - JultikaCopenhagen University Research Information SystemArticle . 2020Data sources: Copenhagen University Research Information SystemRepository of the Czech Academy of SciencesArticle . 2020Data sources: Repository of the Czech Academy of SciencesGöttingen Research Online PublicationsArticle . 2021Data sources: Göttingen Research Online PublicationsGFZ German Research Centre for GeosciencesArticle . 2020License: CC BYData sources: GFZ German Research Centre for GeosciencesWageningen Staff PublicationsArticle . 2020License: CC BYData sources: Wageningen Staff PublicationsWageningen Staff PublicationsArticle . 2021License: CC BYData sources: Wageningen Staff PublicationsUniversity of Western Sydney (UWS): Research DirectArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)University of Copenhagen: ResearchArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Repositorio Institucional Universidad de GranadaArticle . 2020License: CC BYData sources: Repositorio Institucional Universidad de GranadaeScholarship - University of CaliforniaArticle . 2020Data sources: eScholarship - University of CaliforniaThe University of Queensland: UQ eSpaceArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Università degli studi della Tuscia: Unitus DSpaceArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 896 citations 896 popularity Top 0.01% influence Top 1% impulse Top 0.01% Powered by BIP!
more_vert CORE arrow_drop_down Archivio della ricerca- Università di Roma La SapienzaArticle . 2020License: CC BYData sources: Archivio della ricerca- Università di Roma La SapienzaGFZpublic (German Research Centre for Geosciences, Helmholtz-Zentrum Potsdam)Article . 2020License: CC BYData sources: Bielefeld Academic Search Engine (BASE)Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQArticle . 2020Full-Text: https://doi.org/10.6084/m9.figshare.12295910Data sources: Bielefeld Academic Search Engine (BASE)CGIAR CGSpace (Consultative Group on International Agricultural Research)Article . 2020License: CC BYFull-Text: https://hdl.handle.net/10568/108878Data sources: Bielefeld Academic Search Engine (BASE)CIRAD: HAL (Agricultural Research for Development)Article . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Universitet i Oslo: Digitale utgivelser ved UiO (DUO)Article . 2020License: CC BYFull-Text: http://hdl.handle.net/10852/81470Data sources: Bielefeld Academic Search Engine (BASE)KITopen (Karlsruhe Institute of Technologie)Article . 2020License: CC BYData sources: Bielefeld Academic Search Engine (BASE)Fondazione Edmund Mach: IRIS-OpenPubArticle . 2020Full-Text: http://hdl.handle.net/10449/64207Data sources: Bielefeld Academic Search Engine (BASE)The University of Melbourne: Digital RepositoryArticle . 2020License: CC BYFull-Text: http://hdl.handle.net/11343/244534Data sources: Bielefeld Academic Search Engine (BASE)Edith Cowan University (ECU, Australia): Research OnlineArticle . 2020Full-Text: https://ro.ecu.edu.au/ecuworkspost2013/9096Data sources: Bielefeld Academic Search Engine (BASE)Institut National de la Recherche Agronomique: ProdINRAArticle . 2020Full-Text: https://doi.org/10.6084/m9.figshare.12295910Data sources: Bielefeld Academic Search Engine (BASE)University of California: eScholarshipArticle . 2020Full-Text: https://escholarship.org/uc/item/2xf0f1djData sources: Bielefeld Academic Search Engine (BASE)The University of Adelaide: Digital LibraryArticle . 2020License: CC BYFull-Text: http://hdl.handle.net/2440/129213Data sources: Bielefeld Academic Search Engine (BASE)James Cook University, Australia: ResearchOnline@JCUArticle . 2020Full-Text: https://doi.org/10.1038/s41597-020-0534-3Data sources: Bielefeld Academic Search Engine (BASE)Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQArticle . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Institut national des sciences de l'Univers: HAL-INSUArticle . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Recolector de Ciencia Abierta, RECOLECTAArticle . 2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTAArticle . 2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTA2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTAScientific DataArticle . 2020Online Research Database In TechnologyArticle . 2020Data sources: Online Research Database In TechnologyHELDA - Digital Repository of the University of HelsinkiArticle . 2021 . Peer-reviewedData sources: HELDA - Digital Repository of the University of HelsinkiPublikationenserver der Georg-August-Universität GöttingenArticle . 2021Institutional Repository Universiteit AntwerpenArticle . 2020Data sources: Institutional Repository Universiteit AntwerpenUniversity of Oulu Repository - JultikaArticle . 2020Data sources: University of Oulu Repository - JultikaCopenhagen University Research Information SystemArticle . 2020Data sources: Copenhagen University Research Information SystemRepository of the Czech Academy of SciencesArticle . 2020Data sources: Repository of the Czech Academy of SciencesGöttingen Research Online PublicationsArticle . 2021Data sources: Göttingen Research Online PublicationsGFZ German Research Centre for GeosciencesArticle . 2020License: CC BYData sources: GFZ German Research Centre for GeosciencesWageningen Staff PublicationsArticle . 2020License: CC BYData sources: Wageningen Staff PublicationsWageningen Staff PublicationsArticle . 2021License: CC BYData sources: Wageningen Staff PublicationsUniversity of Western Sydney (UWS): Research DirectArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)University of Copenhagen: ResearchArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Repositorio Institucional Universidad de GranadaArticle . 2020License: CC BYData sources: Repositorio Institucional Universidad de GranadaeScholarship - University of CaliforniaArticle . 2020Data sources: eScholarship - University of CaliforniaThe University of Queensland: UQ eSpaceArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Università degli studi della Tuscia: Unitus DSpaceArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Part of book or chapter of book , Journal , Article 1999 United StatesPublisher:Springer Netherlands Karosky, D.F.; Mankovska, B.; Percy, K.; Dickson, R.E.; Podila, G.K.; Sober, J.; Noormets, A.; Handrey, G.; Coleman, M.D.; Kubiske, M.; Pregitzer, K.S.; Isebrands, J.G.;Over the years, a series of trembling aspen (Populus tremuloides Michx.) clones differing in O3 sensitivity have been identified from OTC studies. Three clones (216 and 271[(O3 tolerant] and 259 [O3 sensitive]) have been characterized for O3 sensitivity by growth and biomass responses, foliar symptoms, gas exchange, chlorophyll content, epicuticular wax characteristics, and antioxidant production. In this study we compared the responses of these same clones exposed to O3 under field conditions along a natural O3 gradient and in a Free-Air CO2 and O3 Enrichment (FACE) facility. In addition, we examined how elevated CO2 affected O3 symptom development. Visible O3 symptoms were consistently seen (5 out of 6 years) at two of the three sites along the O3 gradient and where daily one-hour maximum concentrations were in the range of 96 to 125 ppb. Clonal differences in O3 sensitivity were consistent with our OTC rankings Elevated CO2 (200 ppm over ambient and applied during daylight hours during the growing season) reduced visible foliar symptoms for all three clones from 31 to 96% as determined by symptom development in elevated O3 versus elevated O3 + CO2 treatments. Degradation of the epicuticular wax surface of all three clones was found at the two elevated O3 gradient sites. This degradation was quantified by a coefficient of occlusion which was a measure of stomatal occlusion by epicuticular waxes. Statistically significant increases in stomatal occlusion compared to controls were found for all three clones and for all treatments including elevated CO2, elevated O3, and elevated CO2 + O3. Our results provide additional evidence that current ambient O3 levels in the Great Lakes region are causing adverse effects on trembling aspen. Whether or not elevated CO2 in the future will alleviate some of these adverse effects, as occurred with visible symptoms but not with epicuticular wax degradation, is unknown.
Utah State Universit... arrow_drop_down Utah State University: DigitalCommons@USUArticle . 1999License: PDMData sources: Bielefeld Academic Search Engine (BASE)https://doi.org/10.1007/978-94...Part of book or chapter of book . 1999 . Peer-reviewedData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1007/978-94-017-1578-2_24&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess RoutesGreen 3 citations 3 popularity Average influence Average impulse Average Powered by BIP!
more_vert Utah State Universit... arrow_drop_down Utah State University: DigitalCommons@USUArticle . 1999License: PDMData sources: Bielefeld Academic Search Engine (BASE)https://doi.org/10.1007/978-94...Part of book or chapter of book . 1999 . Peer-reviewedData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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description Publicationkeyboard_double_arrow_right Article , Journal 2012 France, BelgiumPublisher:Oxford University Press (OUP) Asko Noormets; Ge Sun; Michael Gavazzi; Steve McNulty; Jean-Christophe Domec; Jérôme Ogée; John S. King; John S. King; Julien Jouangy; Emrys Treasure;Deep root water uptake and hydraulic redistribution (HR) have been shown to play a major role in forest ecosystems during drought, but little is known about the impact of climate change, fertilization and soil characteristics on HR and its consequences on water and carbon fluxes. Using data from three mid-rotation loblolly pine plantations, and simulations with the process-based model MuSICA, this study indicated that HR can mitigate the effects of soil drying and had important implications for carbon uptake potential and net ecosystem exchange (NEE), especially when N fertilization is considered. At the coastal site (C), characterized by deep organic soil, HR increased dry season tree transpiration (T) by up to 40%, and such an increase affected NEE through major changes in gross primary productivity (GPP). Deep-rooted trees did not necessarily translate into a large volume of HR unless soil texture allowed large water potential gradients to occur, as was the case at the sandy site (S). At the Piedmont site (P) characterized by a shallow clay-loam soil, HR was low but not negligible, representing up to 10% of T. In the absence of HR, it was predicted that at the C, S and P sites, annual GPP would have been diminished by 19, 7 and 9%, respectively. Under future climate conditions HR was predicted to be reduced by up to 25% at the C site, reducing the resilience of trees to precipitation deficits. The effect of HR on T and GPP was predicted to diminish under future conditions by 12 and 6% at the C and P sites, respectively. Under future conditions, T was predicted to stay the same at the P site, but to be marginally reduced at the C site and slightly increased at the S site. Future conditions and N fertilization would decrease T by 25% at the C site, by 15% at the P site and by 8% at the S site. At the C and S sites, GPP was estimated to increase by 18% and by >70% under future conditions, respectively, with little effect of N fertilization. At the P site, future conditions would stimulate GPP by only 12%, but future conditions plus N fertilization would increase GPP by 24%. As a consequence, in all sites, water use efficiency was predicted to improve dramatically with future conditions. Modeling the effect of reduced annual precipitation indicated that limited water availability would decrease all carbon fluxes, including NEE and respiration. Our simulations highlight the interactive effects of nutrients and elevated CO(2), and showed that the effect of N fertilization would be greater under future climate conditions.
add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routeshybrid 69 citations 69 popularity Top 10% influence Top 10% impulse Top 10% Powered by BIP!
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Journal , Other literature type 2012 Netherlands, Netherlands, Belgium, France, United States, Germany, Italy, United KingdomPublisher:Wiley Publicly fundedFunded by:EC | GHG EUROPEEC| GHG EUROPENiu, S.; Luo, Y.; Fei, S.; Yuan, W.; Schimel, D.; Ammann, C.; Arain, M. A.; Arneth, A.; Aubinet, M.; Bar, A.; Beringer, J.; Bernhofer, C.; Black, A. T.; Buchmann, N.; Cescatti, A.; Chen, J.; Davis, K. J.; Dellwik, E.; Desai, A. R.; Dolman, H.; Etzold, S.; Francois, L.; Gianelle, Damiano; Gielen, B.; Goldstein, A.; Groenendijk, M.; Gu, L.; Hanan, N.; Helfter, C.; Hirano, T.; Hollinger, D. Y.; Jones, M. B.; Kiely, G.; Kolb, T. E.; Kutsch, W. L.; Lafleur, P.; Law, B. E.; Lawrence, D. M.; Li, L.; Lindroth, A.; Litvak, M.; Loustau, D.; Lund, M.; Ma, S.; Marek, M.; Martin, T. A.; Matteucci, G.; Migliavacca, M.; Montagnani, L.; Moors, E.; Munger, J. W.; Noormets, A.; Oechel, W.; Olejnik, J.; Paw, U.; Pilegaard, K.; Rambal, S.; Raschi, A.; Saleska, S.; Scott, R. L.; Seufert, G.; Spano, D.; Stoy, P.; Sutton, M. A.; Varlagin, A.; Vesala, T.; Weng, E.; Wohlfahrt, G.; Yang, B.; Zhang, Z.; Zhou, X.;pmid: 22404566
handle: 20.500.14243/267221 , 11388/46728 , 10067/982430151162165141 , 10449/20975
• It is well established that individual organisms can acclimate and adapt to temperature to optimize their functioning. However, thermal optimization of ecosystems, as an assemblage of organisms, has not been examined at broad spatial and temporal scales. • Here, we compiled data from 169 globally distributed sites of eddy covariance and quantified the temperature response functions of net ecosystem exchange (NEE), an ecosystem-level property, to determine whether NEE shows thermal optimality and to explore the underlying mechanisms. • We found that the temperature response of NEE followed a peak curve, with the optimum temperature (corresponding to the maximum magnitude of NEE) being positively correlated with annual mean temperature over years and across sites. Shifts of the optimum temperature of NEE were mostly a result of temperature acclimation of gross primary productivity (upward shift of optimum temperature) rather than changes in the temperature sensitivity of ecosystem respiration. • Ecosystem-level thermal optimality is a newly revealed ecosystem property, presumably reflecting associated evolutionary adaptation of organisms within ecosystems, and has the potential to significantly regulate ecosystem-climate change feedbacks. The thermal optimality of NEE has implications for understanding fundamental properties of ecosystems in changing environments and benchmarking global models.
KITopen (Karlsruhe I... arrow_drop_down KITopen (Karlsruhe Institute of Technologie)Article . 2012Data sources: Bielefeld Academic Search Engine (BASE)New PhytologistArticle . 2012 . Peer-reviewedLicense: Wiley Online Library User AgreementData sources: CrossrefFondazione Edmund Mach: IRIS-OpenPubArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)http://dx.doi.org/10.1111/j.14...Other literature typeData sources: European Union Open Data PortalInstitut National de la Recherche Agronomique: ProdINRAArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)Natural Environment Research Council: NERC Open Research ArchiveArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen bronze 125 citations 125 popularity Top 1% influence Top 10% impulse Top 10% Powered by BIP!
more_vert KITopen (Karlsruhe I... arrow_drop_down KITopen (Karlsruhe Institute of Technologie)Article . 2012Data sources: Bielefeld Academic Search Engine (BASE)New PhytologistArticle . 2012 . Peer-reviewedLicense: Wiley Online Library User AgreementData sources: CrossrefFondazione Edmund Mach: IRIS-OpenPubArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)http://dx.doi.org/10.1111/j.14...Other literature typeData sources: European Union Open Data PortalInstitut National de la Recherche Agronomique: ProdINRAArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)Natural Environment Research Council: NERC Open Research ArchiveArticle . 2012Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_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 StatesPublisher:Springer Science and Business Media LLC Publicly fundedFunded by:UKRI | RootDetect: Remote Detect...UKRI| RootDetect: Remote Detection and Precision Management of Root HealthAndreas 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;pmid: 32647314
pmc: PMC7347557
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.
CORE arrow_drop_down Archivio della ricerca- Università di Roma La SapienzaArticle . 2020License: CC BYData sources: Archivio della ricerca- Università di Roma La SapienzaGFZpublic (German Research Centre for Geosciences, Helmholtz-Zentrum Potsdam)Article . 2020License: CC BYData sources: Bielefeld Academic Search Engine (BASE)Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQArticle . 2020Full-Text: https://doi.org/10.6084/m9.figshare.12295910Data sources: Bielefeld Academic Search Engine (BASE)CGIAR CGSpace (Consultative Group on International Agricultural Research)Article . 2020License: CC BYFull-Text: https://hdl.handle.net/10568/108878Data sources: Bielefeld Academic Search Engine (BASE)CIRAD: HAL (Agricultural Research for Development)Article . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Universitet i Oslo: Digitale utgivelser ved UiO (DUO)Article . 2020License: CC BYFull-Text: http://hdl.handle.net/10852/81470Data sources: Bielefeld Academic Search Engine (BASE)KITopen (Karlsruhe Institute of Technologie)Article . 2020License: CC BYData sources: Bielefeld Academic Search Engine (BASE)Fondazione Edmund Mach: IRIS-OpenPubArticle . 2020Full-Text: http://hdl.handle.net/10449/64207Data sources: Bielefeld Academic Search Engine (BASE)The University of Melbourne: Digital RepositoryArticle . 2020License: CC BYFull-Text: http://hdl.handle.net/11343/244534Data sources: Bielefeld Academic Search Engine (BASE)Edith Cowan University (ECU, Australia): Research OnlineArticle . 2020Full-Text: https://ro.ecu.edu.au/ecuworkspost2013/9096Data sources: Bielefeld Academic Search Engine (BASE)Institut National de la Recherche Agronomique: ProdINRAArticle . 2020Full-Text: https://doi.org/10.6084/m9.figshare.12295910Data sources: Bielefeld Academic Search Engine (BASE)University of California: eScholarshipArticle . 2020Full-Text: https://escholarship.org/uc/item/2xf0f1djData sources: Bielefeld Academic Search Engine (BASE)The University of Adelaide: Digital LibraryArticle . 2020License: CC BYFull-Text: http://hdl.handle.net/2440/129213Data sources: Bielefeld Academic Search Engine (BASE)James Cook University, Australia: ResearchOnline@JCUArticle . 2020Full-Text: https://doi.org/10.1038/s41597-020-0534-3Data sources: Bielefeld Academic Search Engine (BASE)Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQArticle . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Institut national des sciences de l'Univers: HAL-INSUArticle . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Recolector de Ciencia Abierta, RECOLECTAArticle . 2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTAArticle . 2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTA2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTAScientific DataArticle . 2020Online Research Database In TechnologyArticle . 2020Data sources: Online Research Database In TechnologyHELDA - Digital Repository of the University of HelsinkiArticle . 2021 . Peer-reviewedData sources: HELDA - Digital Repository of the University of HelsinkiPublikationenserver der Georg-August-Universität GöttingenArticle . 2021Institutional Repository Universiteit AntwerpenArticle . 2020Data sources: Institutional Repository Universiteit AntwerpenUniversity of Oulu Repository - JultikaArticle . 2020Data sources: University of Oulu Repository - JultikaCopenhagen University Research Information SystemArticle . 2020Data sources: Copenhagen University Research Information SystemRepository of the Czech Academy of SciencesArticle . 2020Data sources: Repository of the Czech Academy of SciencesGöttingen Research Online PublicationsArticle . 2021Data sources: Göttingen Research Online PublicationsGFZ German Research Centre for GeosciencesArticle . 2020License: CC BYData sources: GFZ German Research Centre for GeosciencesWageningen Staff PublicationsArticle . 2020License: CC BYData sources: Wageningen Staff PublicationsWageningen Staff PublicationsArticle . 2021License: CC BYData sources: Wageningen Staff PublicationsUniversity of Western Sydney (UWS): Research DirectArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)University of Copenhagen: ResearchArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Repositorio Institucional Universidad de GranadaArticle . 2020License: CC BYData sources: Repositorio Institucional Universidad de GranadaeScholarship - University of CaliforniaArticle . 2020Data sources: eScholarship - University of CaliforniaThe University of Queensland: UQ eSpaceArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Università degli studi della Tuscia: Unitus DSpaceArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 896 citations 896 popularity Top 0.01% influence Top 1% impulse Top 0.01% Powered by BIP!
more_vert CORE arrow_drop_down Archivio della ricerca- Università di Roma La SapienzaArticle . 2020License: CC BYData sources: Archivio della ricerca- Università di Roma La SapienzaGFZpublic (German Research Centre for Geosciences, Helmholtz-Zentrum Potsdam)Article . 2020License: CC BYData sources: Bielefeld Academic Search Engine (BASE)Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQArticle . 2020Full-Text: https://doi.org/10.6084/m9.figshare.12295910Data sources: Bielefeld Academic Search Engine (BASE)CGIAR CGSpace (Consultative Group on International Agricultural Research)Article . 2020License: CC BYFull-Text: https://hdl.handle.net/10568/108878Data sources: Bielefeld Academic Search Engine (BASE)CIRAD: HAL (Agricultural Research for Development)Article . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Universitet i Oslo: Digitale utgivelser ved UiO (DUO)Article . 2020License: CC BYFull-Text: http://hdl.handle.net/10852/81470Data sources: Bielefeld Academic Search Engine (BASE)KITopen (Karlsruhe Institute of Technologie)Article . 2020License: CC BYData sources: Bielefeld Academic Search Engine (BASE)Fondazione Edmund Mach: IRIS-OpenPubArticle . 2020Full-Text: http://hdl.handle.net/10449/64207Data sources: Bielefeld Academic Search Engine (BASE)The University of Melbourne: Digital RepositoryArticle . 2020License: CC BYFull-Text: http://hdl.handle.net/11343/244534Data sources: Bielefeld Academic Search Engine (BASE)Edith Cowan University (ECU, Australia): Research OnlineArticle . 2020Full-Text: https://ro.ecu.edu.au/ecuworkspost2013/9096Data sources: Bielefeld Academic Search Engine (BASE)Institut National de la Recherche Agronomique: ProdINRAArticle . 2020Full-Text: https://doi.org/10.6084/m9.figshare.12295910Data sources: Bielefeld Academic Search Engine (BASE)University of California: eScholarshipArticle . 2020Full-Text: https://escholarship.org/uc/item/2xf0f1djData sources: Bielefeld Academic Search Engine (BASE)The University of Adelaide: Digital LibraryArticle . 2020License: CC BYFull-Text: http://hdl.handle.net/2440/129213Data sources: Bielefeld Academic Search Engine (BASE)James Cook University, Australia: ResearchOnline@JCUArticle . 2020Full-Text: https://doi.org/10.1038/s41597-020-0534-3Data sources: Bielefeld Academic Search Engine (BASE)Université de Versailles Saint-Quentin-en-Yvelines: HAL-UVSQArticle . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Institut national des sciences de l'Univers: HAL-INSUArticle . 2020Full-Text: https://hal.science/hal-03778635Data sources: Bielefeld Academic Search Engine (BASE)Recolector de Ciencia Abierta, RECOLECTAArticle . 2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTAArticle . 2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTA2020License: CC BYData sources: Recolector de Ciencia Abierta, RECOLECTAScientific DataArticle . 2020Online Research Database In TechnologyArticle . 2020Data sources: Online Research Database In TechnologyHELDA - Digital Repository of the University of HelsinkiArticle . 2021 . Peer-reviewedData sources: HELDA - Digital Repository of the University of HelsinkiPublikationenserver der Georg-August-Universität GöttingenArticle . 2021Institutional Repository Universiteit AntwerpenArticle . 2020Data sources: Institutional Repository Universiteit AntwerpenUniversity of Oulu Repository - JultikaArticle . 2020Data sources: University of Oulu Repository - JultikaCopenhagen University Research Information SystemArticle . 2020Data sources: Copenhagen University Research Information SystemRepository of the Czech Academy of SciencesArticle . 2020Data sources: Repository of the Czech Academy of SciencesGöttingen Research Online PublicationsArticle . 2021Data sources: Göttingen Research Online PublicationsGFZ German Research Centre for GeosciencesArticle . 2020License: CC BYData sources: GFZ German Research Centre for GeosciencesWageningen Staff PublicationsArticle . 2020License: CC BYData sources: Wageningen Staff PublicationsWageningen Staff PublicationsArticle . 2021License: CC BYData sources: Wageningen Staff PublicationsUniversity of Western Sydney (UWS): Research DirectArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)University of Copenhagen: ResearchArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Repositorio Institucional Universidad de GranadaArticle . 2020License: CC BYData sources: Repositorio Institucional Universidad de GranadaeScholarship - University of CaliforniaArticle . 2020Data sources: eScholarship - University of CaliforniaThe University of Queensland: UQ eSpaceArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Università degli studi della Tuscia: Unitus DSpaceArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Part of book or chapter of book , Journal , Article 1999 United StatesPublisher:Springer Netherlands Karosky, D.F.; Mankovska, B.; Percy, K.; Dickson, R.E.; Podila, G.K.; Sober, J.; Noormets, A.; Handrey, G.; Coleman, M.D.; Kubiske, M.; Pregitzer, K.S.; Isebrands, J.G.;Over the years, a series of trembling aspen (Populus tremuloides Michx.) clones differing in O3 sensitivity have been identified from OTC studies. Three clones (216 and 271[(O3 tolerant] and 259 [O3 sensitive]) have been characterized for O3 sensitivity by growth and biomass responses, foliar symptoms, gas exchange, chlorophyll content, epicuticular wax characteristics, and antioxidant production. In this study we compared the responses of these same clones exposed to O3 under field conditions along a natural O3 gradient and in a Free-Air CO2 and O3 Enrichment (FACE) facility. In addition, we examined how elevated CO2 affected O3 symptom development. Visible O3 symptoms were consistently seen (5 out of 6 years) at two of the three sites along the O3 gradient and where daily one-hour maximum concentrations were in the range of 96 to 125 ppb. Clonal differences in O3 sensitivity were consistent with our OTC rankings Elevated CO2 (200 ppm over ambient and applied during daylight hours during the growing season) reduced visible foliar symptoms for all three clones from 31 to 96% as determined by symptom development in elevated O3 versus elevated O3 + CO2 treatments. Degradation of the epicuticular wax surface of all three clones was found at the two elevated O3 gradient sites. This degradation was quantified by a coefficient of occlusion which was a measure of stomatal occlusion by epicuticular waxes. Statistically significant increases in stomatal occlusion compared to controls were found for all three clones and for all treatments including elevated CO2, elevated O3, and elevated CO2 + O3. Our results provide additional evidence that current ambient O3 levels in the Great Lakes region are causing adverse effects on trembling aspen. Whether or not elevated CO2 in the future will alleviate some of these adverse effects, as occurred with visible symptoms but not with epicuticular wax degradation, is unknown.
Utah State Universit... arrow_drop_down Utah State University: DigitalCommons@USUArticle . 1999License: PDMData sources: Bielefeld Academic Search Engine (BASE)https://doi.org/10.1007/978-94...Part of book or chapter of book . 1999 . Peer-reviewedData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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more_vert Utah State Universit... arrow_drop_down Utah State University: DigitalCommons@USUArticle . 1999License: PDMData sources: Bielefeld Academic Search Engine (BASE)https://doi.org/10.1007/978-94...Part of book or chapter of book . 1999 . Peer-reviewedData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1007/978-94-017-1578-2_24&type=result"></script>'); --> </script>
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