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29 p, 1.4 MB |
Temperature response of soil respiration largely unaltered with experimental warming
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Carey, Joanna C. (The Ecosystems Center, Marine Biological Laboratory (USA)) ;
Tang, Jianwu (The Ecosystems Center, Marine Biological Laboratory (USA)) ;
Templer, Pamela H. (Boston University. Department of Biology) ;
Kroeger, Kevin D. (United States Geological Survey. Western Ecological Research Center (USA)) ;
Crowther, Thomas W. (Yale University. School of Forestry & Environmental Studies) ;
Burton, Andrew (Michigan Technological University. School of Forest Resources and Environmental Science) ;
Dukes, Jeffrey S. (Purdue University. Department of Forestry and Natural Resources) ;
Emmett, Bridget (Environment Centre Wales. Centre for Ecology and Hydrology) ;
Frey, Serita D. (University of New Hampshire. Department of Natural Resources and the Environment) ;
Heskel, Mary A. (The Ecosystems Center, Marine Biological Laboratory (USA)) ;
Jiang, Lifen (University of Oklahoma. Department of Microbiology and Plant Biology) ;
Mohan, Jacqueline (University of Georgia. Odum School of Ecology) ;
Machmuller, Megan B. (Colorado State University. Natural Resource Ecology Laboratory) ;
Panetta, Anne Marie (University of California. Department of Evolution and Ecology) ;
Reich, Peter (University of Minnesota. Department of Forest Resources) ;
Reinsch, Sabine (Environment Centre Wales. Centre for Ecology and Hydrology) ;
Wang, Xin (Chinese Academy of Sciences. Institute of Botany) ;
Allison, Steven D. (University of California. Department of Ecology and Evolutionary Biology) ;
Bamminger, Chris (University of Hohenheim. Institute of Soil Science and Land Evaluation) ;
Bridgham, Scott (University of Oregon. Institute of Ecology and Evolution) ;
Collins, Scott L. (University of New Mexico. Department of Biology) ;
de Dato, Giovanbattista (Centro di Ricerche Forestale) ;
Eddy, William C. (University of Minnesota. Department of Ecology, Evolution, and Behavior) ;
Enquist, Brian J. (University of Arizona. Department of Ecology and Evolutionary Biology) ;
Estiarte, Marc (Centre de Recerca Ecològica i d'Aplicacions Forestals) ;
Harte, John (University of California. Department of Environmental Science, Policy and Management) ;
Henderson, Amanda (University of Arizona. Department of Ecology and Evolutionary Biology) ;
Johnson, Bart R. (University of Oregon. Department of Landscape Architecture) ;
Larsen, Klaus Steenberg (University of Copenhagen. Department of Geosciences and Natural Resource Management) ;
Luo, Yiqi (University of Oklahoma. Department of Microbiology and Plant Biology) ;
Marhan, Sven (University of Hohenheim. Institute of Soil Science and Land Evaluation) ;
Melillo, Jerry M. (The Ecosystems Center, Marine Biological Laboratory (USA)) ;
Peñuelas, Josep (Centre de Recerca Ecològica i d'Aplicacions Forestals) ;
Pfeifer-Meister, Laurel (University of Oregon. Institute of Ecology and Evolution) ;
Poll, Christian (University of Hohenheim. Institute of Soil Science and Land Evaluation) ;
Rastetter, Edward (The Ecosystems Center, Marine Biological Laboratory (USA)) ;
Reinmann, Andrew B. (Boston University. Department of Biology) ;
Reynolds, Lorien L. (University of Oregon. Institute of Ecology and Evolution) ;
Schmidt, Inger K. (University of Copenhagen. Department of Geosciences and Natural Resource Management) ;
Shaver, Gaius R. (The Ecosystems Center, Marine Biological Laboratory (USA)) ;
Strong, Aaron L. (Stanford University. Emmett Interdisciplinary Program in Environment and Resources) ;
Suseela, Vidya (Clemson University. Department of Agricultural & Environmental Sciences) ;
Tietema, Albert (University of Amsterdam. Institute for Biodiversity and Ecosystem Dynamics)
The respiratory release of carbon dioxide (CO2) from soil is a major yet poorly understood flux in the global carbon cycle. Climatic warming is hypothesized to increase rates of soil respiration, potentially fueling further increases in global temperatures. [...]
2016 - 10.1073/pnas.1605365113
Proceedings of the National Academy of Sciences of the United States of America, Vol. 113, Issue 48 (November 2016) , p. 13797-13802
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53 p, 7.9 MB |
Isotopic evidence for oligotrophication of terrestrial ecosystems
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Craine, Joseph (Jonah Ventures co.) ;
Elmore, Andrew J. (University of Maryland Center for Environmental Science) ;
Wang, Lixin (Indiana University-Purdue University Indianapolis. Department of Earth Sciences) ;
Aranibar, Julieta (Universidad Nacional de Cuyo (Mendoza, Argentina). Facultad de Ciencias Exactas y Naturales) ;
Bauters, Marijn (Universiteit Gent. Isotope Bioscience Laboratory) ;
Boeckx, Pascal (Universiteit Gent. Isotope Bioscience Laboratory) ;
Crowley, Brooke E. (University of Cincinnati. Department of Geology) ;
Dawes, Melissa A. (Swiss Federal Institute for Forest. Snow and Landscape Research) ;
Delzon, Sylvain (INRA University of Bordeaux. BIOdiversité, Gênes & Communautés) ;
Fajardo, Alex (Centro de Investigación en Ecosistemas de la Patagonia) ;
Fang, Yunting (Chinese Academy of Sciences. Institute of Applied Ecology) ;
Fujiyoshi, Lei (Research Institute for Humanity and Nature (Kyoto, Japó)) ;
Gray, Alan (UK Centre For Ecology & Hydrology) ;
Guerrieri, Rossella (Centre de Recerca Ecològica i d'Aplicacions Forestals) ;
Gundale, Michael J. (Swedish University of Agricultural Sciences. Department of Forest Ecology and Management) ;
Hawke, David J. (Ara Institute of Canterbury. Department of Science and Primary Industries) ;
Hietz, Peter (University of Natural Resources and Life Sciences (Viena, Àustria). Institute of Botany) ;
Jonard, Mathieu (Université Catholique de Louvain. Earth and Life Institute) ;
Kearsley, Elizabeth (Universiteit Gent. Department of Environment) ;
Kenzo, Tanaka (Forestry and Forest Products Research Institute (Tsukuba, Japó)) ;
Makarov, Mikhail (Moscow M.V. Lomonosov State University. Soil Science Department) ;
Marañón Jiménez, Sara (Centre de Recerca Ecològica i d'Aplicacions Forestals) ;
McGlynn, Terrence P. (California State University Dominguez Hills. Department of Biology) ;
McNeil, Brenden E. (West Virginia University. Department of Geology and Geography) ;
Mosher, Stella G. (University of Cincinnati. Department of Geology) ;
Nelson, David M. (University of Maryland Center for Environmental Science) ;
Peri, Pablo Luis (Universidad Nacional de la Patagonia Austral) ;
Roggy, Jean Christophe (UMR Écologie des Forêts de Guyane (Guaiana Francesa, França)) ;
Sanders-DeMott, Rebecca (Boston University. Department of Biology) ;
Song, Minghua (Chinese Academy of Sciences. Institute of Geographic Sciences and Natural Resources Research) ;
Szpak, Paul (Trent University (Peterborough, Canadà). Department of Anthropology) ;
Templer, Pamela H. (Boston University. Department of Biology) ;
Van der Colff, Dewidine (South African National Biodiversity Institute (Cape Town, Sud-àfrica)) ;
Werner, Christiane (University of Freiburg. Ecosystem Physiology) ;
Xu, Xingliang (University of New Hampshire. Department of Natural Resources and the Environment) ;
Yang, Yang (Chinese Academy of Sciences. Kunming Institute of Botany) ;
Yu, Guirui (Chinese Academy of Sciences. Institute of Geographic Sciences and Natural Resources Research) ;
Zmudczyńska-Skarbek, Katarzyna (University of Gdańsk (Gdańsk, Polònia). Department of Vertebrate Ecology and Zoology)
Human societies depend on an Earth system that operates within a constrained range of nutrient availability, yet the recent trajectory of terrestrial nitrogen (N) availability is uncertain. Examining patterns of foliar N concentrations and isotope ratios (δ¹⁵N) from more than 43,000 samples acquired over 37 years, here we show that foliar N concentration declined by 9% and foliar δ¹⁵N declined by 0. [...]
2018 - 10.1038/s41559-018-0694-0
Nature ecology & evolution, Vol. 2, issue 11 (Nov. 2018) , p. 1735-1744
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3 p, 90.0 KB |
Crowther et al. reply
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Crowther, T. W. (Eidgenössische Technische Hochschule Zürich) ;
Machmuller, Megan B. (Colorado State University. Natural Resource Ecology Laboratory) ;
Carey, J. C. (Babson College. Division of Math and Science) ;
Allison, Steven D. (University of California Irvine. Department of Earth System Science) ;
Blair, J. M. (Kansas State University. Division of Biology) ;
Bridgham, Scott (University of Oregon. Institute of Ecology & Evolution) ;
Burton, Andrew (Michigan Technological University. School of Forest Resources & Environmental Science) ;
Dijkstra, Feike A (The University of Sydney) ;
Elberling, B. (University of Copenhagen. Department of Geosciences and Natural Resource Management) ;
Estiarte, Marc (Centre de Recerca Ecològica i d'Aplicacions Forestals) ;
Larsen, Klaus Steenberg (University of Copenhagen. Department of Geosciences & Natural Resource Management) ;
Laudon, H. (Swedish University of Agricultural Sciences. Department of Forest Ecology & Management) ;
Lupascu, M. (National University of Singapore. Department of Geography) ;
Marhan, S. (University of Hohenheim. Institute of Soil Science & Land Evaluation) ;
Mohan, J. (University of Georgia. Odum School of Ecology) ;
Niu, S. (Chinese Academy of Sciences. Institute of Geographic Sciences and Natural Resources Research) ;
Peñuelas, Josep (Centre de Recerca Ecològica i d'Aplicacions Forestals) ;
Schmidt, I. K. (University of Copenhagen. Department of Geosciences & Natural Resource Management) ;
Templer, P. H. (Boston University. Department of Biology) ;
Kröel-Dulay, G. (MTA Ökológiai Kutatóközpont) ;
Frey, Serita D. (University of New Hampshire. Department of Natural Resources & the Environment) ;
Bradford, M. A. (Yale University. School of Forestry & Environmental Studies)
Resposta a l'article següent: Geste, N. van et al. "Predicting soil carbon loss with warming" in Nature (Feb. 2018), vol. 554, E4-E5. DOI 10. 1038/nature25745.
2018 - 10.1038/nature25746
Nature, Vol. 554 (Feb. 2018) , E7-E8
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