Showing papers by "Karina V. R. Schäfer published in 2019"
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University of British Columbia1, Stanford University2, Goddard Space Flight Center3, University of Maryland, College Park4, Stockholm University5, Commonwealth Scientific and Industrial Research Organisation6, Tuscia University7, Lawrence Berkeley National Laboratory8, University of California, Berkeley9, University of Helsinki10, Finnish Meteorological Institute11, Ohio State University12, University of Waikato13, Michigan State University14, Chinese Academy of Sciences15, University of Wisconsin-Madison16, University of Alaska Fairbanks17, University of Copenhagen18, Max Planck Society19, McMaster University20, Hokkaido University21, United States Forest Service22, Shinshu University23, Karlsruhe Institute of Technology24, United States Geological Survey25, University of Hamburg26, Texas A&M University27, State University of New York College of Environmental Science and Forestry28, Swedish University of Agricultural Sciences29, San Diego State University30, Agricultural Research Service31, Northern Arizona University32, University of Arkansas33, Seoul National University34, University of Potsdam35, Rutgers University36, University of Eastern Finland37, Université de Montréal38, Osaka Prefecture University39, University of Delaware40, University of Innsbruck41
TL;DR: The FLUXNET coordination network for ecosystem-scale methane (CH4) measurements at 60 sites globally, organized by the Glob... as discussed by the authors describes the formation of, and initial results for, a new FLUXnet coordination network.
Abstract: This paper describes the formation of, and initial results for, a new FLUXNET coordination network for ecosystem-scale methane (CH4) measurements at 60 sites globally, organized by the Glob...
116 citations
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TL;DR: The traditional understory addition approach could not fully reflect the effects of increased N deposition on the canopy-associated transpiration process indicated by the different responses of Js and WUEi to canopy and understory N addition, and exaggerated its influences induced by the variation of soil chemical properties.
30 citations
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TL;DR: In this article, the effects of restoration, net ecosystem exchange (NEE) was measured with the eddy covariance technique in three urban tidal brackish wetland sites over three years: an organic matter amended restored site, a non-amended restored site and a natural (nonrestored) wetland site.
16 citations
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TL;DR: In this article, the authors modified the 4C-A model to incorporate the co-limitation of Rubisco activity and RuBP regeneration into the modified 4C -A model, which is a multi-level assimilation model that utilizes sap-flux measurements.
5 citations