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environmental sciences (56) 56
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or a reactive propulsive thrust, not otherwise provided for (11) 11
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general tagging of cross-sectional technologies spanning over several sections of the ipc (10) 10
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1. Full Text Evaluation of 11 terrestrial carbon–nitrogen cycle models against observations from two temperate Free-Air CO2 Enrichment studies
by Sönke Zaehle and Belinda E. Medlyn and Martin G. De Kauwe and Anthony P. Walker and Michael C. Dietze and Thomas Hickler and Yiqi Luo and Ying-Ping Wang and Bassil El-Masri and Peter Thornton and Atul Jain and Shusen Wang and David Warlind and Ensheng Weng and William Parton and Colleen M. Iversen and Anne Gallet-Budynek and Heather McCarthy and Adrien Finzi and Paul J. Hanson and I. Colin Prentice and Ram Oren and Richard J. Norby and MERGE - ModElling the Regional and Global Earth system and Dept of Physical Geography and Ecosystem Science and Lund University and Lunds universitet and Institutionen för naturgeografi och ekosystemvetenskap
New Phytologist, ISSN 0028-646X, 5/2014, Volume 202, Issue 3, pp. 803 - 822
We analysed the responses of 11 ecosystem models to elevated atmospheric [CO ] (eCO ) at two temperate forest ecosystems (Duke and Oak Ridge National... 
Full papers | Terrestrial ecosystems | Ecosystem models | Carbon dioxide | Vegetation | Plants | Forest ecosystems | Modeling | Organic soils | Forest soils | Soil ecology | plant physiology | carbon (C) storage | ecosystem modelling | Free‐Air CO2 Enrichment (FACE) | model evaluation | elevated CO2 | CO2 fertilization | nitrogen (N) limitation | LIGHT-USE EFFICIENCY | PLANT CARBON | PINE FOREST | Enrichment (FACE) | CANOPY PRODUCTION | SOIL CARBON | PLANT SCIENCES | FOREST PRODUCTIVITY | ATMOSPHERIC CO2 | Free-Air CO2 | PHOTOSYNTHESIS | CLIMATE | Nitrogen Cycle | Carbon - metabolism | Nitrogen - metabolism | Carbon Cycle | Carbon Dioxide - metabolism | Time Factors | Models, Biological | Ecosystem | Atmosphere - chemistry | Air | Biomass | Plant physiology | Biogeochemical cycles | Analysis | Nitrification | Atmospheric carbon dioxide | Free-Air CO2 Enrichment (FACE) | Research | limitation | nitrogen (N) | CO2 | Physical Geography | Geovetenskap och miljövetenskap | Naturvetenskap | elevated | Naturgeografi | Natural Sciences | Earth and Related Environmental Sciences
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2. Full Text Global Carbon Budget 2018
by Le Quere, Corinne and Anew, Robbie M and Friedlingstein, Pierre and Sitch, Stephen and Hauck, Judith and Pongratz, Julia and Pickers, Penelope A and Korsbakken, Jan Ivar and Peters, Glen P and Canadell, Josep G and Arneth, Almut and Arora, Vivek K and Barbero, Leticia and Bastos, Ana and Bopp, Laurent and Chevallier, Frederic and Chini, Louise P and Ciais, Philippe and Doney, Scott C and Gkritzalis, Thanos and Goll, Daniel S and Harris, Ian and Haverd, Vanessa and Hoffman, Forrest M and Hoppema, Mario and Houghton, Richard A and Hurtt, George and Ilyina, Tatiana and Jain, Atul K and Johannessen, Truls and Jones, Chris D and Kato, Etsushi and Keeling, Ralph F and Goldewijk, Kees Klein and Landschuetzer, Peter and Lefevre, Nathalie and Lienert, Sebastian and Liu, Zhu and Lombardozzi, Danica and Metzl, Nicolas and Munro, David R and Nabel, Julia E. M. S and Nakaoka, Shin-ichiro and Neill, Craig and Olsen, Are and Ono, Tsueno and Patra, Prabir and Peregon, Anna and Peters, Wouter and Peylin, Philippe and Pfeil, Benjamin and Pierrot, Denis and Poulter, Benjamin and Rehder, Gregor and Resplandy, Laure and Robertson, Eddy and Rocher, Matthias and Roedenbeck, Christian and Schuster, Ute and Schwinger, Jorg and Seferian, Roland and Skjelvan, Ingunn and Steinhoff, Tobias and Sutton, Aienne and Tans, Pieter P and Tian, Hanqin and Tilbrook, Bronte and Tubiello, Francesco N and van der Laan-Luijkx, Ingrid T and van der Werf, Guido R and Viovy, Nicolas and Walker, Anthony P and Wiltshire, Anew J and Wright, Rebecca and Zaehle, Soenke and Zheng, Bo and Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Earth System Science Data, ISSN 1866-3508, 12/2018, Volume 10, Issue 4, pp. 2141 - 2194
Accurate assessment of anthropogenic carbon dioxide (CO2) emissions and their redistribution among the atmosphere, ocean, and terrestrial biosphere - the... 
FLUX VARIABILITY | ATMOSPHERIC CO2 | FIRE EMISSIONS | OCEAN | ANTHROPOGENIC CO2 UPTAKE | DIOXIDE EMISSIONS | DATA ASSIMILATION | MODEL | LAND-COVER CHANGE | LEAF-AREA INDEX | GEOSCIENCES, MULTIDISCIPLINARY | METEOROLOGY & ATMOSPHERIC SCIENCES | Environmental aspects | Forecasts and trends | Emissions (Pollution) | Atmospheric carbon dioxide | Budget | Carbon cycle (Biogeochemistry) | Global temperature changes | Uncertainty | Policies | Growth rate | Methodology | Carbon dioxide emissions | Environmental policy | Atmospheric models | Variability | Terrestrial environments | Carbon dioxide | Carbon dioxide in the atmosphere | Components | Ocean models | Biosphere | Carbon capture and storage | Budgets | Carbon dioxide flux | Building management systems | Deforestation | Energy flow | Statistical analysis | Oceans | Data | Climatic changes | Fluxes | Temperature (air-sea) | Carbon | Land use | Anthropogenic factors | Fossils | Emissions | Carbon cycle | Climate change | Atmosphere | Data sets | Carbon dioxide concentration | Documents | Tropical environments | Models | Physics | Geophysics | GEOSCIENCES | ENVIRONMENTAL SCIENCES | WIMEK | Meteorologie en Luchtkwaliteit | Meteorology and Air Quality
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3. Full Text Global Carbon Budget 2017
by Le Quéré, Corinne and Anew, Robbie M and Friedlingstein, Pierre and Sitch, Stephen and Pongratz, Julia and Manning, Anew C and Ivar Korsbakken, Jan and Peters, Glen P and Canadell, Josep G and Jackson, Robert B and Boden, Thomas A and Tans, Pieter P and Anews, Oliver D and Arora, Vivek K and Bakker, Dorothee C.E and Barbero, Leticia and Becker, Meike and Betts, Richard A and Bopp, Laurent and Chevallier, Frédéric and Chini, Louise P and Ciais, Philippe and Cosca, Catherine E and Cross, Jessica and Currie, Kim and Gasser, Thomas and Harris, Ian and Hauck, Judith and Haverd, Vanessa and Houghton, Richard A and Hunt, Christopher W and Hurtt, George and Ilyina, Tatiana and Jain, Atul K and Kato, Etsushi and Kautz, Markus and Keeling, Ralph F and Klein Goldewijk, Kees and Körtzinger, Arne and Landschützer, Peter and Lefèvre, Nathalie and Lenton, Anew and Lienert, Sebastian and Lima, Ivan and Lombardozzi, Danica and Metzl, Nicolas and Millero, Frank and Monteiro, Peo M.S and Munro, David R and Nabel, Julia E.M.S and Nakaoka, Shin Ichiro and Nojiri, Yukihiro and Antonio Padin, X and Peregon, Anna and Pfeil, Benjamin and Pierrot, Denis and Poulter, Benjamin and Rehder, Gregor and Reimer, Janet and Rödenbeck, Christian and Schwinger, Jörg and Séférian, Roland and Skjelvan, Ingunn and Stocker, Benjamin D and Tian, Hanqin and Tilbrook, Bronte and Tubiello, Francesco N and Laan-Luijkx, Ingrid T.Vander and Werf, Guido R.Vander and van Heuven, Steven M.A.C and Viovy, Nicolas and Vuichard, Nicolas and Walker, Anthony P and Watson, Anew J and Wiltshire, Anew J and Zaehle, Sönke and Zhu, Dan and Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Earth System Science Data, ISSN 1866-3508, 03/2018, Volume 10, Issue 1, pp. 405 - 448
Accurate assessment of anthropogenic carbon dioxide (CO2) emissions and their redistribution among the atmosphere, ocean, and terrestrial biosphere-the "global... 
Earth and Planetary Sciences(all) | FLUX VARIABILITY | ATMOSPHERIC CO2 | GEOSCIENCES, MULTIDISCIPLINARY | FIRE EMISSIONS | OCEAN | EARTH SYSTEM MODEL | ANTHROPOGENIC CO2 UPTAKE | DIOXIDE EMISSIONS | METEOROLOGY & ATMOSPHERIC SCIENCES | ENVIRONMENT SIMULATOR JULES | LAND-COVER CHANGE | CYCLE | Measurement | Environmental aspects | Atmospheric carbon dioxide | Uncertainty | Policies | Carbon dioxide emissions | Growth | Environmental policy | Atmospheric models | Terrestrial environments | Carbon dioxide | Land cover | Carbon dioxide in the atmosphere | El Nino | Biosphere | Carbon capture and storage | Budgets | Building management systems | Deforestation | Energy flow | Statistical analysis | Oceans | Fossil fuels | Data | Climatic changes | El Nino phenomena | Temperature (air-sea) | Carbon | Land use | Anthropogenic factors | Emissions | Carbon cycle | Climate change | Atmosphere | Data sets | Carbon dioxide concentration | Documents | Concrete | Future climates | Physics | Geophysics | ENVIRONMENTAL SCIENCES | Meteorology and Air Quality | Bacteriologie & Epidemiologie | Bacteriology & Epidemiology | CVI Bacteriology and Epidemiology | WIMEK | Meteorologie en Luchtkwaliteit | CVI Bacteriologie en Epidemiologie
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4. Full Text Carbon benefits of anthropogenic reactive nitrogen offset by nitrous oxide emissions
by Zaehle, Sönke and Ciais, Philippe and Friend, Andrew D and Prieur, Vincent
Nature Geoscience, ISSN 1752-0894, 2011, Volume 4, Issue 9, pp. 601 - 605
Additions of reactive nitrogen to terrestrial ecosystems-primarily through fertilizer application and atmospheric deposition-have more than doubled since 1860... 
GEOSCIENCES, MULTIDISCIPLINARY | N2O | SINKS | TRENDS | DEPOSITION | CYCLE | Terrestrial ecosystems | Nitrous oxide emissions | Carbon dioxide | Human factors | Nitrogen | Anthropogenic factors | Emissions | Atmospheric pollution models | Soil | Biosphere | Nitrous oxide | Nitrogen deposition | Radiative forcing
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5. Full Text Changes in Climate and Land Use Have a Larger Direct Impact than Rising CO₂ on Global River Runoff Trends
by Shilong Piao and Pierre Friedlingstein and Philippe Ciais and Nathalie de Noblet-Ducoudré and David Labat and Sönke Zaehle
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 9/2007, Volume 104, Issue 39, pp. 15242 - 15247
The significant worldwide increase in observed river runoff has been tentatively attributed to the stomatal "antitranspirant" response of plants to rising... 
Agricultural runoff | Climate change | Simulations | Transpiration | Atmospheric models | Vegetation | Carbon dioxide | Climate models | Surface runoff | Atmospherics | Atmospheric CO | Land cover change | Water cycle | COVER | ELEVATED CO2 | MULTIDISCIPLINARY SCIENCES | SENSITIVITY | atmospheric CO2 | VEGETATION FEEDBACKS | water cycle | DATABASE | HYDROLOGICAL CYCLE | PRODUCTIVITY | land cover change | SCALE | CARBON-DIOXIDE | climate change | WATER | Carbon Dioxide - chemistry | Climate | Greenhouse Effect | Ecology | Rivers | Water Movements | Rain | Time Factors | Atmosphere | Computer Simulation | Ecosystem | Water - chemistry | Conservation of Natural Resources | Earth Sciences | Sciences of the Universe | Physical Sciences
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6. Full Text Recent decline in the global land evapotranspiration trend due to limited moisture supply
by Jung, Martin and Reichstein, Markus and Ciais, Philippe and Seneviratne, Sonia I and Sheffield, Justin and Goulden, Michael L and Bonan, Gordon and Cescatti, Alessandro and Chen, Jiquan and De Jeu, Richard and Dolman, A. Johannes and Eugster, Werner and Gerten, Dieter and Gianelle, Damiano and Gobron, Nadine and Heinke, Jens and Kimball, John and Law, Beverly E and Montagnani, Leonardo and Mu, Qiaozhen and Mueller, Brigitte and Oleson, Keith and Papale, Dario and Richardson, Andrew D and Roupsard, Olivier and Running, Steve and Tomelleri, Enrico and Viovy, Nicolas and Weber, Ulrich and Williams, Christopher and Wood, Eric and Zaehle, Sönke and Zhang, Ke
Nature, ISSN 0028-0836, 10/2010, Volume 467, Issue 7318, pp. 951 - 954
More than half of the solar energy absorbed by land surfaces is currently used to evaporate water(1). Climate change is expected to intensify the hydrological... 
IMPACT | PRODUCTS | MULTIDISCIPLINARY SCIENCES | BIOSPHERE | VALIDATION | CLIMATE | CYCLE | Plant Transpiration - physiology | Reproducibility of Results | Uncertainty | History, 21st Century | Artificial Intelligence | History, 20th Century | Soil - analysis | Global Warming - statistics & numerical data | Water Cycle | Volatilization | Humidity | Atmosphere - chemistry | Fresh Water - analysis | Seasons | Environmental aspects | Research | Evapotranspiration | Meteorology | Climate change | Temperature | Trends | Estimates | Atmosphere | Climatology | Earth Sciences | Sciences of the Universe | Environmental Sciences | Global Changes
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7. Full Text Terrestrial nitrogen feedbacks may accelerate future climate change
by Zaehle, Sönke and Friedlingstein, Pierre and Friend, Andrew D
Geophysical Research Letters, ISSN 0094-8276, 01/2010, Volume 37, Issue 1, p. n/a
The effects of nitrogen (N) constraints on future terrestrial carbon (C) dynamics are investigated using the O‐CN land surface model. The model's responses to... 
terrestrial N cycle | carbon‐climate feedback | ecosystem manipulation experiments | SEQUESTRATION | RESPONSES | CARBON-CYCLE FEEDBACKS | GEOSCIENCES, MULTIDISCIPLINARY | ELEVATED CO2 | TEMPERATURE | FOREST ECOSYSTEMS | DEPOSITION | RAIN-FOREST | ATMOSPHERE | LIMITATION | Earth | Climate change | Geobiology | Nitrogen | Carbon
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8. Full Text The role of stoichiometric flexibility in modelling forest ecosystem responses to nitrogen fertilization
by Johannes Meyerholt and Sönke Zaehle
New Phytologist, ISSN 0028-646X, 12/2015, Volume 208, Issue 4, pp. 1042 - 1055
The response of the forest carbon (C) balance to changes in nitrogen (N) deposition is uncertain, partly owing to diverging representations of N cycle... 
Full papers | carbon‐nitrogen cycle coupling | ecosystem modelling | plant stoichiometry | fertilization | forest carbon balance | nitrogen cycle | Carbon-nitrogen cycle coupling | Nitrogen cycle | Fertilization | Forest carbon balance | Ecosystem modelling | Plant stoichiometry | carbon-nitrogen cycle coupling | ELEVATED CO2 | GLOBAL PATTERNS | PHOSPHORUS LIMITATION | CARBON-CYCLE | TERRESTRIAL ECOSYSTEMS | ALLOCATION | PLANT SCIENCES | ATMOSPHERIC CO2 | AIR CO2 ENRICHMENT | SOIL | CLIMATE | Nitrogen Cycle | Carbon - metabolism | Trees - metabolism | Forests | Nitrogen - metabolism | Carbon Cycle | Plant Roots - metabolism | Plant Leaves - metabolism | Models, Biological | Soil - chemistry | Wood - metabolism | Fertilizers | Ecosystems | Analysis | Forest ecology | Nitrification | Environmental aspects | Models | Biogeochemical cycles
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9. Full Text Modelling the role of agriculture for the 20th century global terrestrial carbon balance
by BONDEAU, ALBERTE and SMITH, PASCALLE C and ZAEHLE, SÖNKE and SCHAPHOFF, SIBYLL and LUCHT, WOLFGANG and CRAMER, WOLFGANG and GERTEN, DIETER and LOTZE‐CAMPEN, HERMANN and MÜLLER, CHRISTOPH and REICHSTEIN, MARKUS and SMITH, BENJAMIN and Dept of Physical Geography and Ecosystem Science and Lund University and Lunds universitet and Institutionen för naturgeografi och ekosystemvetenskap
Global Change Biology, ISSN 1354-1013, 03/2007, Volume 13, Issue 3, pp. 679 - 706
In order to better assess the role of agriculture within the global climate‐vegetation system, we present a model of the managed planetary land surface,... 
agriculture | crop functional type | global biogeochemistry | Global biogeochemistry | Cropfunctional type | Agriculture | VEGETATION MODEL | CLIMATE-CHANGE | BIOSPHERE MODEL | SOIL CARBON | SIMULATION-MODEL | ENVIRONMENTAL SCIENCES | ORGANIC-CARBON | ECOSYSTEM MODELS | ECOLOGY | CROP PRODUCTIVITY | BIODIVERSITY CONSERVATION | LAND-COVER CHANGE | PRODUCTION SYSTEMS | Water | Climate change | Biogeochemistry | Simulation | Crops | Carbon | Land use | Environmental and Society | Environmental Sciences | Naturvetenskap | Physical Geography | Naturgeografi | Natural Sciences | Geovetenskap och miljövetenskap | Earth and Related Environmental Sciences
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