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Model namePrimary point of contactEmail for point of contactAcknowledgement wordingPrimary citation for modelSecondary CitationThird Citation
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Biome-BGCWeile Wangweile.wang@gmail.comBiome-BGC code was provided by the Numerical Terradynamic Simulation Group at University of Montant. The computational facilities were provided by NASA Earth Exchange at NASA Ames Research CenterThornton et al. (2002) Modeling and measuring the effects of disburbance history and climate on carbon and water budgets in evergreen needleleaf forests. Agriculture and Forest Meteorology, 113, 185-222.
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CABLEJosh Fisherjbfisher@jpl.nasa.govThe research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration.Kowalczyk, E. A., Y. P. Wang, R. M. Law, H. L. Davies, J. L. McGregor, and G. Abramowitz (2006), The CSIRO atmosphere biosphere land exchange (CABLE) model for use in climate models and as an offline modelRep., CSIRO, Aspendale, Victoria, Australia.
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CLASS-CTEM-N+Altaf Arainarainm@mcmaster.caComputational support provided by SHARCNETS. Huang, M. A. Arain, V. Arora, F. Yuan, J. Brodeur, M. Peichl, 2011. Analysis of nitrogen controls on carbon and water exchanges in a conifer forest using the CLASS-CTEMN+ model, Ecological Modeling, 222(20–22): 3743–3760, http://dx.doi.org/10.1016/j.ecolmodel.2011.09.008.
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CLM4Jiafu Maomaoj@ornl.govThis research is supported in part by the US Department of Energy (DOE), Office of Science, Biological and Environmental Research. Oak Ridge National Laboratory is managed by UT-BATTELLE for DOE under contract DE-AC05-00OR22725. Mao, Jiafu, Peter E. Thornton, Xiaoying Shi, Maosheng Zhao, Wilfred M. Post, 2012: Remote Sensing Evaluation of CLM4 GPP for the Period 2000–09. J. Climate, 25, 5327–5342. doi: http://dx.doi.org/10.1175/JCLI-D-11-00401.1                                                                    Shi, X., Mao J., Thornton P. E., HOFFMAN F. O. R. R. E. S. T. M., & Post W. M. (2011).  The impact of climate, CO2, nitrogen deposition and land use change on simulated contemporary global river flow. Geophysical Research Letters. 38(8). doi: 10.1029/2011GL046773Mao, Jiafu; Shi, Xiaoying; Thornton, Peter E.; Hoffman, Forrest M.; Zhu, Zaichun; Myneni, Ranga B. 2013. "Global Latitudinal-Asymmetric Vegetation Growth Trends and Their Driving Mechanisms: 1982–2009." Remote Sens. 5, no. 3: 1484-1497.
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CLM4-VICMaoyi Huangmaoyi.huang@pnnl.govThis research is supported in part by the US Department of Energy (DOE), Office of Science, Biological and Environmental Research. PNNL is operated for the US DOE by BATTELLE Memorial Institute under congract DE-AC06-76RLO1830. Li, H., M. Huang, M. S. Wigmosta, et al. 2011, Evaluating runoff simulations from the Community Land Model 4.0 using observations from flux towers and a mountainous watershed, J. Geophys. Res., 116, D24120, doi:10.1029/2011JD016276.
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DLEMHanqin Tiantianhan@auburn.eduThe Dynamic Land Ecosystem Model (DLEM) developed in International Center for Climate and Global Change Research, Auburn University has been supported by NASA Interdisciplinary Science Program (IDS), NASA Land Cover/Land Use Change Program (LULUC), NASA Terrestrial Ecology Program, NASA Atmospheric Composition Modeling and Analysis Program (ACMAP), NSF Dynamics of Coupled Natural-Human System Program (CNH), Decadal and Regional Climate Prediction using Earth System Models (EaSM), DOE National Institue for Climate Change Research, USDA AFRI Program and EPA STAR program.Tian, H., X. Xu, C. Lu, M. Liu, W. Ren, G. Chen, J. Melillo, and J. Liu (2011), Net exchanges of CO2, CH4, and N2O between China's terrestrial ecosystems and the atmosphere and their contributions to global climate warming, J. Geophys. Res., 116, G02011, doi:10.1029/2010JG001393. Tian, HQ, G. Chen, C. Zhang, M. Liu, G. Sun, A. Chappelka, W. Ren, X. Xu, C. Lu, S. Pan, H. Chen, D. Hui, S. McNulty, G. Lockaby and E. Vance. 2012. Century-scale response of ecosystem carbon storage to multifactorial global change in the Southern United States. Ecosystems 15(4): 674-694, DOI: 10.1007/s10021-012-9539-x
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ECOSYSRobert Grantrgrant@ualberta.casee model PIGrant, R.F., Barr, A.G., Black, T.A., Margolis, H.A., Dunn, A.L., Metsaranta, J., Wang, S., McCaughey, J.H. and Bourque, C.P.-A. 2009. Interannual variation in net ecosystem productivity of Canadian forests as affected by regional weather patterns – a Fluxnet-Canada synthesis. Agric. For. Met. 149:2022–2039.Grant, R.F., Desai, A. and Sulman, B. 2012. Modelling contrasting responses of wetland productivity to changes in water table depth. Biogeosciences 9: 4215–4231Grant, R.F. Baldocchi, D.D. and Ma, S. 2012. Ecological controls on net ecosystem productivity of a Mediterranean grassland under current and future climates. Agric. For Meteorol. 152: 189– 200.
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GTECDaniel Ricciutoricciutodm@ornl.govsee model PI
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HylandJosh Fisherjbfisher@jpl.nasa.govThe research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration.Levy, P. E., M. G. R. Cannell, and A. D. Friend (2004), Modelling the impact of future changes in climate, CO2 concentration and land use on natural ecosystems and the terrestrial carbon sink, Global Environmental Change, 14, 21-30.
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ISAMAtul Jainjain1@illinois.edusee model PI
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JULESJosh Fisherjbfisher@jpl.nasa.govThe research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration.
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LPJ-wslBenjamin Poulterbenjamin.poulter@lsce.ipsl.frThis work was conducted at LSCE, France, using a modified version of LPJ version 3.1 model, originally made available by the Potsdam Institute for Cliamte Impact Resarch.Sitch S, Smith B, Prentice IC, Arneth A, Bondeau A, Cramer W, Kaplan J, Levis S, Lucht, W, Sykes M, Thonicke K, Venevsky S 2003. Evaluation of ecosystem dynamics, plant geography and terrestrial carbon cycling in the LPJ Dynamic Vegetation Model. Global Change Biology 9: 161–185.Bondeau A, Smith PC, Zaehle S, Schaphoff S, Lucht W, Cramer W, Gerten D, Lotze-Campen H, Müller C, Reichstein M & Smith B (2007) Modelling the role of agriculture for the 20th century global terrestrial carbon balance. Gl Ch Biol 13:679-706,Poulter, B, L Aragao, U Heyder, Gumpenberger, M, F Langerwisch, A Rammig, K Thonicke and W Cramer. 2010. Net biome production of the Amazon Basin in the 21st century. Global Change Biology, 16(7):2062-2075.
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MC1Dominique Bacheletdominique@consbio.orgThe MC1 code is made available on the Oregon State University-Dept of Biological and Ecological Engineering repository: https://envision.bee.oregonstate.edu/svn/mc1. Comments and on-going code updates are available at the google site: https://sites.google.com/site/mc1dgvmusers/. Computational facilities have been provided by NASA Earth Exchange at NASA Ames Research Center. Model runs for the MSTMIP project were performed by Ken Ferschweiler at Conservation Biology Institue, Corvallis (OR).C. Daly, D. Bachelet, J.M. Lenihan, R.P. Neilson, W.J. Parton, and D. Ojima.Dynamic Simulation of Tree-Grass Interactions for Global Change Studies. Ecological Applications 10(2):449-469.Bachelet D., R.P. Neilson, T. Hickler, R.J. Drapek, J. M. Lenihan, M.T. Sykes, B. Smith, S. Sitch, and K. Thonicke. 2003. Simulating past and future dynamics of natural ecosystems in the United States. Global Biogeochemical Cycles 17(2): 1045 DOI:10.1029/2001GB001508.Bachelet D., R.P. Neilson, J. M. Lenihan, and R.J. Drapek. 2001. Climate change effects on vegetation distribution and carbon budget in the U.S. Ecosystems 4:164-185.
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ORCHIDEE-LSCE Gwenaëlle Berthier (for NA simulations); Shushi Peng (for global simulations)Gwenaelle.Berthier@lsce.ipsl.fr or Shushi.Peng@lsce.ipsl.frORCHIDEE is a global land surface model developed at the IPSL institute in France. The
simulations were performed with the support of the GhG Europe FP7 grant with computing facilities provided by "LSCE" or "TGCC".
Krinner, G., Viovy, N., Noblet-Ducoudre, N. de, Ogee, J., Polcher, J., Friedlingstein, P., Ciais, P., Sitch, S., and Prentice, I. C (2005). A dynamic global vegetation model for studies of the coupled atmosphere-biosphere system. Global Biogeochem. Cycles, 19, GB1015.
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ORCHIDEE-JPLJosh Fisherjbfisher@jpl.nasa.govThe research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration.Krinner, G., Viovy, N., Noblet-Ducoudre, N. de, Ogee, J., Polcher, J., Friedlingstein, P., Ciais, P., Sitch, S., and Prentice, I. C (2005). A dynamic global vegetation model for studies of the coupled atmosphere-biosphere system. Global Biogeochem. Cycles, 19, GB1015.
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TEM6Dan Hayesdaniel.j.hayes@maine.eduThis research is supported in part by the US Department of Energy (DOE), Office of Science, Biological and Environmental Research. Oak Ridge National Laboratory is managed by UT-BATTELLE for DOE under contract DE-AC05-00OR22725. Hayes, D.J., A.D. McGuire, D.W. Kicklighter, K.R. Gurney, T.J. Burnside,
and J.M. Melillo (2011), Is the northern high latitude land-based CO2
sink weakening? Global Biogeochemical Cycles, 25(3), GB3018,
doi:10.1029/2010gb003813.

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SiBCASAKevin Schaeferkevin.schaefer@nsidc.orgsee model PISchaefer, K., G. J. Collatz, P. Tans, A. S. Denning, I. Baker, J. Berry, L. Prihodko, N. Suits, and A. Philpott (2008), Combined Simple Biosphere/Carnegie-Ames-Stanford Approach terrestrial carbon cycle model, J. Geophys. Res., 113, G03034, doi:10.1029/2007JG000603.; Schaefer, K., T. Zhang, A. G. Slater, L. Lu, A. Etringer,
and I. Baker (2009), Improving simulated soil temperatures and soil freeze/thaw
at high-latitude regions in the Simple Biosphere/Carnegie-Ames-Stanford
Approach model, J. Geophys. Res., 114, F02021, doi:10.1029/2008JF001125.
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SiB3-JPLJosh Fisherjbfisher@jpl.nasa.govThe research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration.Baker, I. T., L. Prihodko, A. S. Denning, M. Goulden, S. Miller, and H. R. da Rocha (2008), Seasonal drought stress in the Amazon: Reconciling models and observations, J. Geophys. Res., 113(G1), G00B01.
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TRIPLEX-GHGChanghui Pengpeng.changhui@uqam.caTRIPLEX-GHG was developed at University of Quebex at Montreal (Canada) and Northwest A&F University (China) and has been supported by the National Basic Research Program of China (2013CB956602) and the National Science and Engineering Research Council of Canada (NSERC) Discover Grant.Peng, C.H., Zhu, Q.A and H. Chen, 2011. Integrating greenhouse gas emission processes into a dynamic global vegetation model: TRIPLEX-GHG model development and testing, In: procceding of ISEM 2011 Conference, pp76Peng et al (2013), in preparation
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VEGASNing Zengzeng@atmos.umd.edusee model PIZeng, N. et al. 2005: Terrestrial mechanisms of interannual CO2 variability, Global Biogeochemical Cycles, 19, GB1016, doi:10.1029/2004GB002273.Zeng et al. (2013), in preparation;
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VISITAkihiko Itoz060507@gmail.comVISIT was developed at the National Institute of Environmental Studies, Japan. This work was mostly conducted during a visiting stay at Oak Ridge National LaboratoryIto, A. (2010), Changing ecophysiological processes and carbon budget in East Asian ecosystems under near-future changes in climate: Implications for long-term monitoring from a process-based model, J.Plant Res., 123, 577-588, doi:10.1007/s10265-009-0305-x.

Ito, A. (2008), The regional carbon budget of East Asia simulated with a terrestrial ecosystem model and validated using AsiaFlux data, Agricultural and Forest Meteorology, 148(5), 738-747, doi:10.1016/j.agrformet.2007.12.007.

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CABLEFrancesc Montanefmontane@email.arizona.edusee model PIKowalczyk, E. A., Y. P. Wang, R. M. Law, H. L. Davies, J. L. McGregor, and G. Abramowitz (2006), The CSIRO atmosphere biosphere land exchange (CABLE) model for use in climate models and as an offline modelRep., CSIRO, Aspendale, Victoria, Australia.
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