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This Wiki covers the summer 2014 version of the IMAGE model. A dedicated description can be found on the IMAGE 3.0 webpage.

Alcamo J, Döll P‚ Henrichs T‚ Kaspar F‚ Lehner B‚ Rösch T‚ Siebert S (2003). Development and testing of the Water. GAP 2 global model of water use and availability. Hydrological Sciences‚ 48(3)‚ pp.317-337.

Alexandratos N and Bruinsma J (2012). World agriculture towards 2030/2050: the 2012 revision. FAO, www.fao.org/economic/esa.

Argotte L and Epple D. (1990). Learning curves in manufacturing. Science 247, pp. 920-- 924.

Arets EJMM, van der Meer PJ, Verwer CC, Hengeveld GM, Tolkamp GW, Nabuurs GJ and van Oorschot M (2011). Global wood production : assessment of industrial round wood supply from forest management systems in different global regions, Alterra, part of Wageningen University and Research Centre, Wageningen.

Armington PS. (1969). A theory of demand for products distinguished by place of production. IMF Staff papers 16, pp. 159--176.

Azar C and Dowlatabadi H. (1999). A review of technical change in assessment of climate policy. Annual Review of Energy and the Environment 24, pp. 513--544.

Banse M, van Meijl H, Tabeau A and Woltjer G. (2008). Will EU biofuel policies affect global agricultural markets? European Review of Agricultural Economics 35, pp. 117--141.

Britz W. (2003). Major enhancements of @2030 Modelling system, www.ilr1.uni-bonn.de/agpo/rsrch/at2030/@2030_2003.doc.

Brown C (2000). The global outlook for future wood supply from forest plantations, FAO (ed.) Working Paper. FAO, Rome www.fao.org/DOCREP/003/X8423E/X8423E00.htm, ftp://ftp.fao.org/docrep/fao/006/AC133E/AC133E00.pdf.

Bruinsma J. (ed.). (2003). World agriculture: towards 2015/2030. An FAO perspective, Earthscan, London.

Carle J and Holmgren P. (2008). Wood from Planted Forests. Forest Products Journal 58(12), pp. 6--18.

Chateau J, Dellink R, Lanzi E and Magne B (2013). An overview of the OECD ENV-Linkages model – version 3OECD Environment Working paper 42. OECD, OECD Publishing, Paris, www.oecd.org/environment/modelling.

Criqui P, Kitous A, Berk MM, Den Elzen MGJ, Eickhout B, Lucas P, Van Vuuren DP, Kouvaritakis N and Vanregemorter D (2003). Greenhouse gas reduction pathways in the UNFCCC Process up to 2025 - Technical Report. CNRS-IEPE, Grenoble, http://europa.eu.int/comm/environment/climat/pdf/pm_techreport2025.pdf.

Daioglou V, Van Ruijven BJ and Van Vuuren DP. (2012). Model projections for household energy use in developing countries. Energy 37(1), pp. 601--615, DOI: 10.1016/j.energy.2011.10.044.

Davies, EGR, Kyle P and Edmonds JA (2013). An integrated assessment of global and regional water demands for electricity generation to 2095.. Advances in Water Resources‚ 52‚ pp.296-313‚ doi: http://dx.doi.org/DOI: 10.1016/j.advwatres.2012.11.020.

De Vries HJM, Van Vuuren DP, Den Elzen MGJ and Janssen MA (2001). The targets image energy model regional (TIMER) -Technical documentation. PBL Netherlands Environmental Assessment Agency (formerly MNP), Bilthoven/The Hague www.pbl.nl/en.

De Vries BJM, Van Vuuren DP and Hoogwijk MM. (2007). Renewable energy sources: Their global potential for the first-half of the 21st century at a global level: An integrated approach. Energy Policy 35(4), pp. 2590--2610.

Denman KL, Brasseur G, Chidthaisong A, Ciais P, Cox PM, Dickinson RE, Hauglustaine D, Heinze C, Holland E, Jacob D, Lohmann U, Ramachandran S, da Silva Dias PL, Wofsy SC and Zhang X. (2007). Couplings Between Changes in the Climate System and Biogeochemistry. In: S. Solomon, D. Qin, M. Manning, Z. Chen, M. Marquis, K.B. Averyt, M. Tignor and H.L. Miller (eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change Cambridge University Press, Cambridge (UK) / New York, pp.

Eickhout B, Van Meijl H, Tabeau A and Van Rheenen R. (2007). Economic and ecological consequences of four European land use scenarios. Land Use Policy 24(3), pp. 562--575.

FAO (2001). Plantations and wood energy; based on the work of Donald J. Mead, Food and Agriculture Organization of the United Nations, Rome.

FAO (2008). Forests and energy; Key issues Food and Agriculture Organization of the United Nations, Rome.

FAO (2010). Global Forest Resources Assessment 2010, Food and Agriculture Organization of the United Nations, Rome, www.fao.org/forestry/fra/fra2010/en/.

FAO (2012). FRA 2015, Forest Futures Methodology, Food and Agriculture Organisation of the United Nations, Rome, www.fao.org/docrep/017/aq073e/aq073e00.pdf.

FAO (2013). FAOSTAT database collections. Food and Agriculture Organization of the United Nations, (accessed: 22-4-2013), http://faostat.fao.org.

Girod B, Van Vuuren DP and Deetman S. (2012). Global travel within the 2 degree climate target. Energy Policy 45, pp. 152--166, DOI: 10.1016/j.enpol.2012.02.008.

Grubler A, Nakicenovic N and Victor DG. (1999). Modeling technological change: Implications for the global environment. Annual Review of Energy and the Environment 24, pp. 545--569.

Helming J, Jansen S, van Meijl H and Tabeau A (2010). European farming and post-2013 CAP measures. LEI, part of Wageningen University and Research Centre, The Hague.

Hendriks, C., Graus, W. and van Bergen, F., (2002a). Global carbon dioxide storage potential and costs. Ecofys, Utrecht.

Hendriks, C., Harmelink, M., Hofmans, Y. and de Jager, D., (2002b). Climate neutral energy carriers in the regulatory energy tax. Ecofys, Utrecht.

Hendriks C, Harmelink M, Burges K and Ransel K (2004). Power and heat productions: plant developments and grid losses. Ecofys, Utrecht.

Hertel TW (1997). Global trade analysis: modeling and applications Cambridge University Press, Cambridge (UK) / New York.

Huang H, van Tongeren F, Dewbre F and van Meijl H. (2004). A new representation of agricultural production technology in GTAP. The Seventh Annual Conference on Global Economic Analysis, Washington, D.C.

Hoogwijk M. (2004). On the global and regional potential of renewable energy sources, PhD thesis, Utrecht University, Utrecht, The Netherlands.

IPCC (2006). IPCC Guidelines for national greenhouse gas inventories, S. Eggleston, L. Buendia, K. Miwa, T. Ngara and K. Tanabe (eds.). Prepared by the National Greenhouse Gas Inventories Programme, IGES, Japan, www.ipcc-nggip.iges.or.jp/public/2006gl/index.html.

IPCC (2007). Climate Change 2007 - The physical science basis: contribution of working group I to the fourth assessment report of the IPCC, S. Solomon, D. Qin, M. Manning, Z. Chen, M. Marquis, K.B. Averyt, M. Tignor and H.L. Miller (eds.). Cambridge University Press, Cambridge (UK) / New York.

Isaac M and Van Vuuren DP. (2009). Modeling global residential sector energy demand for heating and air conditioning in the context of climate change. Energy Policy 37, pp.507--521.

Kallio AMI, Moiseyev A and Solberg B (2004). The Global Forest Sector Model EFIGTM - the model structureTechnical Report 15. EFI, www.efi.int/files/attachments/publications/ir_15.pdf.

Lutz W and KC S. (2010). Dimensions of global population projections: what do we know about future population trends and structures? Philosophical Transactions of the Royal Society B: Biological Sciences 365(1554), pp. 2779--2791, DOI: 10.1098/rstb.2010.0133.

Meinshausen M, Raper SCB and Wigley TML. (2011a). Emulating coupled atmosphere ocean and carbon cycle models with a simpler model, MAGICC6 – Part 1: Model description and calibration. Atmospheric Chemistry and Physics 11(4), pp. 1417--1456, DOI: 10.5194/acp-11-1417-2011.

Meinshausen M, Wigley TML and Raper SCB. (2011b). Emulating atmosphere-ocean and carbon cycle models with a simpler model, MAGICC6 - Part 2: Applications. Atmospheric Chemistry and Physics 11(4), pp. 1457--1471.

Mulders FMM, Hettelar JMM and Van Bergen F (2006). Assessment of the global fossil fuel reserves and resources for TIMER. TNO Built Environment and Geosciences, Utrecht.

Myhre G, D. Shindell, F.-M. Breon, W. Collins, J. Fuglestvedt, J. Huang, D. Koch, J.-F. Lamarque, D. Lee, B. Mendoza, T. Nakajima, A. Robock, G. Stephens, T. Takemura and H. Zhang. (2013). Anthropogenic and Natural Radiative Forcing. In: T.F. Stocker, D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex and P.M. Midgley (eds.), Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge (UK) / New York, pp.

New M, Hulme M and Jones P (1997). A 1961-1990 mean monthly climatology of global land areas. Climate Research Unit, Norwich.

Overmars KP, Stehfest E, Tabeau A, van Meijl H, Mendoza Beltran A and Kram T. (accepted). Estimating the costs of reducing CO2 emissions via avoided deforestation, using integrated assessment modelling. Land Use Policy, available online.

Prentice IC‚ Bondeau A‚ Cramer W‚ Harrison SP‚ Hickler T‚ Lucht W‚ Sitch S‚ Smith B‚ Sykes MT (2007). Dynamic global vegetation modelling: quantifying terrestrial ecosystem responses to large-scale environmental change. In: Canadell J.D.‚ Pataki E.‚ Pitelka L.F. (eds.)‚ Terrestrial Ecosystems in a Changing World. Springer-Verlag‚ Berlin‚ pp.175-192.

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Thomson AM, Calvin KV, Smith SJ, Kyle GP, Volke A, Patel P, Delgado-Arias S, Bond- Lamberty B, Wise MA, Clarke LE and Edmonds JA. (2011). RCP4.5: A pathway for stabilization of radiative forcing by 2100. Climatic Change, pp. 77--94, DOI: 10.1007/s10584-011-0151-4.

UN (2013). World Population Prospects, The 2012 Revision, Volume I: Comprehensive Tables. Department of Economic and Social Affairs, Population Division, http://esa.un.org/unpd/wpp/Documentation/pdf/WPP2012_Volume-I_Comprehensive-Tables.pdf.

Van Meijl H, van Rheenen T, Tabeau A and Eickhout B. (2006). The impact of different policy environments on agricultural land use in Europe. Agriculture, Ecosystems & Environment 114(1), pp. 21--38.

Van Ruijven B, Van Vuuren DP and De Vries B. (2007). The potential role of hydrogen in energy systems with and without climate policy. International Journal of Hydrogen Energy 32(12), pp. 1655--1672.

Van Ruijven BJ, Van Vuuren DP, De Vries HJM, Isaac M, van der Sluijs JP, Lucas PL and Balachandra P. (2011). Model projections for household energy use in India. Energy Policy 39, pp. 7747--7761, DOI: 10.1016/j.enpol.2011.09.021.

Van Ruijven BJ, Van Vuuren DP, Boskaljon W, Neelis M, Saygin D and Patel MK. (2013). Model-based projections for long-term global energy use and CO2 emissions from the steel and cement industries. Energy Policy (in review).

Van Vuuren DP. (2007a). Energy systems and climate policy: Long-term scenarios for an uncertain future, PhD thesis, Utrecht University, Utrecht.

Van Vuuren DP, Lucas P and Hilderink H. (2007b). Downscaling drivers of global environmental change. Enabling use of global SRES scenarios at the national and grid levels. Global Environmental Change 17, pp. 114--130, DOI: 10.1016/j. gloenvcha.2006.04.004.

Von Lampe M, Willenbockel D, Calvin K, Fujimori S, Hasegawa T, Havlik P, Kyle P, Lotze- Campen H, Mason d’Croz D, Nelson G, Sands R, Schmitz C, Tabeau A, Valin H, van der Mensbrugghe D and van Meijl H. (2014). Why do global long-term scenarios for agriculture differ? An overview of the AgMIP Global Economic Model Intercomparison. Agricultural Economics, Special Issue on Global Model Intercomparison 45(1), pp. 1574--0862, DOI: 10.1111/agec.12086.

Wene CO (2000). Experience curves for energy technology policy. OECD/IEA, Paris.

WMO/UNEP (2013). Integrated assessment of black carbon and tropospheric ozone. WMO/UNEP.

Woltjer GB, Kuiper M and van Meijl H. (2011). Chapter 2: MAGNET. In: The agricultural world in equations: An overview of the main models used at LEI. LEI, part of Wageningen University and Research Centre, The Hague, pp.

Woltjer GB, Kuiper M, Kavallari A, van Meijl H, Powell J, Rutten M, Shutes L and Tabeau A (2014). The Magnet Model – Module description. LEI, part of Wageningen University and Research Centre, The Hague.


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