, AR5 scenario table, p.26

, Historical families and top-down -bottom-up dichotomy, p.44

.. .. Models,

, Usual typology of hybrid models

. .. , Typology of hybridization methodologies with examples, vol.104

. .. , Four examples of hybridization procedures, p.133

. .. , Macroeconomic differences of energy system in hybrid IOT's, p.139

, Breakdown of energy between firms and households in hybrid IOT's, p.139

. .. Model-of-france, Substitution elasticities of a, p.145

, Brazil's GHG emissions and mitigation goals in 2020, p.169

, Brazil's GHG emissions for the reference and low-carbon scenarios per sector

.. .. Sectors,

-. .. Imaclim, Social Accounting Matrix

, Sectors, consumption goods and factors in Imaclim-BR 12-ext version, p.217

. .. , Main macroeconomic parameters of REF scenario, p.228

, Macroeconomic outputs of REF scenario

, Energy and Emissions in REF scenario

, Macroeconomic results of CLIM-NR 2030

, Sensitivity of results to wage flexibility

, Sensitivity of results to trade elasticities

. .. Macroeconomic-results-of-clim-rst-2030, , p.241

, Sensitivity of impacts of RST tax policy to flexibility of production system244

C. .. , Total GHG emissions in Brazil, p.174, 2015.

-. .. Single, , p.187

. .. , Production frontier and innovation possibility curve, p.191

. Imaclim-br, 12-ext demand system

, BY 2005, REF 2030 and

, CO 2 emissions by sector in BY, 2005.

, Domestic production by sector in BY, 2005.

, Net exports by sector in BY, 2005.

, Brazil power generation by source for the different scenarios, p.245

, Comparison of recycling options

, Implications of a 300e /tCO 2 carbon tax with NR, RPT and LS recycling options applied to France in 2004

.. .. , 260 7.9 Variation of real expended income compared to reference according to tax policy option and household group

R. .. Rst, , p.261

. .. , Comparison of carbon tax policies performance, p.262

. .. , Final energy and energy CO2 emissions by sector, p.274

, 3 Final energy mix -transport sector

.. .. Oil-balance,

, Fuel mix -transport sector

.. .. Oil-balance,

. .. , 8 CO2 emissions and real GDP deviation from REF, p.283

I. Bibliography-adelman and S. Robinson, Income distribution policy in developing countries: A case study of Korea, 1978.

S. Ahmad, On the theory of induced invention, The Economic Journal, vol.76, pp.344-357, 1966.

G. A. Akerlof, The missing motivation in macroeconomics, The American Economic Review, vol.97, pp.3-36, 2007.

K. Akimoto, F. Sano, T. Homma, J. Oda, M. Nagashima et al., Estimates of GHG emission reduction potential by country, sector, and cost, Energy Policy, vol.38, pp.3384-3393, 2010.

P. S. Armington, A Theory of Demand for Products Distinguished by Place of Production, IMF Staff Papers, vol.17, pp.159-176, 1969.

K. J. Arrow, An Extension of the Basic Theorems of Classical Welfare Economics, pp.507-532, 1951.

K. J. Arrow, H. B. Chenery, B. S. Minhas, and R. M. Solow, Capital-labor substitution and economic efficiency, The Review of Economics and Statistics, vol.43, pp.225-250, 1961.

K. J. Arrow and G. Debreu, Existence of an equilibrium for a competitive economy, Econometrica: Journal of the Econometric Society, pp.265-290, 1954.

C. Azar and H. Dowlatabadi, A review of technical change in assessment of climate policy, Annual review of energy and the environment, vol.24, pp.513-544, 1999.

M. Babiker, A. Paltsev, S. , R. , and J. , A forward looking version of the MIT Emissions Prediction and Policy Analysis (EPPA) model, 2008.

M. Babiker, A. Gurgel, S. Paltsev, R. , and J. , Forward-looking versus recursive-dynamic modeling in climate policy analysis: A comparison, Economic Modelling, vol.26, pp.1341-1354, 2009.

M. H. Babiker, J. M. Reilly, M. Mayer, R. S. Eckaus, S. Wing et al., The MIT emissions prediction and policy analysis (EPPA) model: revisions, sensitivities, and comparisons of results, 2001.

T. Barker, I. Bashmakov, A. Alharthi, M. Amann, L. Cifuentes et al., Mitigation from a cross-sectoral perspective, Climate Change 2007: Mitigation, Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, 2007.

T. Barker, V. Borooah, R. Van-der-ploeg, and A. Winters, The Cambridge multisectoral dynamic odel: An instrument for national economic policy analysis, Journal of Policy Modeling, vol.2, pp.319-344, 1980.

T. Barker, H. Pollit, U. Chewpreecha, E. Alexandri, A. Gonzalez-martinez et al., , 2014.

T. Barker, M. S. Qureshi, and J. Köhler, The Costs of Greenhouse Gas Mitigation with Induced Technological Change. A meta-analysis of estimates in the literature, Cambridge Centre for Climate Change Mitigation Research, 2006.

C. Bataille, M. Jaccard, J. Nyboer, and N. Rivers, Towards general equilibrium in a technology-rich model with empirically estimated behavioral parameters, Energy Journal, vol.27, pp.93-112, 2006.

N. Bauer, L. Baumstark, M. Haller, M. Leimbach, G. Luderer et al., REMIND: The equations, 2011.

N. Bauer, O. Edenhofer, and S. Kypreos, Linking energy system and macroeconomic growth models, Computational Management Science, vol.5, pp.95-117, 2008.

R. Beestermöller and U. Fahl, Impacts of German energy policies on the competitiveness of national energy intensive industries, 2013.

A. Bernard and M. Vielle, GEMINI-E3, a general equilibrium model of international-national interactions between economy, energy and the environment, Computational Management Science, vol.5, pp.173-206, 2008.

A. L. Bernard and M. Vielle, La structure du modèle GEMINI-E3, vol.136, pp.19-32, 1998.

C. Böhringer, The synthesis of bottom-up and top-down in energy policy modeling, Energy economics, vol.20, pp.233-248, 1998.

C. Böhringer and T. F. Rutherford, Combining bottom-up and top-down, Energy Economics, vol.30, pp.574-596, 2008.

C. Böhringer and T. F. Rutherford, Integrated assessment of energy policies: Decomposing top-down and bottom-up, Journal of Economic Dynamics and Control, vol.33, pp.1648-1661, 2009.

R. Bibas, Imaclim-R France model documentation, 2013.

R. Bibas, C. Cassen, R. Crassous, C. Guivarch, M. Hamdi-cherif et al., , 2015.

R. Bibas and A. Méjean, Potential and limitations of bioenergy for low carbon transitions, Climatic Change, vol.123, pp.731-761, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00864683

D. G. Blanchflower and A. J. Oswald, An introduction to the wage curve. The journal of economic perspectives pp, pp.153-167, 1995.

D. Bodansky, O. Day, S. Connor, and &. E. Diringer, Evolution of the international climate effort, 2014.

J. Bollen, S. Hers, and B. Van-der-zwaan, An integrated assessment of climate change, air pollution, and energy security policy, Energy Policy, vol.38, pp.4021-4030, 2010.

B. S. Borba, A. F. Lucena, R. Rathmann, I. V. Costa, L. P. Nogueira et al., Energy-related climate change mitigation in brazil: Potential, abatement costs and associated policies, Energy Policy, vol.49, pp.430-441, 2012.

V. Bosetti, E. Massetti, and M. Tavoni, The WITCH model. Structure, baseline, solutions. Fondazione Eni Enrico Mattei Working Papers, 2007.

V. Bosetti, M. Tavoni, E. De-cian, and A. Sgobbi, The 2008 WITCH model: new model features and baseline. Fondazione Eni Enrico Mattei Working Papers, 2009.

P. Boulanger and T. Bréchet, Models for policy-making in sustainable development: The state of the art and perspectives for research, Ecological economics, vol.55, pp.337-350, 2005.

A. L. Brenkert, R. D. Sands, S. H. Kim, and H. M. Pitcher, Model Documentation: Second Generation Model, 2004.

A. L. Brenkert, A. J. Smith, S. H. Kim, and H. M. Pitcher, Model documentation for the MiniCAM, 2003.

L. C. Bresser-pereira, The Dutch disease and its neutralization: a Ricardian approach, Revista de economia política, vol.28, pp.47-71, 2008.

J. Burniaux, J. P. Martin, G. Nicoletti, and J. O. Martins, GREEN-A Multi-Region Dynamic General Equilibrium Model for Quantifying the Costs of Curbing CO2 Emissions: A Technical Manual, 1991.

J. Burniaux, R. Mcdougall, and T. P. Truong, An energy data base for GTAP. Global trade, assistance and production: the GTAP, vol.5, pp.1-26, 2002.

J. Burniaux and T. P. Truong, GTAP-E: an energy-environmental version of the GTAP model. GTAP Technical Papers p, p.18, 2002.

P. Capros, L. Mantzos, L. Vouyoukas, and D. Petrellis, European Energy and CO2 Emissions Trends to 2020: PRIMES model v. 2. Bulletin of Science, Technology & Society, vol.19, pp.474-492, 1999.

D. Cass, Optimum growth in an aggregative model of capital accumulation. The Review of economic studies pp, pp.233-240, 1965.

J. Chateau, R. Dellink, and E. Lanzi, An Overview of the OECD ENV-Linkages Model: Version 3. OECD Environment Working Papers No. 65, 2014.

Y. H. Chen, G. R. Timilsina, and F. Landis, Economic implications of reducing carbon emissions from energy use and industrial processes in brazil, Journal of environmental management, vol.130, pp.436-446, 2013.

A. Cherp, J. Jewell, V. Vinichenko, N. Bauer, and E. De-cian, Global energy security under different climate policies, GDP growth rates and fossil resource availabilities, Climatic Change, 2013.

A. J. Cohen and G. C. Harcourt, Retrospectives: Whatever Happened to the Cambridge Capital Theory Controversies?, The Journal of Economic Perspectives, vol.17, pp.199-214, 2003.

E. Combet, Fiscalité carbone et progrès social. Application au cas français, 2013.

E. Combet, F. Ghersi, J. C. Hourcade, and D. Théry, Carbon tax and equity: The importance of policy design. Critical Issues In Environmental Taxation, 2010.
URL : https://hal.archives-ouvertes.fr/halshs-00692516

C. Complainville and D. Van-der-mensbrugghe, Construction of an energy database for GTAP v4: Concordance with IEA energy statistics, 1998.

T. Considine, R. Watson, R. Entler, and J. Sparks, An emerging giant: Prospects and economic impacts of developing the Marcellus shale natural gas play, 2009.

R. Crassous, Modéliser le long terme dans un monde de second rang : application aux politiques climatiques, 2008.

R. Crassous, J. C. Hourcade, and O. Sassi, Endogenous structural change and climate targets modeling experiments with Imaclim-R, Energy Journal, vol.27, pp.161-178, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00866411

M. Dalton and L. Goulder, An Intertemporal General Equilibrium Model for Analyzing Global Interactions Between Population, the Environment and Technology: PET Model Structure and Data, 2001.

M. Dalton, B. O'neill, A. Prskawetz, L. Jiang, and J. Pitkin, Population aging and future carbon emissions in the United States, Energy economics, vol.30, pp.642-675, 2008.

C. De-gouvello, Brazil low-carbon country case study, 2010.

B. De-vries, D. Van-vuuren, M. Den-elzen, and M. Janssen, Targets IMage Energy Regional (TIMER) Model, 2001.

G. Debreu, The Coefficient of Resource Utilization, Econometrica, vol.19, pp.273-292, 1951.

Y. Y. Deng, K. Blok, and K. Van-der-leun, Transition to a fully sustainable global energy system, European Energy System Models, vol.1, pp.109-121, 2012.

E. D. Domar, Capital expansion, rate of growth, and employment, Journal of the Econometric Society, pp.137-147, 1946.

A. M. Santos, E. A. De-sousa, P. A. Jacinto, P. De-andrade-jacinto, and C. A. Tejada, Elasticidades preço e renda das exportações e importações: uma abordagem através de dados em painel para os estados do Brasil, 2011.

H. Dowlatabadi and M. A. Oravetz, US long-term energy intensity: Backcast and projection, Energy Policy, vol.34, pp.3245-3256, 2006.

L. Drouet, A. Haurie, M. Labriet, P. Thalmann, M. Vielle et al., A coupled bottom-up/top-down model for GHG abatement scenarios in the Swiss housing sector, Energy and environment, pp.27-61, 2005.

A. Drud, W. Grais, and G. Pyatt, Macroeconomic modeling based on socialaccounting principles, Journal of Policy modeling, vol.8, pp.111-145, 1986.

, General equilibrium model for economy-energy-environment, model manual, E3MLAB 2010

O. Edenhofer, N. Bauer, and E. Kriegler, The impact of technological change on climate protection and welfare: Insights from the model MIND, Ecological Economics, vol.54, pp.277-292, 2005.

O. Edenhofer, B. Knopf, T. Barker, L. Baumstark, E. Bellevrat et al., The Economics of Low Stabilization: Model Comparison of Mitigation Strategies and Costs, The Energy Journal, vol.31, 2010.
URL : https://hal.archives-ouvertes.fr/halshs-00450290

O. Edenhofer, K. Lessmann, C. Kemfert, M. Grubb, and J. Köhler, Induced Technological Change: Exploring its Implications for the Economics of Atmospheric Stabilization: Synthesis Report from the Innovation Modeling Comparison Project, The Energy Journal, vol.27, pp.57-107, 2006.

O. Edenhofer, R. Pichs-madruga, Y. Sokona, E. Farahani, S. Kadner et al., Mitigation of Climate Change: Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, 2014.

J. Edmonds, L. Clarke, M. Wise, S. Kim, A. Thomson et al., RoSE Background note: Description of the Global Change Assessment Model (GCAM), 2010.

J. Edmonds, H. Pitcher, and R. Sands, Second generation model 2004: an overview, Special Issue on Endogenous, vol.30, pp.425-448, 2004.

J. Edmonds and J. Reilly, A long-term global energy-economic model of carbon dioxide release from fossil fuel use, Energy Economics, vol.5, pp.74-88, 1983.

R. Egging, F. Holz, and S. A. Gabriel, The World Gas Model. Energy, vol.35, pp.4016-4029, 2010.

A. D. Ellerman and A. Decaux, Analysis of post-kyoto CO emissions trading using marginal abatement curves, 1998.

, Plano national de energia 2030, EPE 2007

, Plano decenal de expansão de energia 2022. Empresa de Pesquisa Energética. EPE 2014a. Cenario econômico 2050. Empresa de Pesquisa Energética. EPE 2014b. Demanda de energie 2050, EPE 2010, 2013.

, Plano decenal de expansão de energia 2024, EPE 2015

G. S. Eskeland, N. A. Rive, and T. K. Mideksa, Europe's climate goals and the electricity sector, Energy Policy, vol.41, pp.200-211, 2012.

M. M. Estevão and I. E. Carvalho-filho, Institutions, informality, and wage flexibility: Evidence from Brazil, 2012.

A. A. Fawcett, K. V. Calvin, F. C. De-la-chesnaye, J. M. Reilly, and J. P. Weyant, Overview of EMF 22 U.S. transition scenarios, Energy Economics, vol.31, pp.198-211, 2009.

A. A. Fawcett and R. D. Sands, The second generation model: Model description and theory, p.15432, 2005.

. Fccc-un, Adoption of the paris agreement, 2015.

. Fccc-un, Intended nationally determined contribution -brazil, 2015.

M. Fischedick, R. Schaeffer, A. Adedoyin, M. Akai, T. Bruckner et al., Mitigation Potential and Costs, 2011.

, IPCC Special Report on Renewable Energy Sources and Climate change Mitigation

C. Fischer and R. D. Morgenstern, Carbon Abatement Costs: Why the Wide Range of Estimates?, The Energy Journal, vol.27, pp.73-86, 2006.

L. G. Fishbone and H. Abilock, Markal, a linear-programming model for energy systems analysis: Technical description of the bnl version, International journal of Energy research, vol.5, pp.353-375, 1981.

L. G. Fishbone, G. Giesen, G. Goldstein, H. A. Hymmen, K. J. Stocks et al., User's guide for MARKAL (BNL-KFA Version 2.0). A multi-period, linear-programming model for energy systems analysis, Brookhaven National Lab, 1983.

J. W. Forrester, Industrial dynamics, 1961.

J. W. Forrester, Principles of Systems. Pegasus Communications, 1968.

P. Fortes, C. Tecnologia, A. M. Pereira, R. M. Pereira, and J. Seixas, Integrated technological-economic modeling platform for energy and climate policy analysis, 2014.

C. W. Frei, P. A. Haldi, and G. Sarlos, Dynamic formulation of a top-down and bottom-up merging energy policy model, Energy Policy, vol.31, pp.1017-1031, 2003.

M. Frondel and C. M. Schmidt, The capital-energy controversy: an artifact of cost shares?, The Energy Journal, vol.23, pp.53-80, 2002.

R. Fuchs, S. Pachauri, B. C. O'neill, and D. Winterfeldt, Production data for the population-environment-technology (PET) model. Director, 2009.

S. Fujimori, T. Masui, and Y. Matsuoka, AIM/CGE [basic] manual, p.430, 2012.

S. Fujimori, T. Masui, and Y. Matsuoka, Development of a global computable general equilibrium model coupled with detailed energy end-use technology, Applied Energy, vol.128, pp.296-306, 2014.

F. Ghersi and J. C. Hourcade, Macroeconomic consistency issues in E3 modeling: the continued fable of the elephant and the rabbit, The Energy Journal, vol.27, pp.39-62, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00716324

F. Ghersi, C. Thubin, E. Combet, and J. Hourcade, , 2011.

L. Giraudet, C. Guivarch, and P. Quirion, Exploring the potential for energy conservation in French households through hybrid modeling, Energy Economics, vol.34, pp.426-445, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00715345

J. Goldemberg, R. Schaeffer, A. Szklo, and R. Lucchesi, Oil and natural gas prospects in south america: Can the petroleum industry pave the way for renewables in brazil, Energy Policy, vol.64, pp.58-70, 2014.

L. H. Goulder, Environmental taxation and the double dividend: a reader's guide, International Tax and Public Finance, vol.2, pp.157-183, 1995.

L. H. Goulder and S. H. Schneider, Induced technological change and the attractiveness of CO2 abatement policies, Resource and Energy Economics, vol.21, pp.211-253, 1999.

C. Grottera, A. O. Pereira, L. Rovere, and E. L. , Impacts of carbon pricing on income inequality in Brazil, pp.1-14, 2015.

M. Grubb, Policy modelling for climate change: the missing models, Energy Policy, vol.21, pp.203-208, 1993.

M. Grubb, Planetary economics: energy, climate change and the three domains of sustainable development, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00991637

M. Grubb, T. Chapuis, H. Duong, and M. , The economics of changing course: Implications of adaptability and inertia for optimal climate policy, Energy Policy, vol.23, pp.417-431, 1995.
URL : https://hal.archives-ouvertes.fr/halshs-00002455

M. Grubb, J. Köhler, A. , and D. , Induced technical change in energy and environmental modeling: Analytic approaches and policy implications, Annual Review of Energy and the Environment, vol.27, pp.271-308, 2002.

C. Guivarch, Évaluer le coût des politiques climatiques : de l'importance des mécanismes de second rang [Evaluating mitigation costs : the importance of representing second best mechanisms, 2010.

C. Guivarch, R. Crassous, O. Sassi, and S. Hallegatte, The costs of climate policies in a second-best world with labour market imperfections, Climate Policy, vol.11, pp.768-788, 2011.
URL : https://hal.archives-ouvertes.fr/halshs-00799409

A. C. Gurgel and S. Paltsev, Costs of reducing GHG emissions in brazil, Climate Policy, vol.14, pp.209-223, 2014.

L. D. Hamilton, G. A. Goldstein, J. Lee, A. S. Manne, W. Marcuse et al., MARKAL-MACRO: An Overview, Brookhaven National Lab, 1992.

R. F. Harrod, An essay in dynamic theory, The Economic Journal, pp.14-33, 1939.

E. F. Heckscher, B. Ohlin, H. Flam, and M. J. Flanders, Heckscher-Ohlin trade theory, 1991.

F. Hedenus, D. Johansson, and K. Lindgren, A Critical Assessment of Energyeconomy-climate Models for Policy Analysis, Journal of Applied Economics & Business Research, vol.3, 2013.

T. W. Hertel, Behavioral parameters. Global Trade, Assistance and Production: The GTAP 7 Data Base Documentation, 2008.

J. R. Hicks, The theory of wages, 1932.

W. W. Hogan and A. S. Manne, Energy economy interactions: the fable of the elephant and the rabbit?, 1977.

F. Holz, C. Von-hirschhausen, and C. Kemfert, A strategic model of European gas supply (GASMOD), Energy Economics, vol.30, pp.766-788, 2008.

J. Hourcade, E. Haites, and T. Barker, Mitigation and Adaptation Cost Assessment: Concepts, Methods and Appropriate Use, UNEP Collaborating Centre on Energy and Environment, 1998.

J. Hourcade, Modelling long-run scenarios: methodology lessons from a prospective study on a low CO2 intensive country, Energy Policy, vol.21, pp.309-326, 1993.
URL : https://hal.archives-ouvertes.fr/halshs-00008564

J. C. Hourcade, M. Jaccard, C. Bataille, and F. Ghersi, Hybrid modeling: New answers to old challenges, The Energy Journal, vol.2, pp.1-12, 2006.
URL : https://hal.archives-ouvertes.fr/halshs-00471234

J. Hourcade, R. Richels, R. , and J. , Climate Change 1995: Economic and Social Dimensions of Climate Change, Contribution of Working Group, 1996.

J. Hourcade, R. Richels, J. Robinson, W. Chandler, O. Davidson et al., Estimating the costs of mitigating greenhouse gases. Climate Change 1995, Economic and Social Dimensions of Climate Change, Contribution of Working Group II p, pp.263-296, 1996.

, IBGE 2004. Pesquisa de orçamentos familiares 2002-2003 -primeiros resultados

, World Energy Model Documentation -2013 version, IEA 2013, 2013.

O. Iea, Second Assessment Report: Climate Change, 1995.

, Climate change 1995 : Economic and social dimensions of climate change : Contribution of Working Group III to the second assessment report of the Intergovernmental Panel on Climate Change, IPCC Second Assessment Report: Climate Change 1995 (SAR), 1996.

, IPCC 2013. Fifth assessment report: Climate Change 2013. Intergovernmental Panel on Climate Change

. Ipcc-2014a, Summary for Policymakers

E. Sokona, S. Farahani, K. Kadner, A. Seyboth, I. Adler et al.,

. Minx, Climate Change 2014: Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change

O. Ipcc, R. Edenhofer, Y. Pichs-madruga, J. C. Sokona, E. Minx et al., Climate change 2014: mitigation of climate change : Working Group, 2015.

. Ipcc, J. J. Mccarthy, O. F. Canziani, N. A. Leary, D. J. Dokken et al., Climate change 2001: impacts, adaptation, and vulnerability: contribution of Working Group II to the third assessment report of the Intergovernmental Panel on Climate Change, 2001.

K. Ismail, The Structural Manifestation of the'Dutch Disease': The Case of Oil Exporting Countries, IMF Working Papers, pp.1-36, 2010.

M. Jaccard, J. Nyboer, C. Bataille, and B. Sadownik, Modeling the cost of climate policy: distinguishing between alternative cost definitions and long-run cost dynamics, The Energy Journal, pp.49-73, 2003.

H. K. Jacobsen, Technology diffusion in energy-economy models: the case of danish vintage models, The Energy Journal, pp.43-71, 2000.

H. D. Jacoby, J. M. Reilly, J. R. Mcfarland, and S. Paltsev, Technology and technical change in the MIT EPPA model, Energy Economics, vol.28, pp.610-631, 2006.

H. D. Jacoby, S. Wing, and I. , Adjustment Time, Capital Malleability and Policy Cost, The Energy Journal, vol.20, pp.73-92, 1999.

A. B. Jaffe, R. G. Newell, and R. N. Stavins, Technological change and the Environment, Handbook of Environmental Economics, vol.1, pp.461-516, 2003.

A. B. Jaffe and R. N. Stavins, The energy-efficiency gap. What does it mean, Energy Policy, vol.22, pp.804-810, 1994.

A. B. Jaffe and R. N. Stavins, Energy-efficiency investments and public policy, The Energy Journal, pp.43-65, 1994.

S. Jasanoff, Testing time for climate science, Science, vol.328, pp.695-696, 2010.

J. Jewell, A. Cherp, V. Vinichenko, N. Bauer, T. Kober et al., Energy security of China, India, the EU and the US under long-term scenarios: results from six IAMs, Climate Change Economics, p.4, 2013.

L. Johansen, A multi-sector study of economic growth, vol.21, 1960.

L. Johansen, Different concepts of production functions and their interconnections. In Production functions. An integration of micro and macro, short run and long run aspects, number v. 75 in Contributions to economic analysis, 1972.

D. W. Jones and P. N. Leiby, The macroeconomic impacts of oil price shocks: a review of the literature and issues, 1996.

D. W. Jorgenson and P. J. Wilcoxen, Reducing US carbon emissions: an econometric general equilibrium assessment, Resource and Energy Economics, vol.15, pp.7-25, 1993.

M. Kainuma, Y. Matsuoka, and T. Morita, Climate policy assessment: Asia-Pacific integrated modeling, 2003.

M. Kainuma, P. R. Shukla, and K. Jiang, Framing and modeling of a low carbon society: An overview, Energy Economics, vol.34, pp.316-324, 2012.

B. Kantor, Rational expectations and economic thought, Journal of Economic Literature, vol.17, pp.1422-1441, 1979.

V. J. Karplus, S. Paltsev, M. Babiker, and J. M. Reilly, Applying engineering and fleet detail to represent passenger vehicle transport in a computable general equilibrium model, Economic Modelling, vol.30, pp.295-305, 2013.

R. K. Kaufmann, S. Dees, P. Karadeloglou, and M. Sanchez, Does OPEC matter? An econometric analysis of oil prices, The Energy Journal, pp.67-90, 2004.

C. Kemfert, An integrated assessment model of economy-energy-climate-the model Wiagem, Integrated Assessment, vol.3, pp.281-298, 2002.

C. Kemfert, Applied Economic-environment-energy Modeling for quantitative impact assessment, International Centre for Integrated Assessment and Sustainable Development (ICIS), p.91, 2003.

C. Kemfert, Induced technological change in a multi-regional, multi-sectoral, integrated assessment model (WIAGEM): Impact assessment of climate policy strategies, Ecological Economics, vol.54, pp.293-305, 2005.

B. S. Koelbl, M. A. Van-den-broek, A. P. Faaij, and D. P. Van-vuuren, Uncertainty in Carbon Capture and Storage (CCS) deployment projections: a crossmodel comparison exercise, Climatic Change, vol.123, pp.461-476, 2014.

T. Koljonen and A. Lehtilä, The impact of residential, commercial, and transport energy demand uncertainties in Asia on climate change mitigation, Energy Economics, vol.34, pp.410-420, 2012.

, Activity Analysis of Production and Allocation -Proceedings of a Conference, Cowles Commission Monograph, vol.13, 1951.

T. C. Koopmans, On the Concept of Optimal Economic Growth, The Economic Approach to Development Planning, 1965.

V. Krey, Global energy-climate scenarios and models: a review: Global energy-climate scenarios and models, Wiley Interdisciplinary Reviews: Energy and Environment, vol.3, pp.363-383, 2014.

V. Krey, G. Luderer, L. Clarke, and E. Kriegler, Getting from here to there -energy technology transformation pathways in the EMF27 scenarios, Climatic Change, vol.123, pp.369-382, 2014.

E. Kriegler, N. Petermann, V. Krey, V. J. Schwanitz, G. Luderer et al., Diagnostic indicators for integrated assessment models of climate policy, Technological Forecasting and Social Change, vol.90, pp.45-61, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01086069

E. Kriegler, K. Riahi, N. Bauer, V. J. Schwanitz, N. Petermann et al., Making or breaking climate targets: The AMPERE study on staged accession scenarios for climate policy, Technological Forecasting and Social Change, vol.90, pp.24-44, 2015.
URL : https://hal.archives-ouvertes.fr/hal-00991640

E. Kriegler, K. Riahi, V. Bosetti, P. Capros, N. Petermann et al., Introduction to the AMPERE model intercomparison studies on the economics of climate stabilization, Technological Forecasting and Social Change, vol.90, pp.1-7, 2015.

E. Kriegler, J. P. Weyant, G. J. Blanford, V. Krey, L. Clarke et al., The role of technology for achieving climate policy objectives: overview of the EMF 27 study on global technology and climate policy strategies, Climatic Change, vol.123, pp.353-367, 2014.

A. Kurosawa, Multigas mitigation: an economic analysis using GRAPE model, The Energy Journal, pp.275-288, 2006.

A. S. Kydes, S. H. Shaw, and D. F. Mcdonald, Beyond the horizon: Recent directions in long-term energy modeling, Energy, vol.20, pp.131-149, 1995.

S. Kypreos, The MARKAL-MACRO model and the climate change, 1996.

S. Kypreos and O. Bahn, A MERGE model with endogenous technological progress, Environmental Modeling & Assessment, vol.8, pp.249-259, 2003.

E. L. La-rovere, C. Burle-dubeux, A. O. Pereira, and W. Wills, Brazil beyond 2020: from deforestation to the energy challenge, Climate Policy, vol.13, pp.70-86, 2013.

E. L. La-rovere, C. Gesteira, C. Grottera, and W. Wills, Pathways to deep decarbonization in brazil, pp.SDSN -IDDRI, 2015.

J. A. Laitner and D. A. Hanson, Modeling detailed energy-efficiency technologies and technology policies within a CGE framework, The Energy Journal, pp.151-169, 2006.

G. Lange, Environmental accounting: Introducing the SEEA-2003, Ecological Economics, vol.61, pp.589-591, 2007.

B. Lanz and S. Rausch, General equilibrium, electricity generation technologies and the cost of carbon abatement: A structural sensitivity analysis, Energy Economics, vol.33, pp.1035-1047, 2011.

J. Lefèvre, E. Combet, and J. Hourcade, Construction de matrices entréessorties en indicateurs physiques et en valeur monétaire pour les modèles d'équilibre général hybrides : applicationà l'économie brésilienne, 2013.

A. Lejour, P. Veenendaal, G. Verweij, and N. Van-leeuwen, Worldscan; a model for international economic policy analysis, CPB Document, vol.111, 2006.

. Lepii-epe, The POLES model, POLES State of the Art, CNRS, 2009.

F. Lequiller, D. W. Blades, and O. , Understanding national accounts, 2014.

J. Lim and Y. Kim, Combining carbon tax and R&D subsidy for climate change mitigation. The Asia Modeling Exercise: Exploring the Role of Asia in Mitigating Climate Change, vol.34, pp.496-502, 2012.

R. G. Lipsey and K. Lancaster, The general theory of second best. The review of economic studies pp, pp.11-32, 1956.

R. Loulou, G. Goldstein, and K. Noble, Documentation for the MARKAL Family of Models. Energy Technology Systems Analysis Programme pp, pp.65-73, 2004.

R. Loulou and M. Labriet, ETSAP-TIAM: the TIMES integrated assessment model Part I: Model structure, Computational Management Science, vol.5, pp.7-40, 2008.

R. Loulou, U. Remne, A. Kanudia, A. Lehtila, and G. Goldstein, Documentation for the TIMES model, Energy Technology Systems Analysis Programme, 2005.

A. Löschel, Technological change in economic models of environmental policy: a survey, Ecological Economics, vol.43, pp.105-126, 2002.

R. E. Lucas, On the mechanics of economic development, Journal of Monetary Economics, vol.22, pp.3-42, 1988.

R. E. Lucas, Econometric policy evaluation: A critique, Carnegie-Rochester conference series on public policy, vol.1, pp.19-46, 1976.

A. F. Lucena, L. Clarke, R. Schaeffer, A. Szklo, P. R. Rochedo et al., Climate policy scenarios in Brazil: a multi-model comparison for energy, Energy Economics, 2015.

G. Luderer, V. Bosetti, M. Jakob, M. Leimbach, J. C. Steckel et al., The economics of decarbonizing the energy system-results and insights from the RECIPE model intercomparison, Climatic Change, vol.114, pp.9-37, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00755831

G. Luderer, V. Krey, K. Calvin, J. Merrick, S. Mima et al., The role of renewable energy in climate stabilization: results from the EMF27 scenarios, Climatic Change, vol.123, pp.427-441, 2014.
URL : https://hal.archives-ouvertes.fr/halshs-00961843

G. Luderer, M. Leimbach, N. Bauer, and E. Kriegler, Description of the ReMIND-R model, 2010.

G. Luderer, M. Leimbach, N. Bauer, and E. Kriegler, Description of the ReMIND-R model, 2011.

G. Luderer, M. Leimbach, N. Bauer, E. Kriegler, T. Aboumahboub et al.,

. Schultes, V. J. Schwanitz, and J. Strefler, Description of the ReMIND-R model. Model documentation Version 1.5, PIK, 2013.

N. Mabey, S. Hall, C. Smith, and S. Gupta, Argument in the Greenhouse: the international economics of controlling global warming. Global environment change series, 1997.

A. S. Magalhães and E. P. Domingues, Blessing or curse: Impacts of the Brazilian Pre-Salt oil exploration, Economia, vol.15, pp.343-362, 2014.

G. Malcolm and T. P. Truong, The process of incorporating energy data into GTAP. draft GTAP Technical Paper, 1999.

N. G. Mankiw, D. Romer, and D. N. Weil, A Contribution to the Empirics of Economic Growth, The Quarterly Journal of Economics, vol.107, pp.407-437, 1992.

A. Manne, R. Mendelsohn, and R. Richels, MERGE: A model for evaluating regional and global effects of GHG reduction policies, Energy Policy, vol.23, pp.17-34, 1995.

A. Manne and R. Richels, On stabilizing CO2 concentrations-cost-effective emission reduction strategies, Environmental Modeling & Assessment, vol.2, pp.251-265, 1997.

A. S. Manne, ETA: A model for energy technology assessment, The Bell Journal of Economics, pp.379-406, 1976.

A. S. Manne, ETA-MACRO: A model of energy-economy interactions, 1977.

A. S. Manne and R. G. Richels, CO2 Emission Limits: An Economic Cost Analysis for the USA, The Energy Journal, vol.11, pp.51-74, 1990.

A. S. Manne and R. G. Richels, MERGE: an integrated assessment model for global climate change, Energy and Environment, pp.175-189, 2005.

A. S. Manne and T. F. Rutherford, International trade, capital flows and sectoral analysis: formulation and solution of intertemporal equilibrium models, New directions in computational economics, pp.191-205, 1994.

A. S. Manne and C. Wene, MARKAL-MACRO: A linked model for energyeconomy analysis, 1992.

A. Manresa and F. Sancho, Implementing a double dividend: recycling ecotaxes towards lower labour taxes, Energy Policy, vol.33, pp.1577-1585, 2005.

S. Margulis, C. B. Dubeux, and J. Marcovitch, Economia da mudança do clima no brasil, 2011.

A. Marshall, , 1920.

T. Martinsen, Introducing technology learning for energy technologies in a national CGE model through soft links to global and national energy models, Energy Policy, vol.39, pp.3327-3336, 2011.

L. Mathiesen, Computation of economic equilibria by a sequence of linear complementarity problems, pp.144-162, 1985.

S. Mathy and C. Guivarch, Climate policies in a second-best world-A case study on India, Energy Policy, vol.38, pp.1519-1528, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00827281

Y. Matsuo, R. Komiyama, Y. Nagatomi, S. Suehiro, Z. Shen et al., Energy Supply and Demand Analysis for Asia and the World towards Low-Carbon Society in 2050, Journal of Japan Society of Energy and Resources, vol.32, 2011.

J. J. Mccarthy, Climate change 2001: impacts, adaptation, and vulnerability: contribution of Working Group II to the third assessment report of the Intergovernmental Panel on Climate Change, 2001.

D. L. Mccollum, V. Krey, K. Riahi, P. Kolp, A. Grubler et al., Climate policies can help resolve energy security and air pollution challenges, Climatic Change, vol.119, pp.479-494, 2013.

R. Mcdougall and A. Golub, GTAP-E: a revised energy-environmental version of the GTAP model, GTAP Resource, 2007.

R. Mcdougall and H. Lee, An energy data base for GTAP. Global Trade, Assistance and Production: The GTAP 6 Data Base, 2006.

J. R. Mcfarland, J. M. Reilly, and H. J. Herzog, Representing energy technologies in top-down economic models using bottom-up information, Energy Economics, vol.26, pp.685-707, 2004.

H. Mcjeon, J. Edmonds, N. Bauer, L. Clarke, B. Fisher et al., Limited impact on decadal-scale climate change from increased use of natural gas, Nature, vol.514, pp.482-485, 2014.

W. J. Mckibbin and P. J. Wilcoxen, The theoretical and empirical structure of the G-Cubed model, Economic Modelling, vol.16, pp.123-148, 1999.

R. R. Mckitrick, The econometric critique of computable general equilibrium modeling: the role of functional forms, Economic Modelling, vol.15, pp.543-573, 1998.

D. H. Meadows, D. L. Meadows, J. Randers, and W. W. , The Limits to growth, 1972.

S. Messner and L. Schrattenholzer, MESSAGE-MACRO: linking an energy supply model with a macroeconomic module and solving it iteratively, Energy, vol.25, pp.267-282, 2000.

S. Messner and M. Strubegger, User's Guide for MESSAGE III. Rep. WP-95-69, International Institute for Applied Systems Analysis, 1995.

B. Metz, O. R. Davidson, P. R. Bosch, R. Dave, and L. A. Meyer, Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, 2007.

S. Mohr and G. Evans, Long term forecasting of natural gas production, Energy Policy, vol.39, pp.5550-5560, 2011.

S. Moll, M. Vrgoc, D. Watson, A. Femia, O. G. Pedersen et al., Environmental input-output analyses based on namea data. Working Paper European Topic Centre / Resource and Waste Management, 2007.

S. Mori, The development of greenhouse gas emissions scenarios using an extension of the MARIA model for the assessment of resource and energy technologies, Technological Forecasting and Social Change, vol.63, pp.289-311, 2000.

S. Mori, An assessment of the potentials of nuclear power and carbon capture and storage in the long-term global warming mitigation options based on Asian Modeling Exercise scenarios. The Asia Modeling Exercise: Exploring the Role of Asia in Mitigating Climate Change, vol.34, pp.421-428, 2012.

J. F. Morris, J. M. Reilly, C. , and Y. H. , Advanced Technologies in Energy-Economy Models for Climate Change Assessment, Joint Program on the Science and Policy of Global Change, 2014.

J. F. Muth, Rational expectations and the theory of price movements, Econometrica: Journal of the Econometric Society, pp.315-335, 1961.

, Special report on emissions scenarios: a special report of Working Group III of the Intergovernmental Panel on Climate Change, 2000.

P. Nijkamp, S. Wang, and H. Kremers, Modeling the impacts of international climate change policies in a CGE context: The use of the GTAP-E model, Economic Modelling, vol.22, pp.955-974, 2005.

W. D. Nordhaus, Optimal greenhouse-gas reductions and tax policy in the" DICE" model. The American Economic Review, pp.313-317, 1993.

W. D. Nordhaus, Rolling the 'DICE': an optimal transition path for controlling greenhouse gases, Resource and Energy Economics, vol.15, pp.27-50, 1993.

W. D. Nordhaus, Modeling induced innovation in climate-change policy, Technological change and the environment. Resources for the Future, pp.182-209, 2002.

W. D. Nordhaus and Z. Yang, A regional dynamic general-equilibrium model of alternative climate-change strategies, The American Economic Review, pp.741-765, 1996.

J. Nyboer, M. Jaccard, A. Bailie, A. Taylor, B. Sadownik et al., Integration of GHG Emission Reduction Options using CIMS. Prepared for the Analysis and Modelling Group Climate Change National Implementation Process, Energy Research Group / M.K. Jaccard and Associates, 2000.

A. Okagawa and K. Ban, Estimation of substitution elasticities for CGE models. Discussion Papers in Economics and Business 16, 2008.

A. Okagawa and K. Ban, Estimation of substitution elasticities for CGE models. Discussion Papers in Economics and Business 16, 2008.

B. C. O'neill and N. Nakicenovic, Learning from global emissions scenarios, Environmental Research Letters, vol.3, p.45014, 2008.

N. Oreskes and K. Belitz, Model validation: perspectives in hydrological science, J. Wiley, 2001.

S. Paltsev, J. M. Reilly, H. D. Jacoby, R. S. Eckaus, J. R. Mcfarland et al., The MIT emissions prediction and policy analysis (EPPA) model: version 4, 2005.

H. M. Pant, GTEM -Global Trade and Environment model, Australian Bureau of Agricultural and Resource Economics and Sciences, 2007.

I. Peters, Energy prices and technical progress in economic policy assessment models, 1997.

S. Proença and M. S. Aubyn, Hybrid modelling to support energy-climate policy: Effects of feed-in tariffs to promote renewable energy in Portugal, Energy Economics, 2013.

G. Pyatt, A SAM approach to modeling, Journal of Policy Modeling, vol.10, pp.327-352, 1988.

G. Pyatt and J. I. Round, Social accounting matrices: a basis for planning, 1985.

F. P. Ramsey, A mathematical theory of saving. The economic journal pp, pp.543-559, 1928.

T. Rehrl and R. Friedrich, Modelling long-term oil price and extraction with a Hubbert approach: The LOPEX model, Energy Policy, vol.34, pp.2413-2428, 2006.

K. Riahi, E. Kriegler, N. Johnson, C. Bertram, M. Den-elzen et al., Locked into Copenhagen pledges -Implications of short-term emission targets for the cost and feasibility of long-term climate goals, Technological Forecasting and Social Change, vol.90, pp.8-23, 2015.
URL : https://hal.archives-ouvertes.fr/halshs-00962366

D. Ricardo, Principles of Political Economy and Taxation, 1817.

A. K. Riekkola, C. Berg, E. O. Ahlgren, and P. Söderholm, Challenges in Soft-Linking: The Case of EMEC and TIMES-Sweden, Working Paper, vol.133, 2013.

J. Robinson, The Production Function and the Theory of Capital, The Review of Economic Studies, vol.21, pp.81-106, 1953.

J. Robinson, History versus equilibrium, Indian Economic Journal, vol.21, p.202, 1974.

S. Robinson, Multisectoral models, pp.885-947, 1989.

. Srinivasan, Handbook of development economics, vol.2

S. Robinson, A. Yúnez-naude, R. Hinojosa-ojeda, J. D. Lewis, and S. Devarajan, From stylized to applied models: Building multisector CGE models for policy analysis, The North American Journal of Economics and Finance, vol.10, pp.5-38, 1999.

P. M. Romer, Endogenous Technological Change, Journal of Political Economy, vol.98, pp.71-102, 1990.

S. K. Rose, E. Kriegler, R. Bibas, K. Calvin, A. Popp et al., Bioenergy in energy transformation and climate management, Climatic Change, vol.123, pp.477-493, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00945651

T. F. Rutherford and S. V. Paltsev, University of Colorado, Boulder . SAE 2013. The middle class in numbers, 2000.

A. Saltelli, M. Ratto, T. Andres, F. Campolongo, J. Cariboni et al., Global sensitivity analysis: the primer, 2008.

P. A. Samuelson, Foundations of Economic Analysis, 1947.

F. Sancho, Double dividend effectiveness of energy tax policies and the elasticity of substitution: A CGE appraisal, Energy Policy, vol.38, pp.2927-2933, 2010.

R. Sandoval, V. J. Karplus, S. Paltsev, and J. M. Reilly, Modelling prospects for hydrogen-powered transportation until 2100, Journal of Transport Economics and Policy, pp.291-316, 2009.

R. D. Sands and A. A. Fawcett, The second generation model: data, parameters, and implementation, p.15431, 2005.

R. D. Sands, H. Förster, C. A. Jones, and K. Schumacher, Bio-electricity and land use in the future agricultural resources model (FARM), Climatic Change, vol.123, pp.719-730, 2014.

R. D. Sands, S. Miller, and M. K. Kim, The second generation model: Comparison of SGM and GTAP approaches to data development, 2005.

R. D. Sands, K. Schumacher, and H. Förster, US CO2 Mitigation in a Global Context: Welfare, Trade and Land Use, The Energy Journal, vol.35, 2014.

O. Sassi, R. Crassous, J. Hourcade, V. Gitz, H. Waisman et al., Imaclim-R: a modelling framework to simulate sustainable development pathways, International Journal of Global Environmental Issues, vol.10, pp.5-24, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00566290

B. Saveyn, L. Paroussos, and J. Ciscar, Economic analysis of a low carbon path to 2050: A case for China, India and Japan. Energy Economics, vol.34, pp.451-458, 2012.

A. Schafer and H. D. Jacoby, Technology detail in a multisector CGE model: transport under climate policy, Energy Economics, vol.27, pp.1-24, 2005.

K. Schumacher and R. D. Sands, Where are the industrial technologies in energyeconomy models? An innovative CGE approach for steel production in Germany, Energy Economics, vol.29, pp.799-825, 2007.

V. J. Schwanitz, Evaluating integrated assessment models of global climate change, Environmental Modelling & Software, vol.50, pp.120-131, 2013.

I. Sdsn, , 2014.

A. J. Seebregts, G. A. Goldstein, and K. Smekens, Energy/environmental modeling with the MARKAL family of models, Operations Research Proceedings, pp.75-82, 2001.

J. B. Shoven and J. Whalley, A general equilibrium calculation of the effects of differential taxation of income from capital in the US, Journal of public economics, vol.1, pp.281-321, 1972.

P. R. Shukla and S. Dhar, Climate agreements and India: aligning options and opportunities on a new track, Politics, law and economics, vol.11, pp.229-243, 2011.

P. R. Shukla, S. Dhar, and D. Mahapatra, Low-carbon society scenarios for India, Climate Policy, vol.8, pp.156-176, 2008.

I. M. Sobol, Global sensitivity indices for nonlinear mathematical models and their Monte Carlo estimates, Mathematics and computers in simulation, vol.55, pp.271-280, 2001.

R. M. Solow, A contribution to the theory of economic growth, The Quarterly Journal of Economics, vol.70, pp.65-94, 1956.

R. M. Solow, Technical change and the aggregate production function. The review of, Economics and Statistics, vol.39, pp.312-320, 1957.

R. M. Solow, Growth theory and after, The American Economic Review, vol.78, pp.307-317, 1988.

R. M. Solow, Perspectives on growth theory, The Journal of Economic Perspectives, vol.8, pp.45-54, 1994.

E. Stehfest, D. P. Van-vuuren, T. Kram, L. Bouwman, R. Alkemade et al., Integrated assessment of global environmental change with IMAGE 3.0: model description and policy applications, 2014.

N. H. Stern, The economics of climate change: the Stern review, 2007.

S. Wing and I. , Computable general equilibrium models and their use in economywide policy analysis: Everything You Ever Wanted to Know (But Were Afraid to Ask), MIT Joint Program on the Science and Policy of Global Change, 2004.

S. Wing and I. , The synthesis of bottom-up and top-down approaches to climate policy modeling: Electric power technologies and the cost of limiting US CO2 emissions, Energy Policy, vol.34, pp.3847-3869, 2006.

S. Wing and I. , The synthesis of bottom-up and top-down approaches to climate policy modeling: Electric power technology detail in a social accounting framework, Energy economics, vol.30, pp.547-573, 2008.

S. Wing, I. Daenzer, K. Fisher-vanden, K. , C. et al., Phoenix Model Documentation, 2011.

M. Sugiyama, O. Akashi, K. Wada, A. Kanudia, J. Li et al., Energy efficiency potentials for global climate change mitigation, Climatic Change, vol.123, pp.397-411, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00945652

R. J. Sutherland, No Cost" Efforts to Reduce Carbon Emissions in the U.S.: An Economic Perspective, The Energy Journal, vol.21, pp.89-112, 2000.

T. W. Swan, Economic growth and capital accumulation, Economic record, vol.32, pp.334-361, 1956.

, Socially relevant policy analysis: structuralist computable general equilibrium models for the developing world, 1990.

L. Taylor and S. L. Black, Practical general equilibrium estimation of resource pulls under trade liberalization, Journal of International Economics, vol.4, pp.37-58, 1974.

M. Thissen, A classification of empirical CGE modelling, 1998.

C. Thubin, Le dividende emploi d'une fiscalitéécologique, 2012.

O. A. Tourinho, R. S. Motta, and Y. L. Alves, Uma aplicação ambiental de um modelo de equilíbrio geral, 2003.

T. P. Truong, C. Kemfert, and J. Burniaux, GTAP-E: An Energy-Environmental Version of the GTAP Model with Emission Trading, 2007.

J. Tu, M. Jaccard, and J. Nyboer, The application of a hybrid energy-economy model to a key developing country-China, Energy for Sustainable Development, vol.11, pp.35-47, 2007.

S. D. Tuladhar, M. Yuan, P. Bernstein, W. D. Montgomery, and A. Smith, A top-down bottom-up modeling approach to climate change policy analysis, Energy Economics, vol.31, pp.223-234, 2009.

, UNFCCC Report of the Conference of the Parties on its sixteenth session, Cancun from 29 November to 10 December 2010. Addendum. Part two: Action taken by the Conference of the Parties at its sixteenth session, 2011.

, Towards a Green Economy: Pathways to Sustainable Development and Poverty Eradication, UNEP 2011

L. M. Valladares, Efeitos econômicos da expansão da oferta de petróleo e gás natural provenientes do Pré-Sal brasileiro, 2013.

D. Van-der-mensbrugghe, GREEN-The Reference Manual, 1994.

E. Van-der-werf, Production functions for climate policy modeling: An empirical analysis, Energy Economics, vol.30, pp.2964-2979, 2008.

E. Van-der-werf, Production functions for climate policy modeling: An empirical analysis, Energy Economics, vol.30, pp.2964-2979, 2008.

D. P. Van-vuuren, M. Hoogwijk, T. Barker, K. Riahi, S. Boeters et al., Comparison of top-down and bottom-up estimates of sectoral and regional greenhouse gas emission reduction potentials, Energy Policy, vol.37, pp.5125-5139, 2009.

H. Waisman, C. Guivarch, F. Grazi, and J. C. Hourcade, The IMACLIM-R model: infrastructures, technical inertia and the costs of low carbon futures under imperfect foresight, Climatic Change, vol.114, pp.101-120, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00719279

L. ;. Walras and . Rouge, Éléments d'économie politique pure, ou, Théorie de la richesse sociale, 1896.

M. D. Webster, S. Paltsev, J. E. Parsons, J. M. Reilly, and H. D. Jacoby, Uncertainty in greenhouse emissions and costs of atmospheric stabilization, 2008.

C. Wene, Energy-economy analysis: linking the macroeconomic and systems engineering approaches, Energy, vol.21, pp.809-824, 1996.

J. Weyant, O. Davidson, H. Dowlabathi, J. Edmonds, M. Grubb et al., Integrated assessment of climate change: an overview and comparison of approaches and results, Contribution of Working Group III to the Second Assessment Report of the Intergovernmental Panel on Climate Change, 1996.

J. Weyant and E. Kriegler, Preface and introduction to EMF 27, Climatic Change, vol.123, pp.345-352, 2014.

W. Wills and . Brasil, , 2013.

W. Wills, C. Grottera, and J. Lefèvre, Implicações econômicas e sociais dos cenários de mitigação, 2015.

C. Wilson, A. Grubler, N. Bauer, V. Krey, and K. Riahi, Future capacity growth of energy technologies: are scenarios consistent with historical evidence?, Climatic Change, vol.118, pp.381-395, 2013.

I. S. Wing, Computable general equilibrium models and their use in economywide policy analysis, 2004.

M. Wise and K. Calvin, GCAM 3.0 agriculture and land use: technical description of modeling approach, 2011.

H. Yamamoto, M. Sugiyama, and J. Tsutsui, Role of end-use technologies in long-term GHG reduction scenarios developed with the BET model, Climatic Change, vol.123, pp.583-596, 2014.

Z. Zhang and H. Folmer, Economic modelling approaches to cost estimates for the control of carbon dioxide emissions, Energy Economics, vol.20, pp.101-120, 1998.

Y. Zhu and M. Ghosh, Temperature control, emission abatement and costs: key EMF 27 results from Environment Canada's Integrated Assessment Model, Climatic Change, vol.123, pp.571-582, 2014.