Agricultural economy/References
< Agricultural economy
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de Like query Aguiar et al., 2016, Alexandratos and Bruinsma, 2012, Armington, 1969, Banse et al., 2008, Britz, 2003, Bruinsma, 2003, Eickhout et al., 2009, Frank et al., 2019, Helming et al., 2010, Hertel, 1997, Hertel, 2011, Huang et al., 2004, Nelson et al., 2014, Overmars et al., 2014, PBL, 2010, PBL, 2011, Stehfest et al., 2013, Stehfest et al., 2019, Van Meijl et al., 2006, Van Meijl et al., 2018, Verburg et al., 2009, Westhoek et al., in preparation, Woltjer et al., 2011, Woltjer, 2011 geeft geen resultaat
| Reference | Author | Title | Journal |
|---|---|---|---|
| Aguiar et al., 2016 | Angel Aguiar, Badri Narayanan, Robert McDougall | An Overview of the GTAP 9 Data Base | Journal of Global Economic Analysis |
| Alexandratos and Bruinsma, 2012 | Nikos Alexandratos J. Bruinsma | World agriculture towards 2030/2050: the 2012 revision | |
| Armington, 1969 | P. S. Armington | A theory of demand for products distinguished by place of production. | IMF Staff papers |
| Banse et al., 2008 | M Banse H van Meijl A Tabeau G Woltjer | Will EU biofuel policies affect global agricultural markets? | European Review of Agricultural Economics |
| Britz, 2003 | W. Britz | Major enhancements of @2030 Modelling system | |
| Bruinsma, 2003 | J. Bruinsma | World agriculture: towards 2015/2030. | |
| Carpenter et al., 2006 | S.R. Carpenter P. Pingali E.M. Bennet M.B. Zurek | Ecosystems and human well-being: scenarios | |
| Eickhout et al., 2009 | B. Eickhout H. van Meijl A. Tabeau E. Stehfest | The impact of environmental and climate constraints on global food supply | |
| Frank et al., 2019 | S. Frank P. Havlík E. Stehfest H. van Meijl P. Witzke I. Pérez-Domínguez M. van Dijk J.C. Doelman T. Fellmann J.F.L. Koopman A. Tabeau H. Valin | Agricultural non-CO2 emission reduction potential in the context of the 1.5 °C target | Nature Climate Change |
| Helming et al., 2010 | J Helming S Jansen H van Meijl A Tabeau | European farming and post-2013 CAP measures | |
| Hertel, 1997 | T.W. Hertel | Global trade analysis: modeling and applications | |
| Hertel, 2011 | T.W. Hertel | The global supply and demand for agricultural land in 2050: A perfect storm in the making? | American Journal of Applied Economics |
| Huang et al., 2004 | H. Huang F. van Tongeren F. Dewbre H. van Meijl | A new representation of agricultural production technology in GTAP | |
| Kallio et al., 2004 | A.M.I. Kallio A. Moiseyev B. Solberg | The Global Forest Sector Model EFI-GTM - the model structure | |
| Nelson et al., 2014 | G. C. Nelson H. Valin R.D. Sands P. Havlík H. Ahammad D. Deryng J. Elliott S. Fujimori T. Hasegawa E. Heyhoe P. Kyle M. Von Lampe H. Lotze-Campen D. Mason d’Croz H.van Meijl D. van der Mensbrugghe Ch. Müller A. Popp R. Robertson S. Robinson E. Schmid C. Schmitz A.Tabeau D. Willenbockel | Climate change effects on agriculture: Economic responses to biophysical shocks | Proceedings of the National Academy of Sciences of the United States of America (PNAS) |
| Overmars et al., 2014 | K. P. Overmars E. Stehfest A. Tabeau H. van Meijl A. M. Beltrán T. Kram | Estimating the opportunity costs of reducing carbon dioxide emissions via avoided deforestation, using integrated assessment modelling | Land Use Policy |
| Stehfest et al., 2013 | E. Stehfest M. Berg G. Woltjer S. Msangi H. Westhoek | Options to reduce the environmental effects of livestock production - Comparison of two economic models | Agricultural Systems |
| Stehfest et al., 2019 | Elke Stehfest, Willem-Jan van Zeist, Hugo Valin, Petr Havlik, Alexander Popp, Page Kyle, Andrzej Tabeau, Daniel Mason-D’Croz, Tomoko Hasegawa, Benjamin L. Bodirsky, Katherine Calvin, Jonathan C. Doelman, Shinichiro Fujimori, Florian Humpenöder, Hermann Lotze-Campen, Hans van Meijl and Keith Wiebe | Key determinants of global land-use projections | Nature Communications |
| Van Meijl et al., 2006 | H. Van Meijl T. Van Rheenen A. Tabeau B. Eickhout | The impact of different policy environments on agricultural land use in Europe | Agriculture, Ecosystems and Environment |
| Van Meijl et al., 2018 | H. Van Meijl P. Havlik H. Lotze-Campen E. Stehfest P. Witzke I.P. Domínguez B.L. Bodirsky M. Van Dijk J. Doelman T. Fellmann F. Humpenöder J.F.L. Koopman C. Müller A. Popp A. Tabeau H. Valin W.-J. Van Zeist | Comparing impacts of climate change and mitigation on global agriculture by 2050 | Environmental Research Letters |
| Van Vuuren et al., 2018 | D.P. Van Vuuren E. Stehfest D.E.H.J. Gernaat M. Van Den Berg D.L. Bijl H.S. De Boer V. Daioglou J.C. Doelman O.Y. Edelenbosch M. Harmsen A.F. Hof M.A.E. Van Sluisveld | Alternative pathways to the 1.5 °c target reduce the need for negative emission technologies | Nature Climate Change |
| Woltjer et al., 2011 | G.B. Woltjer M. Kuiper H. van Meijl | Chapter 2: MAGNET | |
| Woltjer, 2011 | G.B. Woltjer | Meat consumption, production and land use: model implementation and scenarios |
