Semantic search

This page or action requires JavaScript to work. Please enable JavaScript in your browser or use a browser where it is supported, so that functionality can be provided as requested. For further assistance, please have a look at the noscript help page.

Search Clear all entries

{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Den Elzen et al., 2011b |2=M. G. J. den Elzen, A. F. Hof, M. Roelfsema (2011). . Global Environmental Change, 21(2), pp. 733-743, doi: http://dx.doi.org/10.1016/j.gloenvcha.2011.01.006.
Link to PBL-website: http://www.pbl.nl/en/publications/2011/the-emissions-gap-between-the-copenhagen-pledges-and-the-2-%C2%B0c-climate-goal-options-for-closing-and-risks-that-. |#=100 |#rownumber=101}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Den Elzen et al., 2012a |2=M.G.J. den Elzen, A. Hof, A. Mendoza Beltrán, B. Van Ruijven, J. Van Vliet (2012). Implications of long-term global and developed country reduction targets for developing countries. Mitigation and Adaptation of Strategies for Global Change, 18(4), pp. 491-512. |#=101 |#rownumber=102}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Den Elzen et al., 2012b |2=M. G. J. den Elzen, M. Meinshausen, A. F. Hof (2012). . Climatic Change, 114(2), pp. 401-408, doi: http://dx.doi.org/10.1007/s10584-012-0530-5. |#=102 |#rownumber=103}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Den Elzen et al., 2012c |2=M.G.J. den Elzen, M. Roelfsema, A.F. Hof, H. Böttcher, G. Grassi (2012). Analysing the emission gap between pledged emission reductions under the Cancún Agreements and the 2°C climate target, PBL Netherlands Environmental Assessment Agency, Bilthoven, the Netherlands. Link to PBL-website: http://www.pbl.nl/en/publicaties/2012/analysing-the-emission-gap-between-pledged-emission-reductions-under-the-cancun-agreements. |#=103 |#rownumber=104}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Den Elzen et al., 2013 |2=M. G. J. Den Elzen, A. F. Hof, M. Roelfsema (2013). Analysing the greenhouse gas emission reductions of the mitigation action plans by non-Annex I countries by 2020. Energy Policy, 56(56), pp. 633-643, doi: http://dx.doi.org/10.1016/j.enpol.2013.01.035.
Link to PBL-website: http://www.pbl.nl/en/publications/analysing-the-greenhouse-gas-emission-reductions-of-the-mitigation-action-plans-by-non-annex-i-countries-by-2020. |#=104 |#rownumber=105}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Den Elzen et al., 2015a |2=den Elzen, M.G.J., Fekete, H., Admiraal, A., Forsell, N., Höhne, N., Korosuo, A., Roelfsema, M., van Soest, H., Wouters, K., Day, T., Hagemann, M., Hof, A.F (2015). Enhanced policy scenarios for major emitting countries. Analysis of current and planned climate policies, and selected enhanced mitigation measure. Link to PBL-website: http://www.pbl.nl/sites/default/files/cms/publicaties/pbl-2015-enhanced-policy-scenarios-for-major-emitting-countries_1631.pdf. |#=105 |#rownumber=106}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Den Elzen et al., 2016 |2=M. den Elzen, A. Admiraal, M. Roelfsema, H. van Soest, A. F. Hof, N. Forsell (2016). Contribution of the G20 economies to the global impact of the Paris agreement climate proposals. Climatic Change, 137(3-4), pp. 655-665, doi: http://dx.doi.org/10.1007/s10584-016-1700-7.
Link to PBL-website: http://www.pbl.nl/en/publications/contribution-of-the-g20-economies-to-the-global-impact-of-the-paris-agreement-climate-proposals. |#=106 |#rownumber=107}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Denman et al., 2007 |2=K.L. Denman, G. Brasseur, A. Chidthaisong, P. Ciais, P.M. Cox, R.E. Dickinson, D. Hauglustaine, C. Heinze, E. Holland, D. Jacob, U. Lohmann, S. Ramachandran, P.L. da Silva Dias, S.C. Wofsy, X. Zhang (2007). Couplings Between Changes in the Climate System and Biogeochemistry.. In: S. SolomonD. QinM. ManningZ. ChenM. MarquisK.B. AverytM. TignorH.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, United Kingdom and New York, NY, USA.. |#=107 |#rownumber=108}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Diaz and Rosenberg, 2008 |2=R. J. Diaz, R. Rosenberg (2008). Spreading dead zones and consequences for marine ecosystems. Science, 321(5891), pp. 926-929. |#=108 |#rownumber=109}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Dixon et al., 2001 |2=J. Dixon, A. Gulliver, D. Gibbon (2001). Farming systems and poverty, FAO/World bank, Rome/Washington DC. |#=109 |#rownumber=110}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Dockery et al., 1993 |2=D. Dockery, C. A. Pope, X. Xu, J. Spengler, J. Ware, M. Fay, B. Ferris, F. Speizer (1993). An association between air pollution and mortality in six U.S. cities. New England Journal of Medicine, 329, pp. 1753-1759. |#=110 |#rownumber=111}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Doelman et al., 2018 |2=J.C. Doelman, E. Stehfest, A. Tabeau, H. van Meijl, L. Lassaletta, K. Neumann-Hermans, D.E.H.J. Gernaat, M. Harmsen, V. Daioglou, H. Biemans, S. van der Sluis, D.P. van Vuuren (2018). Exploring SSP land-use dynamics using the IMAGE model: Regional and gridded scenarios of land-use change and land-based climate change mitigation. Global Environmental Change, 48(January), pp. 119-135, doi: http://dx.doi.org/10.1016/j.gloenvcha.2017.11.014.
Link to PBL-website: http://www.pbl.nl/en/publications/exploring-ssp-land-use-dynamics-using-the-image-model-regional-and-gridded-scenarios-of-land-use-change-and-land-ba. |#=111 |#rownumber=112}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Doelman et al., 2019 |2=Doelman, Jonathan C, Stehfest, Elke, van Vuuren, Detlef P, Tabeau, Andrzej, Hof, Andries F, Braakhekke, Maarten C, Gernaat, David EHJ, van den Berg, Maarten, van Zeist, Willem‐Jan, Daioglou, Vassilis (2019). Afforestation for climate change mitigation: Potentials, risks and trade-offs. Global Change Biology, 26(3), pp. 1576-1591, doi: http://dx.doi.org/https://doi.org/10.1111/gcb.14887.
Link to PBL-website: https://www.pbl.nl/publications/afforestation-for-climate-change-mitigation-potentials-risks-and-trade-offs. |#=112 |#rownumber=113}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Doelman et al., 2020b |2=Jonathan C. Doelman, Elke Stehfest, Andrzej Tabeau, Hans van Meijl, Luis Lassaletta, David E.H.J. Gernaat, Kathleen Hermans, Mathijs Harmsen, Vassilis Daioglou, Hester Biemans, Sietske van der Sluis, Detlef P.van Vuuren (2020). Exploring SSP land-use dynamics using the IMAGE model: Regional and gridded scenarios of land-use change and land-based climate change mitigation. Global Environmental Change, 48, pp. 119-135, doi: http://dx.doi.org/https://doi.org/10.1016/j.gloenvcha.2017.11.014. |#=113 |#rownumber=114}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Döll and Lehner, 2002 |2=P. Döll, B. Lehner (2002). Validation of a new global 30-min drainage direction map. Journal of Hydrology, 258(1-4), pp. 214-231, doi: http://dx.doi.org/10.1016/S0022-1694(01)00565-0. |#=114 |#rownumber=115}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=EC, 2010 |2=EC (2010). Energy 2020: A strategy for competitive, sustainable and secure energy, Communication from the commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the regions, European Commission, Brussels. |#=115 |#rownumber=116}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=EC, 2012 |2=EC (2012). Access date: 2013.URL: http://ec.europa.eu/environment/nature/biodiversity/comm2006/2020.htm |#=116 |#rownumber=117}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=EC-JRC/PBL, 2016 |2=EC-JRC/PBL (2016). European Commission, Joint Research Centre (EC-JRC)/Netherlands Environmental Assessment Agency (PBL). Emissions Database for Global Atmospheric Research (EDGAR), release EDGAR v4.3.2 (1970 - 2012) of March 2016, http://edgar.jrc.ec.europa.eu. |#=117 |#rownumber=118}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=EFI, 2007 |2=European forest institute (2007). Long-term European forest resources assessment.EFI.Helsinki, Finland.Access date: 2011-04-15.URL: http://www.efi.int/databases/ltfra |#=118 |#rownumber=119}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=ESA, 2017 |2=European Space Agency (2017). Climate Change Initiative (ESA-CCI) V2.0.7.European Space Agency.URL: https://maps.elie.ucl.ac.be/CCI/viewer/download.php |#=119 |#rownumber=120}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Ebi et al., 2014a |2=K. Ebi, S. Hallegatte, T. Kram, N. Arnell, T. Carter, J. Edmonds, E. Kriegler, R. Mathur, B. O'Neill, K. Riahi, H. Winkler, D. van Vuuren, T. Zwickel (2014). A new scenario framework for climate change research: background, process, and future directions. Climatic Change, 122(3), pp. 363-372, doi: http://dx.doi.org/10.1007/s10584-013-0912-3. |#=120 |#rownumber=121}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Edelenbosch et al., 2017b |2=O. Y. Edelenbosch, D. L. McCollum, D. P. van Vuuren, C. Bertram, S. Carrara, H. Daly, S. Fujimori, A. Kitous, P. Kyle, E. Ó Broin, P. Karkatsoulis, F. Sano (2016). Decomposing passenger transport futures: Comparing results of global integrated assessment models. Transportation Research Part D: Transport and Environment, doi: http://dx.doi.org/10.1016/j.trd.2016.07.003. |#=121 |#rownumber=122}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Egoh et al., 2008 |2=B. Egoh, B. Reyers, M. Rouget, D.M. Richardson, D.C. Le Maitre, A.S. van Jaarsveld (2008). Mapping ecosystem services for planning and management. Agriculture, ecosystems & environment, 127(1-2), pp. 135-140, doi: http://dx.doi.org/10.1016/j.agee.2008.03.013. |#=122 |#rownumber=123}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Egoh et al., 2009 |2=B. Egoh, B. Reyers, M. Rouget, M. Bode, D.M. Richardson (2009). Spatial congruence between biodiveristy and ecosystem services in South Africa. Biological Conservation, 142(3), pp. 553-562. |#=123 |#rownumber=124}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Egoh et al., 2012 |2=B.N. Egoh, P.J. O'Farrell, A. Charef, L.J. Gurney, T. Koellner, H.N. Abi, M. Egoh, L. Willemen (2012). An african account of ecosystem service provision: Use, threats and policy options for sustainable livelihoods. Ecosystem services, 2, pp. 71-81. |#=124 |#rownumber=125}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Eickhout et al., 2007 |2=B. Eickhout, H. van Meijl, A. Tabeau, T. van Rheenen (2007). Economic and ecological consequences of four European land use scenarios. Land Use Policy, 24(3), pp. 562-575, doi: http://dx.doi.org/10.1016/j.landusepol.2006.01.004.
Link to PBL-website: http://www.pbl.nl/en/publications/2007/EconomicandecologicalconsequencesoffourEuropeanlandusescenarios. |#=125 |#rownumber=126}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Eickhout et al., 2009 |2=B. Eickhout, H. van Meijl, A. Tabeau, E. Stehfest (2009). The impact of environmental and climate constraints on global food supply. In: T.W. HertelS.K. RoseR.S.J. Tol (eds.), Economic Analysis of Land Use in Global Climate Change Policy. Routledge, New York, pp. 85-106, URL: 10.4324/9780203882962. |#=126 |#rownumber=127}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=European Commission, 2005 |2=European Commission, (2005). Winning the battle against global climate change. Communication from the Commission to the Council, the European Parliament, the European Economic and Social Committee and the Committee of the Regions, European Commission, Brussels(URL: http://europa.eu.int/comm/environment/climat/future_action.htm). |#=127 |#rownumber=128}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=European Commission, 2010 |2=European Commission (2010). Analysis of options to move beyond 20% greenhouse gas emission reductions and assessing the risk of carbon leakage.Brussels.Access date: 2010.URL: http://ec.europa.eu/environment/climat/future_action.htm. |#=128 |#rownumber=129}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO et al., 2009 |2=FAO, IIASA, ISRIC, ISSCAS, JRC (2009). Harmonized world soil database (version 1.1).FAO / IIASA.Rome, Italy / Laxenburg, Austria.URL: http://www.fao.org/nr/land/soils/harmonized-world-soil-database/en/ |#=129 |#rownumber=130}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2001a |2=FAO (2001). Plantations and wood energy; based on the work of Donald J. Mead, FAO, Food and Agriculture Organization of the United Nations, Rome. |#=130 |#rownumber=131}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2001b |2=FAO (2001). Human energy requirements. Report of a joint FAO/WHO/UNU expert consultation, Food and nutrition technical report series, Food and Agriculture Organization of the United Nations, Rome. |#=131 |#rownumber=132}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2003 |2=FAO (2003). FAO Methodology for the Measurement of Food Depriviation, FAO Statistics Division, Rome. |#=132 |#rownumber=133}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2006b |2=FAO (2006). Global Planted forestst thematic study: results and analysis, by Del Lungo, A., Ball, J. & Carle, J., Food and Agriculture Organization of the United Nations, Rome. |#=133 |#rownumber=134}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2008 |2=FAO (2008). Forests and energy; Key issuesS. |#=134 |#rownumber=135}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2010 |2=FAO (2010). Global Forest Resources Assessment 2010, FAO, Food and Agriculture Organization of the United Nations, Rome(URL: http://www.fao.org/forestry/fra/fra2010/en/). |#=135 |#rownumber=136}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2011a |2=FAO (2011). The state of the world's land and water resources for food and agriculture (SOLAW) - Managing systems at risk, Food and Agriculture Organization of the United Nations / Earthscan, Rome / London, URL: http://www.fao.org/nr/solaw/en/. |#=136 |#rownumber=137}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2012a |2=FAO (2012). FAOSTAT database collections.Food and Agriculture Organization of the United Nations.URL: http://faostat.fao.org |#=137 |#rownumber=138}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2012b |2=FAO (2012). FRA 2015, Forest Futures Methodology, FAO, Rome(URL: http://www.fao.org/docrep/017/aq073e/aq073e00.pdf). |#=138 |#rownumber=139}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2013a |2=FAO (2013). FAOSTAT database collections.Food and Agriculture Organization of the United Nations.Rome.Access date: 2013-04-22.URL: http://faostat.fao.org |#=139 |#rownumber=140}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2013b |2=FAO (2013). Hunger portal.Access date: 2013-09-12.URL: http://www.fao.org/hunger/en/ |#=140 |#rownumber=141}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2015 |2=FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS (2016). Global Forest Resources Assessment 2015, FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS, Rome(URL: https://www.fao.org/forest-resources-assessment/past-assessments/fra-2015/en/). |#=141 |#rownumber=142}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=FAO, 2020 |2=Food and Agriculture Organization of the United Nations (2020). Global Forest Resources Assessment 2020 (FRA 2020), Food and Agriculture Organization of the United Nations, Food and Agriculture Organization of the United Nations, Rome(URL: https://doi.org/10.4060/ca9825en). |#=142 |#rownumber=143}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Fader et al., 2010 |2=M. Fader, S. Rost, C. Müller, A. Bondeau, D. Gerten (2010). Virtual water content of temperate cereals and maize: Present and potential future patterns. Journal of Hydrology, 384(3-4), pp. 218-231, doi: http://dx.doi.org/10.1016/j.jhydrol.2009.12.011. |#=143 |#rownumber=144}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Faith et al., 2008 |2=D.P. Faith, S. Ferrier, K.J. Williams (2008). Getting biodiversity intactness indices right: ensuring that 'biodiversity' reflects 'diversity'. Global Change Biology, 14, pp. 207-217. |#=144 |#rownumber=145}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Fekete et al., 2010 |2=B.M. Fekete, D. Wisser, C. Kroeze, E. Mayorga, L. Bouwman, W.M. Wollheim, C. Vörösmarty (2010). Millennium ecosystem assessment scenario drivers (1970–2050): climate and hydrological alterations. Global Biogeochemical Cycles, 24(4), doi: http://dx.doi.org/10.1029/2009GB003593. |#=145 |#rownumber=146}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Fischer et al., 2005 |2=G. Fischer, M. Shah, F. N. Tubiello, H. van Velhuizen (2005). Socio-economic and climate change impacts on agriculture: an integrated assessment, 1990-2080. Philosophical Transactions of the Royal Society B-Biological Sciences, 360(1463), pp. 2067-2083, doi: http://dx.doi.org/10.1098/rstb.2005.1744. |#=146 |#rownumber=147}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Foley et al., 2011 |2=J.A. Foley, N. Ramankutty, K.A. Brauman, E.S. Cassidy, J.S. Gerber, M. Johnston, N.D. Mueller, C. O'Connell, D.K. Ray, P.C. West, C. Balzer, E.M. Bennett, Carpenter S.R., J. Hill, C. Monfreda, S. Polasky, J. Rockström, J. Sheehan, S. Siebert, D. Tilman, D.P.M. Zaks (2011). Solutions for a cultivated planet. Nature, 478, pp. 337-342. |#=147 |#rownumber=148}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Forster et al., 2007 |2=P. Forster, V. Ramaswamy, P. Artaxo, T. Berntsen, R. Betts, D.W. Fahey, J. Haywood, J. Lean, D.C. Lowe, G. Myhre, J. Nganga, R. Prinn, G. Raga, M. Schulz, R. Van Dorland (2007). Changes in atmospheric constituents and in radiative forcing. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. In: Solomon S.D. QinM. R. ManningZ. ChenM. MarquisK.B. AverytM. TignorH.L. Miller (eds.), Climate Change 2007: The Physical Science Basis.. Cambridge University Press, Cambridge, United Kingdom / New York, NY, USA., pp. 131-217. |#=148 |#rownumber=149}}{{'''''
|#querycondition= |#querylimit=50 |#resultoffset=100 |#rowcount=462 |1=Frank et al., 2019 |2=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 (2019). Agricultural non-CO₂ emission reduction potential in the context of the 1.5 °C target. Nature Climate Change, 9(1), pp. 66-72, doi: http://dx.doi.org/10.1038/s41558-018-0358-8. |#=149 |#rownumber=150}}

Semantic search

Query log

Navigation menu