All references overview
List of all references in citation format
All references
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|1=ADVANCE publications
|2=ADVANCE project team (2014).
ADVANCE publications.URL: http://fp7-advance.eu/content/publications-scientific-reports
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|1=AGECC, 2010
|2=AGECC (2010).
Energy for a sustainable future. Summary report and recommendations, The secretary-general's Advisory group on Energy and climate Change, New York.
|#=1
|#rownumber=2}}{{'''''
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|1=Ackah et al., 2009
|2=C. Ackah, M. Bussolo, R. De Hoyos, D. Medvedev (2009).
A new dataset on global income distribution, The World Bank.
|#=2
|#rownumber=3}}{{'''''
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|1=Admiraal et al., 2016
|2=A. K. Admiraal, A. F. Hof, M. G. J. den Elzen, D. P. van Vuuren (2016).
Costs and benefits of differences in the timing of greenhouse gas emission reductions. Mitigation and Adaptation Strategies for Global Change, 21(8), pp. 1165-1179, doi: http://dx.doi.org/10.1007/s11027-015-9641-4.
Link to PBL-website: http://www.pbl.nl/en/publications/costs-and-benefits-of-differences-in-the-timing-of-greenhouse-gas-emission-reductions.
|#=3
|#rownumber=4}}{{'''''
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|#rowcount=462
|1=Aguiar et al., 2016
|2=Angel Aguiar, Badri Narayanan, Robert McDougall (2016).
An Overview of the GTAP 9 Data Base. Journal of Global Economic Analysis, 1(1), doi: http://dx.doi.org/https://doi.org/10.21642/JGEA.010103AF.
|#=4
|#rownumber=5}}{{'''''
|#querycondition=
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|#resultoffset=0
|#rowcount=462
|1=Alcamo et al., 1998
|2=J. Alcamo, R. Leemans, E. Kreileman (1998).
Global change scenarios of the 21st century, results from the IMAGE 2.1 model. Pergamon, Kidlington, UK.
|#=5
|#rownumber=6}}{{'''''
|#querycondition=
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|1=Alcamo et al., 2003
|2=J. Alcamo, P. Döll, T. Henrichs, F. Kaspar, B. Lehner, T. Rösch, S. Siebert (2003).
Development and testing of the Water. GAP 2 global model of water use and availability. Hydrological Sciences, 48(3), pp. 317-337.
|#=6
|#rownumber=7}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Alcamo, 1994
|2=J. Alcamo (1994).
IMAGE 2.0 Integrated Modelling of Global Climate Change, Kluwer Academic Publishers, Dordrecht / Boston / London.
|#=7
|#rownumber=8}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Alexandratos and Bruinsma, 2012
|2=Nikos Alexandratos, J. Bruinsma (2012).
World agriculture towards 2030/2050: the 2012 revision, FAO, Food and Agriculture Organization of the United Nations(URL: http://www.fao.org/economic/esa).
|#=8
|#rownumber=9}}{{'''''
|#querycondition=
|#querylimit=50
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|#rowcount=462
|1=Alkemade et al., 2009
|2=R. Alkemade, M. Van Oorschot, L. Miles, C. Nellemann, M. Bakkenes, B. Ten Brink (2009).
GLOBIO3: A framework to investigate options for reducing global terrestrial biodiversity loss. Ecosystems, 12(3), pp. 374-390.
Link to PBL-website: http://www.pbl.nl/en/publications/2009/GLOBIO3-A-Framework-to-investigate-options-for-reducing-global-terrestrial-biodiversity-loss.
|#=9
|#rownumber=10}}{{'''''
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|#resultoffset=0
|#rowcount=462
|1=Alkemade et al., 2011a
|2=R. Alkemade, M. Bakkenes, B. Eickhout (2011).
Towards a general relationship between climate change and biodiversity: an example for plant species in Europe. Regional Environmental Change, 11(Suppl. 1), pp. 143-150, doi: http://dx.doi.org/10.1007/s10113-010-0161-1.
Link to PBL-website: http://www.pbl.nl/en/publications/2010/towards-a-general-relationship-between-climate-change-and-biodiversity-an-example-for-plant-species-in-europe.
|#=10
|#rownumber=11}}{{'''''
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|1=Alkemade et al., 2011b
|2=Alkemade, R., Janse, J.H., Van Rooij, W., Trisurat, Y. (2011).
Applying GLOBIO at different geographical levels. In: Trisurat, Y., Shrestha, R.P., Alkemade, R. (eds.), Land Use, Climate change and biodiversity modeling: perspectives and applications. IGI Global, Hershey (PA), USA, pp. 150-170.
|#=11
|#rownumber=12}}{{'''''
|#querycondition=
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|1=Alkemade et al., 2012
|2=R. Alkemade, R.S. Reid, M. Van den Berg, J. De leeuw, M. Jeuken (2012).
Assessing the impact of livestock production on biodiversity in rangeland ecosystems. Proceedings of the National Academy of Sciences of the United States of America (PNAS)(Early edition), doi: http://dx.doi.org/10.1073/pnas.1011013108.
Link to PBL-website: http://www.pbl.nl/en/publications/2012/assessing-the-impacts-of-livestock-production-on-biodiversity-in-rangeland-ecosystems.
|#=12
|#rownumber=13}}{{'''''
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|1=Arets et al., 2011
|2=E.J.M.M. Arets, P.J. van der Meer, C.C. Verwer, G.M. Hengeveld, G.W. Tolkamp, G.J. Nabuurs, M. van Oorschot (2011).
Global wood production : assessment of industrial round wood supply from forest management systems in different global regions, Alterra Wageningen UR.
|#=13
|#rownumber=14}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Argotte and Epple, 1990
|2=L Argotte, D. Epple (1990).
Learning curves in manufacturing. Science, 247, pp. 920-924.
|#=14
|#rownumber=15}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Armington, 1969
|2=P. S. Armington (1969).
A theory of demand for products distinguished by place of production.. IMF Staff papers, 16, pp. 159-76.
|#=15
|#rownumber=16}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Azar and Dowlatabadi, 1999
|2=C. Azar, H. Dowlatabadi (1999).
A review of technical change in assessment of climate policy. Annual Review of Energy and the Environment, 24, pp. 513-544.
|#=16
|#rownumber=17}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bagstad et al., 2013
|2=K.J. Bagstad, G.W. Johnson, B. Voigt, F. Villa (2013).
Spatial dynamics of ecosystm service flows: A comprehensive approach to quntifying actual services. Ecosystem services, 4, pp. 117-125.
|#=17
|#rownumber=18}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bakkes et al., 2008
|2=J.A. Bakkes, P.R. Bosch, A.F. Bouwman, H.C. Eerens, M.G.J. den Elzen, M. Isaac, P.H.M. Janssen, K. Klein Goldewijk, T. Kram, F.A.A.M. de Leeuw, J.G.J. Olivier, M.M.P. van Oorschot, E.E. Stehfest, D.P. van Vuuren, P. Bagnoli, J. Chateau, J. Corfee-Morlot, Y-G. Kim (2008).
Background report to the OECD Environmental Outlook to 2030. Overviews, details, and methodology of model-based analysis, J.A. BakkesP.R. Bosch (eds.), MNP. Link to PBL-website: http://www.pbl.nl/en/publications/2008/BackgroundreporttotheOECDEnvironmentalOutlookto2030.
|#=18
|#rownumber=19}}{{'''''
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|1=Ballantyne et al., 2012
|2=A. P. Ballantyne, C. B. Alden, J. B. Miller, P. P. Tans, J. W. C. White (2012).
Increase in observed net carbon dioxide uptake by land and oceans during the past 50 years. Nature, 488, pp. 70-72, doi: http://dx.doi.org/10.1038/nature11299.
|#=19
|#rownumber=20}}{{'''''
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|#resultoffset=0
|#rowcount=462
|1=Banse et al., 2008
|2=M Banse, H van Meijl, A Tabeau, G Woltjer (2008).
Will EU biofuel policies affect global agricultural markets?. European Review of Agricultural Economics, 35, pp. 117-141.
|#=20
|#rownumber=21}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Barredo et al., 2012
|2=J. I. Barredo, D. Saurí, M. C. Llasat (2012).
Assessing trends in insured losses from floods in Spain 1971-2008. Natural Hazards and Earth System Sciences, 12(5), pp. 1723-1729.
|#=21
|#rownumber=22}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bartholome et al., 2004
|2=E. Bartholome, A. Belward, R. Beuchle, H. Eva, S. Fritz, A. Hartley, P. Mayaux, H-J. Stibig (2004).
Global Land Cover for the year 2000.European CommissionJoint Research Centre.Access date: 2004.
|#=22
|#rownumber=23}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Batjes, 1997
|2=N.H. Batjes (1997).
A world data set of derived soil properties by FAO-UNESCO soil unit for global modelling. Soil use and management, 13, pp. 9-16.
|#=23
|#rownumber=24}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Batjes, 2009
|2=N. H. Batjes (2009).
Harmonized soil profile data for applications at global and continental scales: updates to the WISE database. Soil Use and Management, 25(2), pp. 124-127.
|#=24
|#rownumber=25}}{{'''''
|#querycondition=
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|#resultoffset=0
|#rowcount=462
|1=Bell and Tobin, 2007
|2=H.M. Bell, G.A. Tobin (2007).
Efficient and effective? The 100-year flood in the communication and perception of flood risk. Environmental Hazards, 7, pp. 302-311.
|#=25
|#rownumber=26}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Benitez-Lopez et al., 2010
|2=A. Benitez-Lopez, R. Alkemade, P. A. Verweij (2010).
The impacts of roads and other infrastructure on mammal and bird populations: A meta-analysis. Biological Conservation, 143(6), pp. 1307-1316.
|#=26
|#rownumber=27}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Beringer et al., 2011
|2=T. Beringer, W. Lucht, S. Schaphoff (2011).
Bioenergy production potential of global biomass plantations under environmental and agricultural constraints. Global Change Biology Bioenergy, 3(4), pp. 299-312.
|#=27
|#rownumber=28}}{{'''''
|#querycondition=
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|#resultoffset=0
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|1=Beusen et al., 2008
|2=A. H. W. Beusen, A. F. Bouwman, P. S. C. Heuberger, G. Van Drecht, K. W. Van Der Hoek (2008).
Bottom-up uncertainty estimates of global ammonia emissions from global agricultural production systems. Atmospheric Environment, 42(24), pp. 6067-6077, doi: http://dx.doi.org/10.1016/j.atmosenv.2008.03.044.
Link to PBL-website: http://www.pbl.nl/en/publications/2008/Bottom-up-uncertainty-estimate-of-global-ammonia-emissions-from-global-agricultural-production-systems.
|#=28
|#rownumber=29}}{{'''''
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|#rowcount=462
|1=Beusen et al., 2014
|2=A.H.W. Beusen, L.P.H. Van Beek, A.F. Bouwman, J.J. Middelburg (2014).
Exploring changes in nitrogen and phosphorus biogeochemistry in global rivers in the twentieth century. In: A.H.W. Beusen (eds.), Transport of nutriens from land to sea: Global modeling approaches and uncertainty analyses.
|#=29
|#rownumber=30}}{{'''''
|#querycondition=
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|#resultoffset=0
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|1=Beusen et al., 2015
|2=A. H. W. Beusen, L. P. H. Van Beek, A. F. Bouwman, J. M. Mogollón, J. J. Middelburg (2015).
Coupling global models for hydrology and nutrient loading to simulate nitrogen and phosphorus retention in surface water - Description of IMAGE-GNM and analysis of performance. Geoscientific Model Development, 8(12), pp. 4045-4067, doi: http://dx.doi.org/10.5194/gmd-8-4045-2015.
|#=30
|#rownumber=31}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Beusen et al., 2016
|2=A. H. W. Beusen, A. F. Bouwman, L. P. H. Van Beek, J. M. Mogollón, J. J. Middelburg (2016).
Global riverine N and P transport to ocean increased during the 20th century despite increased retention along the aquatic continuum. Biogeosciences, 13(8), pp. 2441-2451, doi: http://dx.doi.org/10.5194/bg-13-2441-2016.
|#=31
|#rownumber=32}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Beusen, 2014
|2=Beusen A.H.W. (2014).
Transport of nutriens from land to sea: Global modeling approaches and uncertainty analyses.Ph.D thesis.Utrecht University.The Netherlands.URL: http://dspace.library.uu.nl/handle/1874/298665
|#=32
|#rownumber=33}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bianchi et al., 2005
|2=F. J. J. A. Bianchi, W. K. R. E. van Wingerden, A. J. Griffioen, M. van der Veen, M. J. J. van der Straten, R. M. A. Wegman, H. A. M. Meeuwsen (2005).
Landscape factors affecting the control of Mamestra brassicae by natural enemies in Brussels sprout. Agriculture, Ecosystems & Environment, 107(2-3), pp. 145-150, doi: http://dx.doi.org/10.1016/j.agee.2004.11.007.
|#=33
|#rownumber=34}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Biemans et al., 2009
|2=H. Biemans, R. W. A. Hutjes, P. Kabat, B. J. Strengers, D. Gerten, S. Rost (2009).
Effects of precipitation uncertainty on discharge calculations for main river basins. Journal of Hydrometeorology, 10(4), pp. 1011-1025.
|#=34
|#rownumber=35}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Biemans et al., 2011
|2=H Biemans, I Haddeland, P Kabat, F Ludwig, RWA Hutjes, J Heinke, W Von Bloh, D Gerten (2011).
Impact of reservoirs on river discharge and irrigation water supply during the 20th century. Water Resources Research, 47(3), pp. W03509, doi: http://dx.doi.org/10.1029/2009WR008929.
|#=35
|#rownumber=36}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Biemans et al., 2013
|2=H. Biemans, L.H. Speelman, F. Ludwig, E.J. Moors, A.J. Wiltshire, P. Kumar, D. Gerten, P. Kabat (2013).
Future water resources for food production in five South Asian river basins and potential for adaptation — A modeling study. Science of The Total Environment, 468–469(Supplement), pp. S117-S131, doi: http://dx.doi.org/10.1016/j.scitotenv.2013.05.092.
|#=36
|#rownumber=37}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Biemans, 2012
|2=H. Biemans (2012).
Water constraints on future food production.Earth System Science.Ph.D thesis.Wageningen University.The Netherlands.
|#=37
|#rownumber=38}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bierkens and Van Beek, 2009
|2=M. F. P. Bierkens, L. P. H. Van Beek (2009).
Seasonal predictability of European discharge: NAO and hydrological response time. Journal of Hydrometeorology, 10(4), pp. 953-968.
|#=38
|#rownumber=39}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bijl et al., 2016
|2=D. L. Bijl, P. W. Bogaart, T. Kram, B. J. M. de Vries, D. P. van Vuuren (2016).
Long-term water demand for electricity, industry and households. Environmental Science and Policy, 55, pp. 75-86, doi: http://dx.doi.org/10.1016/j.envsci.2015.09.005.
|#=39
|#rownumber=40}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bijl et al., 2017
|2=D.L. Bijl, P.W. Bogaart, S.C. Dekker, E. Stehfest, B.J.M. de Vries, D.P. van Vuuren (2017).
A physically-based model of long-term food demand. Global Environmental Change, 45, pp. 47-62, doi: http://dx.doi.org/10.1016/j.gloenvcha.2017.04.003.
|#=40
|#rownumber=41}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bijl et al., 2018a
|2=D.L. Bijl, H. Biemans, P.W. Bogaart, S.C. Dekker, J.C. Doelman, E. Stehfest, D.P. van Vuuren (2018).
A Global Analysis of Future Water Deficit Based On Different Allocation Mechanisms. Water Resources Research, 54(8), pp. 5803-5824, doi: http://dx.doi.org/10.1029/2017WR021688.
|#=41
|#rownumber=42}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bindraban et al., 2012
|2=P.S. Bindraban, M. van der Velde, L. Ye, M. van den Berg, S. Materechera, D. I. Kiba, L. Tamene, K. V. Ragnarsdóttir, R. Jongschaap, M. Hoogmoed, W. Hoogmoed, C. van Beek, G. van Lynden (2012).
Assessing the impact of soil degradation on food production. Current Opinion in Environmental Sustainability, 4(5), pp. 468-488, doi: http://dx.doi.org/10.1016/j.cosust.2012.09.015.
|#=42
|#rownumber=43}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bobbink et al., 2010
|2=R. Bobbink, K. Hicks, J. Galloway, T. Spranger, R. Alkemade, M. Ashmore, M. Bustamante, S. Cinderby, E. Davidson, F. Dentener, B. Emmett, J. Erisman, M. Fenn, F. Gilliam, A. Nordin, L. Pardo, W. de Vries (2010).
Global assessment of nitrogen deposition effects on terrestrial plant diversity: a synthesis.. Ecological Applications, 20(1), pp. 30-59.
|#=43
|#rownumber=44}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Boccaccio and Petacchi, 2009
|2=L. Boccaccio, R. Petacchi (2009).
Landscape effects on the complex of Bactrocera oleae parasitoids and implications for conservation biological control. BioControl, 54, pp. 607-616.
|#=44
|#rownumber=45}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bondeau et al., 2007
|2=A. Bondeau, P. C. Smith, S. Zaehle, S. Schaphoff, W. Lucht, W. Cramer, D. Gerten, H. Lotze-Campen, C. Müller, M. Reichstein, B. Smith (2007).
Modelling the role of agriculture for the 20th century global terrestrial carbon balance. Global Change Biology, 13(3), pp. 679-706.
|#=45
|#rownumber=46}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bouwer et al., 2010
|2=L. M. Bouwer, P. Bubeck, J. C. J. H. Aerts (2010).
Changes in future flood risk due to climate and development in a Dutch polder area. Global Environmental Change, 20(3), pp. 463-471.
|#=46
|#rownumber=47}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bouwman et al., 1993
|2=A. F. Bouwman, I. Fung, E. Matthews, J. John (1993).
Global analysis of the potential for N2O production in natural soils. Global Biogeochemical Cycles, 7(3), pp. 557-597, doi: http://dx.doi.org/10.1029/93GB01186.
|#=47
|#rownumber=48}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bouwman et al., 1997
|2=A. F. Bouwman, D. S. Lee, W. A. H. Asman, F. J. Dentener, K. W. Van Der Hoek, J. G. J. Olivier (1997).
A global high-resolution emission inventory for ammonia. Global Biogeochemical Cycles, 11(4), pp. 561-587, doi: http://dx.doi.org/10.1029/97GB02266.
Link to PBL-website: http://www.pbl.nl/en/publications/1997/a_global_high_resolution_emission_inventory_for_ammonia.
|#=48
|#rownumber=49}}{{'''''
|#querycondition=
|#querylimit=50
|#resultoffset=0
|#rowcount=462
|1=Bouwman et al., 2002a
|2=A. F. Bouwman, L. J. M. Boumans, N. H. Batjes (2002).
Emissions of N2O and NO from fertilized fields: Summary of available measurement data. Global Biogeochemical Cycles, 16(4), pp. 6-1, doi: http://dx.doi.org/10.1029/2001GB001811.
Link to PBL-website: http://www.pbl.nl/en/publications/2002/Emissions_of_N2O_and_NO_from_fertilized_fields__summary_of_available_measurement_data.
|#=49
|#rownumber=50}}... further results
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