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List of results

• DEA, 2018  + (Note on technology costs for offshore wind farms and the background for updating CAPEX and OPEX in the technology catalogue datasheets)
• Bouwman et al., 2013d  + (Nutrient dynamics, transfer and retention along the aquatic continuum from land to ocean: Towards integration of ecological and biogeochemical models)
• Sotto et al., 2015  + (Nutrient load estimates for Manila Bay, Philippines using population data)
• OECD, 2012  + (OECD Environmental outlook to 2050: The consequences of inaction)
• Van Ruijven and Van Vuuren, 2009  + (Oil and natural gas prices and greenhouse gas emission mitigation)
• Hoogwijk, 2004  + (On the global and regional potential of renewable energy sources)
• Cengic et al., 2020  + (On the importance of predictor choice, modelling technique, and number of pseudo‐absences for bioclimatic envelope model performance)
• Håkanson et al., 2007  + (On the issue of limiting nutrient and predictions of cyanobacteria in aquatic systems)
• Berk and Den Elzen, 2001  + (Options for differentiation of future commitments in climate policy: How to realise timely participation to meet stringent climate goals?)
• Stehfest et al., 2013  + (Options to reduce the environmental effects of livestock production - Comparison of two economic models)
• Alcamo et al., 1995b  + (Overview of IMAGE 2.0: An integrated model of climate change and the global environment)
• PBL, 2015  + (PBL Climate Pledge INDC tool)
• Van Vuuren and Alfsen, 2006  + (PPP versus mer: Searching for answers in a multi-dimensional debate)
• Rogelj et al., 2016  + (Paris Agreement climate proposals need a boost to keep warming well below 2 °C)
• UNFCCC (2015b)  + (Paris Agreement. Decision 1/CP.17)
• Overbeek et al., 2001  + (Partial validation of the Dutch model for emission and transport of nutrients (STONE))
• Pope et al., 1995  + (Particulate air pollution as a predictor of mortality in a prospective study of U.S. adults)
• Kok et al., 2018  + (Pathways for agriculture and forestry to contribute to terrestrial biodiversity conservation: A global scenario-study)
• Walsh et al., 2017  + (Pathways for balancing CO2 emissions and sinks)
• Kriegler et al., 2018  + (Pathways limiting warming to 1.5°C: A tale of turning around in no time?)
• Van Vuuren et al., 2015b  + (Pathways to achieve a set of ambitious global sustainability objectives by 2050: Explorations using the IMAGE integrated assessment model)
• Pachauri et al., 2013  + (Pathways to achieve universal household access to modern energy by 2030)
• Den Elzen and van Vuuren, 2007  + (Peaking profiles for achieving long-term temperature targets with more likelihood at lower costs)
• Den Elzen and Van Vuuren, 2007  + (Peaking profiles for achieving long-term temperature targets with more likelihood at lower costs)
• Friedlingstein et al., 2014  + (Persistent growth of CO2 emissions and implications for reaching climate targets)

• De Vries et al., 1999  + (Perspectives on global energy futures: Simulations with the TIME model)

• Gernaat 2019  + (Phd Thesis: The role of renewable energy in long-term energy and climate scenarios)
• Van Vuuren et al., 2010b  + (Phosphorus demand for the 1970-2100 period: A scenario analysis of resource depletion)
• FAO, 2001a  + (Plantations and wood energy; based on the work of Donald J. Mead)
• Herreras Martínez et al., 2015  + (Possible energy futures for Brazil and Latin America in conservative and stringent mitigation pathways up to 2050)
• Peñuelas et al., 2017  + (Possible pathways for balancing CO2 emissions and sinks as agreed in Paris COP21)
• Tavoni et al., 2015  + (Post-2020 climate agreements in the major economies assessed in the light of global models)
• Den Elzen et al., 2010c  + (Postponing emission reductions from 2020 to 2030 increases climate risks and long-term costs)
• Hoogwijk et al., 2005  + (Potential of biomass energy out to 2100, for four IPCC SRES land-use scenarios)
• Hendriks et al., 2004a  + (Power and heat productions: plant developments and grid losses)
• Hof et al., 2011  + (Predictability, equitability and adequacy of post-2012 international climate financing proposals)
• Wischmeier and Smith, 1978  + (Predicting rainfall erosion losses. A guide to conservation planning)
• Seitzinger et al., 2010a  + (Preface to special section on past and future trends in nutrient export from global watersheds and impacts on water quality and eutrophication)
• Musters et al., submitted  + (Present and future species survival: a new method for local, regional, and global estimations)
• Visconti et al., 2016  + (Projecting Global Biodiversity Indicators under Future Development Scenarios)
• Schipper et al., 2020  + (Projecting terrestrial biodiversity intactness with GLOBIO 4)
• Mathers and Loncar, 2006  + (Projections of global mortality and burden of disease from 2002 to 2030)
• Daioglou et al., 2016  + (Projections of the availability and cost of residues from agriculture and forestry)
• Revenga et al., 2005  + (Prospects for monitoring freshwater ecosystems towards the 2010 targets)
• Naegler et al., 2015  + (Quantification of the European industrial heat demand by branch and temperature level)
• Meller et al., 2015b  + (Quantifying biodiversity impacts of climate change and bioenergy: the role of integrated global scenarios)
• Weijters et al., 2009  + (Quantifying the effect of catchment land use and water nutrient concentrations on freshwater river and stream biodiversity)
• Van Minnen et al., 2008  + (Quantifying the effectiveness of climate change mitigation through forest plantations and carbon sequestration with an integrated land-use model)
• Thomson et al., 2011  + (RCP4.5: A pathway for stabilization of radiative forcing by 2100)
• Tabeau et al., 2017  + (REDD policy impacts on the agri-food sector and food security)
• IRENA, 2016  + (REsource)