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This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

List of results

• Roorda and Neelis, 2006  + (Inclusion of production, energy use and value added for steel, cement and paper in the TIMER energy demand module)
• Ballantyne et al., 2012  + (Increase in observed net carbon dioxide uptake by land and oceans during the past 50 years)
• Yan et al., 2010  + (Increasing anthropogenic nitrogen inputs and riverine DIN exports from the Changjiang River basin under changing human pressures)
• Kruyt et al., 2009  + (Indicators for energy security)
• Overmars et al., 2011  + (Indirect land use change emissions related to EU biofuel consumption: An analysis based on historical data)
• Wicke et al., 2012  + (Indirect land use change: Review of existing models and strategies for mitigation)
• Flessa et al., 1996  + (Influence of cattle wastes on nitrous oxide and methane fluxes in pasture land)
• Girod et al., 2013  + (Influence of travel behavior on global CO2 emissions)
• Bouwman and Sombroek, 1990  + (Inputs to climatic change by soil and agriculture related activities: present status and possible future trends)
• Daioglou et al., 2019  + (Integrated assessment of biomass supply and demand in climate change mitigation scenarios)
• WMO/UNEP, 2013  + (Integrated assessment of black carbon and tropospheric ozone)
• Roelfsema et al., 2018b  + (Integrated assessment of international climate mitigation commitments outside the UNFCCC)
• Kram and Stehfest, 2011  + (Integrated modeling of global environmental change (IMAGE))
• MNP, 2006  + (Integrated modelling of global environmental change : an overview of IMAGE 2.4)
• Posch et al., 1996  + (Integrated scenarios of acidification and climate change in Asia and Europe)
• Lucas et al., 2014  + (Integrating biodiversity and ecosystem services in the post-2015 development agenda: Goal structure, target areas and means of implementation)
• Hinkel and Klein, 2009  + (Integrating knowledge to assess coastal vulnerability to sea-level rise: The development of the DIVA tool)
• UNFCCC (2015)  + (Intended Nationally Determined Contributions (INDCs))
• Kleijn and Langevelde, 2006  + (Interacting effects of landscape context and habitat quality on flower visiting insects in agricultural landscapes)
• McCollum et al., 2018a  + (Interaction of consumer preferences and climate policies in the global transition to low-carbon vehicles)
• Edelenbosch et al., 2018a  + (Interactions between social learning and technological learning in electric vehicle futures)
• Hordijk et al., 2014  + (International review of IMAGE 3.0, Report of the 2014 IMAGE Advisory Board)
• Bouwman and Germon, 1998  + (Introduction)
• Kriegler et al., 2015d  + (Introduction to the AMPERE model intercomparison studies on the economics of climate stabilization)
• Swart et al., 1993  + (Inventory of greenhouse gas emissions in The Netherlands)

• Batjes and Bouwman, 1989  + (JAMPLES: a computerized land evaluation system for Jamaica)

• WHO/UNICEF, 2012  + (Joint monitoring programme for water and sanitation: 2011 update)
• Stehfest et al., 2019  + (Key determinants of global land-use projections)
• Sattari et al., 2014b  + (Key role of China and its agriculture in global sustainable phosphorus management)
• Schaphoff et al., 2018b  + (LPJmL4 – a dynamic global vegetation model with managed land – Part 2: Model evaluation)
• Schaphoff et al., 2018a  + (LPJmL4 – a dynamic global vegetation model with managed land – Part 1: Model description)
• Van Asselen and Verburg, 2013  + (Land cover change or land-use intensification: simulating land system change with a global-scale land change model)
• Klein Goldewijk and Ramankutty, 2004  + (Land cover change over the last three centuries due to human activities: The availability of new global data sets)
• Groeneveld et al., 2001  + (Land cover changes as a result of environmental restrictions on nitrate leaching in dairy farming)
• Bouwman, 1990b  + (Land use related sources of greenhouse gases. Present emissions and possible future trends)
• Pielke et al., 2011  + (Land use/land cover changes and climate: Modeling analysis and observational evidence)
• Rose et al., 2012  + (Land-based mitigation in climate stabilization)
• Harper et al., 2018  + (Land-use emissions play a critical role in land-based mitigation for Paris climate targets)
• Popp et al., 2017  + (Land-use futures in the shared socio-economic pathways)
• Popp et al., 2014  + (Land-use transition for bioenergy and climate stabilization: Model comparison of drivers, impacts and interactions with other land use based mitigation options)
• Boccaccio and Petacchi, 2009  + (Landscape effects on the complex of Bactrocera oleae parasitoids and implications for conservation biological control)
• Bianchi et al., 2005  + (Landscape factors affecting the control of Mamestra brassicae by natural enemies in Brussels sprout)
• Krause et al., 2018  + (Large uncertainty in carbon uptake potential of land-based climate-change mitigation efforts)
• Schoots et al., 2008  + (Learning curves for hydrogen production technology: An assessment of observed cost reductions)
• Argotte and Epple, 1990  + (Learning curves in manufacturing)
• Bouwman et al., 2017  + (Lessons from temporal and spatial patterns in global use of N and P fertilizer on cropland)
• Jewell et al., 2018  + (Limited emission reductions from fuel subsidy removal except in energy-exporting regions)
• Gelauff et al., 1995  + (Linking IMAGE 2 and WORLD SCAN)
• Dürr et al., 2005  + (Lithologic composition of the earth's continental surfaces derived from a new digital map emphasizing riverine material transfer)
• Delgado et al., 1999  + (Livestock to 2020. The next food revolution)
• Riahi et al., 2015  + (Locked into Copenhagen pledges - Implications of short-term emission targets for the cost and feasibility of long-term climate goals)