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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

• IPCC, 2012  + (Managing the risks of extreme events and disasters to advance climate change adaptation. A special report of working groups I and II of the Intergovernmental Panel on Climate Change)
• Schulp et al., 2012  + (Mapping ecosystem functions and services in Eastern Europe using global-scale data sets)
• Burkhard et al., 2012  + (Mapping ecosystem service supply, demand and budgets)
• Egoh et al., 2008  + (Mapping ecosystem services for planning and management)
• Garcia-Nieto et al., 2013  + (Mapping forest ecosystem services: From providing units to beneficiaries)
• Hallegatte et al., 2016  + (Mapping the climate change challenge)
• Li et al., 2020  + (Mapping the yields of lignocellulosic bioenergy crops from observations at the global scale)
• Bouwman et al., 2013e  + (Mariculture: Significant and expanding cause of coastal nutrient enrichment)
• Hawkins and Cornell, 1994  + (Maximum Parasitism Rates and Successful Biological control)
• Van Jaarsveld et al., 2005  + (Measuring conditions and trends in ecosystem services at multiple scales: the Southern African Millennium Ecosystem Assessment - MA (2005) project (SAfMA) experience)
• Woltjer, 2011  + (Meat consumption, production and land use: model implementation and scenarios)
• Van Vliet et al., 2009  + (Meeting radiative forcing targets under delayed participation)
• Roelfsema et al., 2013  + (Methodology for analysing greenhouse gas emission reduction proposals and national climate policies of major economies)
• Winkler et al., 2008  + (Methods for quantifying the benefits of sustainable development policies and measures (SD-PAMs))
• Schaeffer et al., 2015  + (Mid- and long-term climate projections for fragmented and delayed-action scenarios)
• Fekete et al., 2010  + (Millennium ecosystem assessment scenario drivers (1970–2050): climate and hydrological alterations)
• Manning et al., 2010  + (Misrepresentation of the IPCC CO2 emission scenarios)
• Van Vuuren and De Vries, 2001  + (Mitigation scenarios in a world oriented at sustainable development: The role of technology, efficiency and timing)
• Wicke et al., 2015  + (Model collaboration for the improved assessment of biomass supply, demand, and impacts)
• Van Ruijven et al., 2011  + (Model projections for household energy use in India)
• Daioglou et al., 2012  + (Model projections for household energy use in developing countries)
• Van Ruijven et al., 2012  + (Model-based scenarios for rural electrification in developing countries)
• Den Elzen and Rotmans, 1993  + (Modeling Climate Related Feedback Processes)
• Van Ruijven et al., 2008b  + (Modeling Energy and Development: An Evaluation of Models and Concepts)
• Braakhekke et al., 2019  + (Modeling forest plantations for carbon uptake with the LPJmL dynamic global vegetation model)

• Bouwman et al., 2002  + (Modeling global annual N2O and NO emissions from fertilized fields)

• Kroeze et al., 2012  + (Modeling global nutrient export from watersheds)
• Isaac and van Vuuren, 2009  + (Modeling global residential sector energy demand for heating and air conditioning in the context of climate change)
• Isaac and Van Vuuren, 2009  + (Modeling global residential sector energy demand for heating and air conditioning in the context of climate change)
• Glibert et al., 2010  + (Modeling of HABs and eutrophication: Status, advances, challenges)
• Grubler et al., 1999  + (Modeling technological change: Implications for the global environment)
• Santos et al., 2017  + (Modeling the effects of future growing demand for charcoal in the tropics)
• Alcamo et al., 1994b  + (Modeling the global society-biosphere-climate system: Part 2: Computed scenarios)
• Alcamo et al., 1994a  + (Modeling the global society-biosphere-climate system: Part 1: Model description and testing)
• Lapola et al., 2009  + (Modeling the land requirements and potential productivity of sugarcane and jatropha in Brazil and India using the LPJmL dynamic global vegetation model)
• Rolinski et al., 2018  + (Modeling vegetation and carbon dynamics of managed grasslands at the global scale with LPJmL 3.6)
• Van Meijl et al., 2020  + (Modelling alternative futures of global food security: Insights from FOODSECURE)
• Lee et al., 1999  + (Modelling base cations in Europe - Sources, transport and deposition of calcium)
• Rotmans and Den Elzen, 1993  + (Modelling feedback mechanisms in the carbon cycle: balancing the carbon budget)
• Hootsmans et al., 2001  + (Modelling land degradation in IMAGE 2)
• Bouwman, 1989a  + (Modelling soil organic matter decomposition and rainfall erosion in two tropical soils after forest clearing for permanent agriculture)
• Beusen et al., 1995  + (Modelling the flow of nitrogen and phosphorus in Europe: From loads to coastal seas)
• Bondeau et al., 2007  + (Modelling the role of agriculture for the 20th century global terrestrial carbon balance)
• Ramirez Ramirez, 2005  + (Monitoring Energy Efficiency in the Food Industry)
• Richels et al., 2004  + (Moving beyond concentrations: The challenge of limiting temperature change)
• O'Farrell et al., 2010  + (Multi-functional landscapes in semi arid environments: Implications for biodiversity and ecosystem services)
• Den Elzen et al., 2007  + (Multi-gas emission envelopes to meet greenhouse gas concentration targets: Costs versus certainty of limiting temperature increase)
• Meinshausen et al., 2006  + (Multi-gas emissions pathways to meet climate targets)
• Van Vuuren et al., 2006d  + (Multi-gas scenarios to stabilize radiative forcing)
• Johansson et al., 2014  + (Multi-model comparison of the economic and energy implications for China and India in an international climate regime)
• Plotkin and Singh 2009  + (Multi-path transportation futures study: vehicle characterization and scenario analyses.)