Search by property

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

• Demand for primary energy  + (Total demand for energy production. Sum of final energy demand and energy inputs into energy conversion processes.)
• Total primary energy supply  + (Total primary energy supply.)
• Trade restriction  + (Trade tariffs and barriers limiting trade in energy carriers (in energy submodel).)
• Irrigation system  + (Type of irrigation system: surface, sprinkler or drip. This is allocated at country level, based on Jagermeyr et al (2015).)
• PurDue University  + (University located in West Lafayette, Indiana, US. Coordinating institute of GTAP database)
• Built-up area - grid  + (Urban built-up area per grid cell, excluded from all biophysical modelling in IMAGE, increasing over time as a function of urban population and a country- and scenario-specific urban density curve.)
• Urban population fraction  + (Urban/rural split of population.)
• Sector value added  + (Value Added for economic sectors: Industry (IVA), Services (SVA) and Agriculture (AVA). These variables are used in IMAGE to indicate economic activity.)
• Energy resources  + (Volume of energy resource per carrier, region and supply cost class (determines depletion dynamics).)
• Wildfinder database  + (WWF’s Wildfinder is an interactive tool that visualizes the global distribution of thousands of species that roam the Earth)
• Water availability - grid  + (Water availability in rivers, lakes and reservoirs.)
• Irrigation water consumption - grid  + (Water consumed through irrigation; equal to irrigation water withdrawal minus water lost during transport, depending on the conveyance efficiency.)
• Crop irrigation water demand - grid  + (Water requirements for crop irrigation, calculated as daily moisture deficit during the growing season.)
• Water stress - grid  + (Water stress is a basin scale indicator of … Water stress is a basin scale indicator of the mean annual water demand to availability ratio. This ratio gives an indication for the level of water stress experienced in the basin. Basins with a water demand to availability ratio above 0.2 are considered medium water stressed, basins with ratios above 0.4 are severely water stressed.ios above 0.4 are severely water stressed.)
• Water stress - basin  + (Water stress is a basin scale indicator of the mean annual water demand to availability ratio. This ratio gives an indication for the level of water stress experienced in the basin.)
• Irrigation water supply - grid  + (Water supplied to irrigated fields; equal to irrigation water withdrawal minus water lost during transport, depending on the conveyance efficiency.)
• Irrigation water withdrawal - grid  + (Water withdrawn for irrigation, not necessarily equal to the withdrawal demand, because of limited water availability in rivers, lakes, reservoirs and other sources.)
• Weighting factors for temperature, precipitation, land use and slope  + (Weighting factors for the contribution of temperature, precipitation, land use and slope on distribution of soil properties.)
• PQ2 (IF)  + (What are the consequences of these changes for international targets for biodiversity protection (addressed by the CBD), climate change (UNFCCC) and human development (addressed by the Millennium Development Goals and Sustainable Development Goals)?)
• PQ3(NVCC)  + (What are the contributions of land-use change, climate change and CO₂ fertilization on the future carbon cycle and how can these be considered in climate policies?)
• PQ2 (LD)  + (What are the future risks of soil degradation?)
• PQ1 (LS)  + (What are the impacts of increasing livestock production on land use, greenhouse gases and other emissions to air and surface water?)
• PQ2 (FM)  + (What are the implications of forest management for pristine and managed forest areas, and on biomass and carbon stocks and fluxes of relevance for climate policy?)
• PQ1 (HD)  + (What are the key future trends in human development, such as those targeted by the Millennium Development Goals (MDGs)?)
• PQ2 (TB)  + (What are the key pressure factors causing biodiversity loss?)

• PQ2 (AB)  + (What are the key pressure factors causing loss of aquatic biodiversity?)

• PQ4 (IF)  + (What are the linkages between components of environmental change and human development? What are key uncertainties?)
• PQ2 (AEF)  + (What are the policy options to reduce agricultural land use and to safeguard global biodiversity, while ensuring food security?)
• PQ2 (EC)  + (What are the potential roles of individual technologies, such as carbon capture and storage (CCS), nuclear power, hydrogen and renewable energy?)
• PQ3 (FM)  + (What are the prospects for more sustainable forest management and the role of production in dedicated forest plantations?)
• PQ3 (LBP)  + (What are the synergies and trade-offs between halting biodiversity loss, food security, reducing nutrient emissions, and reducing water stress?)
• PQ4 (CP)  + (What are the trade-offs between mitigation costs, adaptation costs, and climate change damage?)
• PQ1 (CP)  + (What global greenhouse gas emissions pathways would meet the well below 2 °C climate target?)
• PQ1 (AEF)  + (What is the area of cropland and grassland required to support future food demand?)
• PQ1 (H)  + (What is the combined effect of climate change and socio-economic development on water demand and availability, and on associated agricultural production?)
• PQ4 (VHA)  + (What is the combined effect of climate change and socio-economic development on water demand and availability, and associated agricultural production?)
• PQ2 (CP)  + (What is the effect of effort-sharing approaches on regional and national emission reduction targets and on the cost of climate policies?)
• PQ3 (CP)  + (What is the effect of the NDCs on achieving the long term 2 ºC target?)
• PQ1 (TB)  + (What is the future rate of terrestrial biodiversity loss in the absence of additional policies and measures?)
• PQ2 (ED)  + (What is the mix of end-use energy carriers to meet future energy demand?)
• PQ2 (H)  + (What is the potential of adaptation measures to reduce water stress and water-related crop production losses?)
• PQ1 (EC)  + (What is the potential role of energy conversion sector, particularly in power production, in achieving a more sustainable energy system?)
• PQ1 (NVCC)  + (What is the role of the terrestrial biosphere in the global carbon cycle, how will it change in time as a result of climate and land-use change?)
• PQ3 (VHA)  + (What is the role of the terrestrial biosphere in the global carbon cycle, how will it change in time as a result of climate and land-use change?)
• PQ3 (NVCC)  + (What opportunities exist to reduce land-use related carbon emissions (e.g. REDD) and even enhance the carbon uptake through the establishment of new forests.)
• PQ2 (E)  + (What synergies between climate policy and air pollution control can be identified?)
• PQ2 (ESD)  + (What transitions in the energy system would meet long-term climate goals?)
• PQ3 (FR)  + (What would be suitable adaptation strategies and investment options related to flood risk?)
• PQ2 (FR)  + (What would be the impact of floods, in terms of damage and victims, and where are the hot spots?)
• PQ1 (ACC)  + (What would be the impact of global climate change in this century without additional mitigation policies and measures?)
• Key policy issues overview  + (Which policy issues are addressed by which component grouped by policy theme. The policy response components ([[Climate policy]], [[Air pollution and energy policies]], [[Land and biodiversity policies]]) summarise policy issues and policy interventions.)