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{{#ask:[[Category:KeyPolicyQuestion]]|?HasDescription|?PQBelongsToComponent|limit=100|sort=PQBelongsToComponent | {{#ask:[[Category:KeyPolicyQuestion]]|?HasDescription|?PQBelongsToComponent|?HasThemeItem|limit=100|sort=PQBelongsToComponent | ||
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Revision as of 10:52, 22 May 2014
| HasDescription | PQBelongsToComponent | HasThemeItem | |
|---|---|---|---|
| PQ3 (AEF) | How can the implications of biofuels for land use and greenhouse gases be managed sustainably? | Agricultural economy | Other land use (Land use) GHG emissions (Climate) |
| PQ1 (AEF) | What is the area of cropland and grassland required to support future food demand? | Agricultural economy | Agricultural land use (Land use) Land use system (Land use) |
| PQ2 (AEF) | What are the policy options to reduce agricultural land use and to safeguard global biodiversity, while ensuring food security? | Agricultural economy | Agricultural land use (Land use) Terrestrial biodiversity (NB) Food demand (Food) |
| PQ2 (APEP) | How can the goals for affordable, clean and reliable energy be achieved taking into account possible synergies and trade-offs? | Air pollution and energy policies | Energy demand (Energy) Air quality (Air pollution) |
| PQ1 (APEP) | How do energy policies contribute to economic and social development, and how do they support or hamper a more sustainable future? | Air pollution and energy policies | Energy demand (Energy) Climate mitigation (Climate) Air quality (Air pollution) |
| PQ3 (AB) | How will policies and measures to reduce the key pressure factors contribute to meeting the internationally agreed targets of the UN Convention on Biological Diversity (CBD)? | Aquatic biodiversity | Aquatic biodiversity (NB) Water stress (Water) Water quality (Water) |
| PQ1 (AB) | How will the biodiversity in freshwater bodies develop in the absence of additional policies and measures? | Aquatic biodiversity | Land cover (NB) Aquatic biodiversity (NB) Water quality (Water) |
| PQ2 (AB) | What are the key pressure factors causing loss of aquatic biodiversity? | Aquatic biodiversity | Aquatic biodiversity (NB) Water quality (Water) |
| PQ2 (ACC) | To what extent would the various scenarios to significantly reduce net greenhouse gas emissions lead to a reduction in climate change? | Atmospheric composition and climate | Climate mitigation (Climate) GHG emissions (Climate) Climate change (Climate) |
| PQ3 (ACC) | To what extent does the uncertainty of geographical patterns in temperature and precipitation change influence future climate impacts and response strategies? | Atmospheric composition and climate | Climate change (Climate) |
| PQ1 (ACC) | What would be the impact of global climate change in this century without additional mitigation policies and measures? | Atmospheric composition and climate | Climate change (Climate) |
| PQ2 (NVCC) | To what extent can the terrestrial biosphere contribute to reducing the accumulation of CO2 in the atmosphere and what are viable mechanisms? | Carbon cycle and natural vegetation | GHG emissions (Climate) |
| 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. | Carbon cycle and natural vegetation | GHG emissions (Climate) Degradation (Land use) |
| 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? | Carbon cycle and natural vegetation | Agricultural land use (Land use) GHG emissions (Climate) |
| 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? | Carbon cycle and natural vegetation | Other land use (Land use) Climate change (Climate) |
| PQ4 (VHA) | What is the combined effect of climate change and socio-economic development on water demand and availability, and associated agricultural production? | Carbon, vegetation, agriculture and water | Crop production (Food) Water stress (Water) Irrigation (Water) |
| PQ2 (VHA) | How do climate change and land-use management affect the land productivity of current and future agricultural land? | Carbon, vegetation, agriculture and water | Agricultural land use (Land use) Crop production (Food) Climate change (Climate) |
| 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? | Carbon, vegetation, agriculture and water | Agricultural land use (Land use) GHG emissions (Climate) |
| PQ1 (CP) | What global greenhouse gas emissions pathways would meet the well below 2 °C climate target? | Climate policy | GHG emissions (Climate) Climate change (Climate) Other climate (Climate) |
| PQ2 (CP) | What is the effect of effort-sharing approaches on regional and national emission reduction targets and on the cost of climate policies? | Climate policy | GHG emissions (Climate) Other climate (Climate) |
| PQ4 (CP) | What are the trade-offs between mitigation costs, adaptation costs, and climate change damage? | Climate policy | Climate mitigation (Climate) Climate impacts (Climate) Other climate (Climate) Climate adaptation (Climate) |
| PQ3 (CP) | What is the effect of the NDCs on achieving the long term 2 ºC target? | Climate policy | Climate mitigation (Climate) |
| PQ1 (CG) | How will climate change affect the productivity of current and future agricultural areas? | Crops and grass | Crop production (Food) Climate impacts (Climate) |
| PQ2 (CG) | How could management improve agricultural productivity under current and future water constraints? | Crops and grass | GHG emissions (Climate) Other climate (Climate) |
| PQ3 (CG) | How will agriculture affect the Earth system with respect to carbon emissions, freshwater availability and nutrient cycles? | Crops and grass | Agricultural land use (Land use) Land cover (NB) Water stress (Water) |
| PQ3 (EGS) | How could policy interventions influence the interaction between ecosystem services and other goals and ambitions, such as the millennium development goals? | Ecosystem services | Eco goods and services (NB) |
| PQ1 (EGS) | How would ecosystem services and the benefits from the natural environment develop in the absence of specific policies? | Ecosystem services | Eco goods and services (NB) |
| PQ2 (EGS) | How could policy interventions contribute to improving future ecosystem services? | Ecosystem services | Eco goods and services (NB) |
| PQ1 (E) | How will emissions of greenhouse gases and air pollutants develop in scenarios with and without policy interventions, such as climate policy and air pollution control? | Emissions | Climate mitigation (Climate) GHG emissions (Climate) Air quality (Air pollution) Other air pollution (Air pollution) BC-OC emissions (Air pollution) |
| PQ2 (E) | What synergies between climate policy and air pollution control can be identified? | Emissions | Climate mitigation (Climate) GHG emissions (Climate) Air quality (Air pollution) |
| PQ1 (EC) | What is the potential role of energy conversion sector, particularly in power production, in achieving a more sustainable energy system? | Energy conversion | Other energy (Energy) |
| PQ2 (EC) | What are the potential roles of individual technologies, such as carbon capture and storage (CCS), nuclear power, hydrogen and renewable energy? | Energy conversion | Other energy (Energy) Climate mitigation (Climate) |
| PQ2 (ED) | What is the mix of end-use energy carriers to meet future energy demand? | Energy demand | Energy demand (Energy) |
| PQ3 (ED) | How can energy efficiency contribute to reducing the growth rate of energy demand and mitigate pressures on the global environment? | Energy demand | Energy demand (Energy) Energy system (Energy) Energy emissions (Energy) |
| PQ1 (ED) | How will energy demand evolve particularly in emerging and medium- and low-income economies? | Energy demand | Energy demand (Energy) |
| PQ2 (ES) | How can energy supply and demand be balanced between world regions, and how will this effect security of supply? | Energy supply | Energy demand (Energy) |
| PQ3 (ES) | How rapidly can the transition to more sustainable energy supply be made? | Energy supply | Energy system (Energy) |
| PQ1 (ES) | How can energy resources be exploited to meet future primary energy demand? | Energy supply | Energy system (Energy) |
| PQ1 (ESD) | How can energy supply and demand become more sustainable, balancing human development, security of supply, and concerns about climate change and air pollution? | Energy supply and demand | Energy demand (Energy) Energy system (Energy) Other energy (Energy) Energy emissions (Energy) |
| PQ2 (ESD) | What transitions in the energy system would meet long-term climate goals? | Energy supply and demand | Other energy (Energy) Climate mitigation (Climate) |
| PQ3 (ESD) | How are these strategies affected by uncertainties in the energy system? | Energy supply and demand | Other energy (Energy) |
| PQ1 (FR) | How will future flood risk change as a result of socio-economic changes and climate change? | Flood risks | Other water (Water) |
| PQ2 (FR) | What would be the impact of floods, in terms of damage and victims, and where are the hot spots? | Flood risks | Other water (Water) |
| PQ3 (FR) | What would be suitable adaptation strategies and investment options related to flood risk? | Flood risks | Other water (Water) |
| PQ1 (FM) | How can management influence forest capacity to meet future demand for wood and other ecosystem services? | Forest management | Eco goods and services (NB) Forestry (Land use) |
| 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? | Forest management | GHG emissions (Climate) Forestry (Land use) |
| PQ3 (FM) | What are the prospects for more sustainable forest management and the role of production in dedicated forest plantations? | Forest management | Forestry (Land use) |
| PQ2 (HD) | How are changes in the global environment likely to affect human development? | Human development | Human development (HD) |
| PQ3 (HD) | How is improved access to food, water and energy likely to contribute to human development? | Human development | Human development (HD) |
| PQ1 (HD) | What are the key future trends in human development, such as those targeted by the Millennium Development Goals (MDGs)? | Human development | Human development (HD) |
| 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)? | IMAGE framework summary | Aquatic biodiversity (NB) Terrestrial biodiversity (NB) Air quality (Air pollution) Climate change (Climate) |
| PQ3 (IF) | How could response strategies limit environmental pressures and foster more sustainable development? | IMAGE framework summary | Human development (HD) |
| PQ4 (IF) | What are the linkages between components of environmental change and human development? What are key uncertainties? | IMAGE framework summary | Human development (HD) |
| PQ1 (IF) | How could global environmental issues such as climate change, biodiversity loss and air pollution evolve? | IMAGE framework summary | Aquatic biodiversity (NB) Terrestrial biodiversity (NB) Air quality (Air pollution) Climate change (Climate) |
| PQ1 (LBP) | How can land-use policies contribute to strategies for halting biodiversity loss and reducing greenhouse gas emissions? | Land and biodiversity policies | Terrestrial biodiversity (NB) GHG emissions (Climate) |
| PQ2 (LBP) | How can changes in consumption patterns contribute to achieving sustainability goals through changes in land use? | Land and biodiversity policies | Nutrition and diet (Food) |
| PQ3 (LBP) | What are the synergies and trade-offs between halting biodiversity loss, food security, reducing nutrient emissions, and reducing water stress? | Land and biodiversity policies | Terrestrial biodiversity (NB) Water stress (Water) Other food (Food) |
| PQ2 (LD) | What are the future risks of soil degradation? | Land degradation | Degradation (Land use) |
| PQ3 (LD) | To what extent are ecosystem functions lost by soil degradation, adding to local and global concerns about food security, biodiversity loss and climate change? | Land degradation | Climate change (Climate) Degradation (Land use) |
| PQ1 (LD) | In what parts of the world have human-induced changes in land and soil conditions occurred? | Land degradation | Terrestrial biodiversity (NB) Degradation (Land use) |
| PQ1 (AS) | How will changes in agricultural demand and trade affect future land-use patterns? | Land-use allocation | Trade (Food) Nutrition and diet (Food) |
| PQ3 (AS) | How can agricultural intensification increase global food production, and what policies will contribute to this? | Land-use allocation | Animal husbandry (Food) Crop production (Food) |
| PQ2 (AS) | How will land-use regulation, such as protected areas and REDD schemes, affect future land use and the impacts of land-use change? | Land-use allocation | Forestry (Land use) Land use system (Land use) |
| PQ1 (LS) | What are the impacts of increasing livestock production on land use, greenhouse gases and other emissions to air and surface water? | Livestock systems | Animal husbandry (Food) Nutrition and diet (Food) GHG emissions (Climate) Air quality (Air pollution) Other air pollution (Air pollution) |
| PQ2 (LS) | How does the use of marginal lands for grazing increase the risk of degradation and loss of productivity, inducing more forest clearing? | Livestock systems | Agricultural land use (Land use) Animal husbandry (Food) |
| PQ1 (N) | How will the increasing use of fertilisers affect terrestrial and marine ecosystems, with possible consequences for human health? | Nutrients | Water stress (Water) |
| PQ2 (N) | To what extent can the negative impacts be reduced by more efficient nutrient management and wastewater treatment, while retaining the positive effects on food production and land productivity? | Nutrients | Water quality (Water) |
| PQ1 (TB) | What is the future rate of terrestrial biodiversity loss in the absence of additional policies and measures? | Terrestrial biodiversity | Terrestrial biodiversity (NB) |
| PQ2 (TB) | What are the key pressure factors causing biodiversity loss? | Terrestrial biodiversity | Aquatic biodiversity (NB) Terrestrial biodiversity (NB) |
| PQ3 (TB) | How will nature conservation policies and measures to reduce the key pressure factors of biodiversity loss contribute to meeting the targets of the UN Convention on Biological Diversity (CBD)? | Terrestrial biodiversity | Aquatic biodiversity (NB) Terrestrial biodiversity (NB) |
| PQ1 (H) | What is the combined effect of climate change and socio-economic development on water demand and availability, and on associated agricultural production? | Water | Crop production (Food) Water stress (Water) Irrigation (Water) |
| PQ3 (H) | How can water demand be reduced and still provide the adequate service levels to the sectors with the highest demand? | Water | Water stress (Water) |
| PQ2 (H) | What is the potential of adaptation measures to reduce water stress and water-related crop production losses? | Water | Water stress (Water) Irrigation (Water) |