Browse data: KeyPolicyQuestion
KeyPolicyQuestion > Component :
Aquatic biodiversity or
Atmospheric composition and climate or
Crops and grass or
Emissions or
Energy conversion or
Energy supply and demand or
Land-use allocation
Click on one or more items below to narrow your results.
Agricultural land use (Land use) (1) ·
Air quality (Air pollution) (2) ·
Animal husbandry (Food) (1) ·
Aquatic biodiversity (NB) (3) ·
BC-OC emissions (Air pollution) (1) ·
Climate change (Climate) (3) ·
Climate impacts (Climate) (1) ·
Climate mitigation (Climate) (5) ·
Crop production (Food) (2) ·
Energy demand (Energy) (1) ·
Energy emissions (Energy) (1) ·
Energy system (Energy) (1) ·
Forestry (Land use) (1) ·
GHG emissions (Climate) (4) ·
Land cover (NB) (2) ·
Land use system (Land use) (1) ·
Nutrition and diet (Food) (1) ·
Other air pollution (Air pollution) (1) ·
Other climate (Climate) (1) ·
Other energy (Energy) (5) ·
Trade (Food) (1) ·
Water quality (Water) (3) ·
Water stress (Water) (2)
Showing below up to 19 results in range #1 to #19.
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- PQ1 (AB) (Aquatic biodiversity, How will the biodiversity in freshwater bodies develop in the absence of additional policies and measures?)
- PQ1 (ACC) (Atmospheric composition and climate, What would be the impact of global climate change in this century without additional mitigation policies and measures?)
- PQ1 (AS) (Land-use allocation, How will changes in agricultural demand and trade affect future land-use patterns?)
- PQ1 (CG) (Crops and grass, How will climate change affect the productivity of current and future agricultural areas?)
- PQ1 (E) (Emissions, 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?)
- PQ1 (EC) (Energy conversion, What is the potential role of energy conversion sector, particularly in power production, in achieving a more sustainable energy system?)
- PQ1 (ESD) (Energy supply and demand, How can energy supply and demand become more sustainable, balancing human development, security of supply, and concerns about climate change and air pollution?)
- PQ2 (AB) (Aquatic biodiversity, What are the key pressure factors causing loss of aquatic biodiversity?)
- PQ2 (ACC) (Atmospheric composition and climate, To what extent would the various scenarios to significantly reduce net greenhouse gas emissions lead to a reduction in climate change?)
- PQ2 (AS) (Land-use allocation, How will land-use regulation, such as protected areas and REDD schemes, affect future land use and the impacts of land-use change?)
- PQ2 (CG) (Crops and grass, How could management improve agricultural productivity under current and future water constraints?)
- PQ2 (E) (Emissions, What synergies between climate policy and air pollution control can be identified?)
- PQ2 (EC) (Energy conversion, What are the potential roles of individual technologies, such as carbon capture and storage (CCS), nuclear power, hydrogen and renewable energy?)
- PQ2 (ESD) (Energy supply and demand, What transitions in the energy system would meet long-term climate goals?)
- PQ3 (AB) (Aquatic biodiversity, 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)?)
- PQ3 (ACC) (Atmospheric composition and climate, To what extent does the uncertainty of geographical patterns in temperature and precipitation change influence future climate impacts and response strategies?)
- PQ3 (AS) (Land-use allocation, How can agricultural intensification increase global food production, and what policies will contribute to this?)
- PQ3 (CG) (Crops and grass, How will agriculture affect the Earth system with respect to carbon emissions, freshwater availability and nutrient cycles?)
- PQ3 (ESD) (Energy supply and demand, How are these strategies affected by uncertainties in the energy system?)