Browse data: KeyPolicyQuestion
KeyPolicyQuestion > Component :
Aquatic biodiversity or
Crops and grass or
Energy conversion or
Energy demand or
Energy supply or
Land and biodiversity policies or
Land degradation
Click on one or more items below to narrow your results.
Agricultural land use (Land use) (1) ·
Aquatic biodiversity (NB) (3) ·
Climate change (Climate) (1) ·
Climate impacts (Climate) (1) ·
Climate mitigation (Climate) (1) ·
Crop production (Food) (1) ·
Degradation (Land use) (3) ·
Energy demand (Energy) (4) ·
Energy emissions (Energy) (1) ·
Energy system (Energy) (3) ·
GHG emissions (Climate) (2) ·
Land cover (NB) (2) ·
Nutrition and diet (Food) (1) ·
Other climate (Climate) (1) ·
Other energy (Energy) (2) ·
Other food (Food) (1) ·
Terrestrial biodiversity (NB) (3) ·
Water quality (Water) (3) ·
Water stress (Water) (3)
Showing below up to 20 results in range #1 to #20.
View (previous 750 | next 750) (20 | 50 | 100 | 250 | 500)
- PQ1 (AB) (Aquatic biodiversity, How will the biodiversity in freshwater bodies develop in the absence of additional policies and measures?)
- PQ1 (CG) (Crops and grass, How will climate change affect the productivity of current and future agricultural areas?)
- 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 (ED) (Energy demand, How will energy demand evolve particularly in emerging and medium- and low-income economies?)
- PQ1 (ES) (Energy supply, How can energy resources be exploited to meet future primary energy demand?)
- PQ1 (LBP) (Land and biodiversity policies, How can land-use policies contribute to strategies for halting biodiversity loss and reducing greenhouse gas emissions?)
- PQ1 (LD) (Land degradation, In what parts of the world have human-induced changes in land and soil conditions occurred?)
- PQ2 (AB) (Aquatic biodiversity, What are the key pressure factors causing loss of aquatic biodiversity?)
- PQ2 (CG) (Crops and grass, How could management improve agricultural productivity under current and future water constraints?)
- 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 (ED) (Energy demand, What is the mix of end-use energy carriers to meet future energy demand?)
- PQ2 (ES) (Energy supply, How can energy supply and demand be balanced between world regions, and how will this effect security of supply?)
- PQ2 (LBP) (Land and biodiversity policies, How can changes in consumption patterns contribute to achieving sustainability goals through changes in land use?)
- PQ2 (LD) (Land degradation, What are the future risks of soil degradation?)
- 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 (CG) (Crops and grass, How will agriculture affect the Earth system with respect to carbon emissions, freshwater availability and nutrient cycles?)
- PQ3 (ED) (Energy demand, How can energy efficiency contribute to reducing the growth rate of energy demand and mitigate pressures on the global environment?)
- PQ3 (ES) (Energy supply, How rapidly can the transition to more sustainable energy supply be made?)
- PQ3 (LBP) (Land and biodiversity policies, What are the synergies and trade-offs between halting biodiversity loss, food security, reducing nutrient emissions, and reducing water stress?)
- PQ3 (LD) (Land degradation, To what extent are ecosystem functions lost by soil degradation, adding to local and global concerns about food security, biodiversity loss and climate change?)