Browse data: KeyPolicyQuestion
KeyPolicyQuestion > Component :
Aquatic biodiversity or
Atmospheric composition and climate or
Carbon cycle and natural vegetation or
Climate policy or
Energy demand or
Energy supply and demand or
Land and biodiversity policies or
Nutrients
Click on one or more items below to narrow your results.
Agricultural land use (Land use) (1) ·
Aquatic biodiversity (NB) (3) ·
Climate adaptation (Climate) (1) ·
Climate change (Climate) (5) ·
Climate impacts (Climate) (1) ·
Climate mitigation (Climate) (4) ·
Degradation (Land use) (1) ·
Energy demand (Energy) (4) ·
Energy emissions (Energy) (2) ·
Energy system (Energy) (2) ·
GHG emissions (Climate) (7) ·
Land cover (NB) (1) ·
Nutrition and diet (Food) (1) ·
Other climate (Climate) (3) ·
Other energy (Energy) (3) ·
Other food (Food) (1) ·
Other land use (Land use) (1) ·
Terrestrial biodiversity (NB) (2) ·
Water quality (Water) (4) ·
Water stress (Water) (3)
Showing below up to 25 results in range #1 to #25.
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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 (CP) (Climate policy, What global greenhouse gas emissions pathways would meet the well below 2 °C climate target?)
- PQ1 (ED) (Energy demand, How will energy demand evolve particularly in emerging and medium- and low-income economies?)
- 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?)
- PQ1 (LBP) (Land and biodiversity policies, How can land-use policies contribute to strategies for halting biodiversity loss and reducing greenhouse gas emissions?)
- PQ1 (N) (Nutrients, How will the increasing use of fertilisers affect terrestrial and marine ecosystems, with possible consequences for human health?)
- PQ1 (NVCC) (Carbon cycle and natural vegetation, 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?)
- 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 (CP) (Climate policy, What is the effect of effort-sharing approaches on regional and national emission reduction targets and on the cost of climate policies?)
- PQ2 (ED) (Energy demand, What is the mix of end-use energy carriers to meet future energy demand?)
- PQ2 (ESD) (Energy supply and demand, What transitions in the energy system would meet long-term climate goals?)
- PQ2 (LBP) (Land and biodiversity policies, How can changes in consumption patterns contribute to achieving sustainability goals through changes in land use?)
- PQ2 (N) (Nutrients, 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?)
- PQ2 (NVCC) (Carbon cycle and natural vegetation, To what extent can the terrestrial biosphere contribute to reducing the accumulation of CO2 in the atmosphere and what are viable mechanisms?)
- 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 (CP) (Climate policy, What is the effect of the NDCs on achieving the long term 2 ºC target?)
- 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 (ESD) (Energy supply and demand, How are these strategies affected by uncertainties in the energy system?)
- 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 (NVCC) (Carbon cycle and natural vegetation, 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.)
- PQ3(NVCC) (Carbon cycle and natural vegetation, 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?)
- PQ4 (CP) (Climate policy, What are the trade-offs between mitigation costs, adaptation costs, and climate change damage?)