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KeyPolicyQuestion > Component : Aquatic biodiversity or Carbon, vegetation, agriculture and water or Energy conversion or Energy supply or Energy supply and demand or Land degradation or Nutrients or Water

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Showing below up to 22 results in range #1 to #22.

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  1. PQ1 (AB) (Aquatic biodiversity, How will the biodiversity in freshwater bodies develop in the absence of additional policies and measures?)
  2. PQ1 (EC) (Energy conversion, What is the potential role of energy conversion sector, particularly in power production, in achieving a more sustainable energy system?)
  3. PQ1 (ES) (Energy supply, How can energy resources be exploited to meet future primary energy demand?)
  4. 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?)
  5. PQ1 (H) (Water, What is the combined effect of climate change and socio-economic development on water demand and availability, and on associated agricultural production?)
  6. PQ1 (LD) (Land degradation, In what parts of the world have human-induced changes in land and soil conditions occurred?)
  7. PQ1 (N) (Nutrients, How will the increasing use of fertilisers affect terrestrial and marine ecosystems, with possible consequences for human health?)
  8. PQ2 (AB) (Aquatic biodiversity, What are the key pressure factors causing loss of aquatic biodiversity?)
  9. 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?)
  10. PQ2 (ES) (Energy supply, How can energy supply and demand be balanced between world regions, and how will this effect security of supply?)
  11. PQ2 (ESD) (Energy supply and demand, What transitions in the energy system would meet long-term climate goals?)
  12. PQ2 (H) (Water, What is the potential of adaptation measures to reduce water stress and water-related crop production losses?)
  13. PQ2 (LD) (Land degradation, What are the future risks of soil degradation?)
  14. 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?)
  15. PQ2 (VHA) (Carbon, vegetation, agriculture and water, How do climate change and land-use management affect the land productivity of current and future agricultural land?)
  16. 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)?)
  17. PQ3 (ES) (Energy supply, How rapidly can the transition to more sustainable energy supply be made?)
  18. PQ3 (ESD) (Energy supply and demand, How are these strategies affected by uncertainties in the energy system?)
  19. PQ3 (H) (Water, How can water demand be reduced and still provide the adequate service levels to the sectors with the highest demand?)
  20. 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?)
  21. PQ3 (VHA) (Carbon, vegetation, agriculture and water, 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?)
  22. PQ4 (VHA) (Carbon, vegetation, agriculture and water, What is the combined effect of climate change and socio-economic development on water demand and availability, and associated agricultural production?)

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