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Cost-benefit analysis of nanofertilizers and nanopesticides emphasizes the need to improve the efficiency of nanoformulations for widescale adoption.

Yiming SuXuefei ZhouHuan MengTian XiaHaizhou LiuPhilippe RolshausenM Caroline RoperJoan E McLeanYalei ZhangArturo A KellerDavid Jassby
Published in: Nature food (2022)
Nanotechnology-based approaches have demonstrated encouraging results for sustainable agriculture production, particularly in the field of fertilizers and pesticide innovation. It is essential to evaluate the economic and environmental benefits of these nanoformulations. Here we estimate the potential revenue gain/loss associated with nanofertilizer and/or nanopesticide use, calculate the greenhouse gas emissions change from the use of nanofertilizer and identify feasible applications and critical issues. The cost-benefit analysis demonstrates that, while current nanoformulations show promise in increasing the net revenue from crops and lowering the environmental impact, further improving the efficiency of nanoformulations is necessary for their widescale adoption. Innovating nanoformulation for targeted delivery, lowering the greenhouse gas emissions associated with nanomaterials and minimizing the content of nanomaterials in the derived nanofertilizers or pesticides can substantially improve both economic and environmental benefits.
Keyphrases
  • life cycle
  • human health
  • risk assessment
  • electronic health record
  • climate change
  • mass spectrometry
  • heavy metals
  • tandem mass spectrometry