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Sustainable Blue Foods from Rice-Animal Coculture Systems.

Rui WangLei FengQiang XuLu JiangYize LiuLongLong XiaYong-Guan ZhuBeibei LiuMinghao ZhuangYi Yang
Published in: Environmental science & technology (2024)
Global interest grows in blue foods as part of sustainable diets, but little is known about the potential and environmental performance of blue foods from rice-animal coculture systems. Here, we compiled a large experimental database and conducted a comprehensive life cycle assessment to estimate the impacts of scaling up rice-fish and rice-crayfish systems in China. We find that a large amount of protein can be produced from the coculture systems, equivalent to ∼20% of freshwater aquaculture and ∼70% of marine wild capture projected in 2030. Because of the ecological benefits created by the symbiotic relationships, cocultured fish and crayfish are estimated to be carbon-negative (-9.8 and -4.7 kg of CO 2 e per 100 g of protein, respectively). When promoted at scale to displace red meat, they can save up to ∼98 million tons of greenhouse gases and up to ∼13 million hectares of farmland, equivalent to ∼44% of China's total rice acreage. These results suggest that rice-animal coculture systems can be an important source of blue foods and contribute to a sustainable dietary shift, while reducing the environmental footprints of rice production. To harvest these benefits, robust policy supports are required to guide the sustainable development of coculture systems and promote healthy and sustainable dietary change.
Keyphrases
  • life cycle
  • human health
  • healthcare
  • climate change
  • public health
  • mental health
  • emergency department
  • binding protein
  • electronic health record
  • light emitting
  • drug induced
  • anaerobic digestion
  • municipal solid waste