Recirculating Aquaculture Is Possible without Major Energy Tradeoff: Life Cycle Assessment of Warmwater Fish Farming in Sweden

Recirculating Aquaculture Is Possible without Major Energy Tradeoff: Life Cycle Assessment of Warmwater Fish Farming in Sweden

Seafood is seen as promising for more sustainable diets. The increasing production in land-based closed Recirculating Aquaculture Systems (RASs) has overcome many local environmental challenges with traditional open net-pen systems such as eutrophication. The energy needed to maintain suitable water...

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Bibliographic Details
Published in:Environmental science & technology Vol. 54; no. 24; pp. 16062 - 16070
Main Authors: Bergman, Kristina, Henriksson, Patrik J. G, Hornborg, Sara, Troell, Max, Borthwick, Louisa, Jonell, Malin, Philis, Gaspard, Ziegler, Friederike
Format: Journal Article
Language:English
Published: United States American Chemical Society 15-12-2020
Subjects:
Animal Feed - analysis
Animals
Aquaculture
By-product utilization
Clarias
Climate change
Energy and Climate
Energy consumption
Energy demand
Energy management
Environmental assessment
Environmental challenges
Environmental impact
Environmental management
Environmental performance
Environmental pressures
Eutrophication
Fish farms
Fisheries
Global perspective
Increasing production
Land use
Life cycle
Life cycle analysis
Life cycle assessment
Life Cycle Assessment (LCA)
Life Cycle Stages
Life cycles
Oreochromis
Recirculating aquaculture system
Seafood
Sustainable development
Sustainable food systems
Sweden
Tilapia
Water quality
Sweden
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Summary:Seafood is seen as promising for more sustainable diets. The increasing production in land-based closed Recirculating Aquaculture Systems (RASs) has overcome many local environmental challenges with traditional open net-pen systems such as eutrophication. The energy needed to maintain suitable water quality, with associated emissions, has however been seen as challenging from a global perspective. This study uses Life Cycle Assessment (LCA) to investigate the environmental performance and improvement potentials of a commercial RAS farm of tilapia and Clarias in Sweden. The environmental impact categories and indicators considered were freshwater eutrophication, climate change, energy demand, land use, and dependency on animal-source feed inputs per kg of fillet. We found that feed production contributed most to all environmental impacts (between 67 and 98%) except for energy demand for tilapia, contradicting previous findings that farm-level energy use is a driver of environmental pressures. The main improvement potentials include improved by-product utilization and use of a larger proportion of plant-based feed ingredients. Together with further smaller improvement potential identified, this suggests that RASs may play a more important role in a future, environmentally sustainable food system.
Bibliography:This paper was published on the Web November 28, 2020 with Table 4 duplicated in the paper. The corrected version was reposted on December 2, 2020.
ISSN:0013-936X
1520-5851
1520-5851
DOI:10.1021/acs.est.0c01100