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The contribution of fisheries and aquaculture to the global protein supply
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Abstract
The contribution of aquatic animal protein to the global, animal-source protein supply and the relative importance of aquaculture to capture fisheries in supplying this protein is relevant in assessments and decisions related to the future of aquatic food production and its security. Meat of terrestrial animals, milk, and eggs resulted in 76,966 Kt crude protein compared with 13,950 Kt or 15.3% from aquatic animals in 2018.While aquaculture produced a greater tonnage of aquatic animals, capture fisheries resulted in 7,135 Kt crude protein while aquaculture yielded 6,815 Kt. Capture fisheries production has not increased in the past two decades, and aquaculture production must increase to assure the growing demand for fisheries products by a larger and more affluent population. We estimated based on status quo consumption, that aquaculture production would need to increase from 82,087 Kt in 2018 to 129,000 Kt by 2050 to meet the demand of the greater population. About two-thirds of finfish and crustacean production by aquaculture is feed-based, and feeds for these species include fishmeal and fish oil as ingredients. Aquaculture feeds require a major portion of the global supply of fishmeal and fish oil. An estimated 71.0% of fishmeal and 73.9% of fish oil are made from the catch with the rest coming from aquatic animal processing waste. The catch of small, pelagic fish from the ocean is not predicted to increase in the future. Aquaculture should reduce its fishmeal and oil use to lessen its dependency on small wild fish important to the integrity of marine food webs and food security for the poor in many coastal areas. Fishmeal and fish oil shortages for use in aquaculture feed will result in a limit on production in the future if goals to lessen their use in feeds are not met.
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Fishing down marine food webs
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A 20-year retrospective review of global aquaculture
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is Professor Emeritus in the School of Fisheries, Aquaculture and Aquatic Sciences at Auburn University. He taught water quality, directed many graduate students, and conducted research on water quality management for 50 years. Since retirement he has assisted the World Wildlife Fund-US related to improving resource use efficiency in aquaculture and particularly in farmed shrimp production.
is WWF’s Global Network Lead for Aquaculture. Aaron started his career farming perchids, esocids and salmonids. In 2005, he began at WWF developing environmental and social standards for responsible aquaculture through a series of multi-stakeholder roundtables (Aquaculture Dialogues). These standards allowed for the formation of the Aquaculture Stewardship Council (ASC). Aaron took a hiatus from WWF to manage an undergraduate program in fisheries science and aquaculture, teaching courses from limnology to static and flowing water fish culture to quantitative techniques in fish population assesments. After returning to WWF, he has been the environmental lead for the Seafood Task Force which has been the major change agent in the seafood sector following allegations of human rights abuse in Thailand.
recently received his PhD from Auburn University. He has a bachelors from Mansfield University of Pennsylvania and a masters from The Ohio State University. He works on issues related to aquaculture sustainability and traceability, most recently working on traceability tools in aquaculture supply chains. His other research interests include novel aquaculture species, aquaculture feed ingredient replacement, and environmental issues in fisheries and aquaculture.
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