News features and technical articles about the evolution of aquaculture, one of the world’s fastest growing industries.

Aquafeeds and The Oceanic Institute’s AQUAFAN program, part 1

Albert G.J. Tacon, Ph.D.

Economic importance of aquafeeds

Aquatic feeds and feeding generally represent the largest single operating cost item (typically between 25 to 50 percent) of the total running expenses of most intensive and semi-intensive finfish and crustacean farming operations. Moreover, since the growth and production of all farmed aquatic animal species is entirely dependent upon the supply and intake of aquatic feeds or aquafeeds containing approximately 40 essential dietary nutrients, it follows therefore that feeds and feeding are central to biological and economic success, or lack thereof, for virtually all finfish and crustacean aquaculture enterprises.

According to the latest available information, the global production of industrially manufactured compound aquafeeds in 1998 was estimated to be 12.6 million metric tons (million metric tons) and valued at over $6 to 7 billion; the estimated global feed production for the major fed, cultured species includes feed for carps (6.25 million MT), marine shrimp (1.54 million MT), salmon (1.16 million MT), marine finfish (0.94 million MT), tilapia (0.78 million MT), trout (0.73 million MT), catfish (0.66 million MT), milkfish (0.30 million MT), and eel (0.26 million MT).

Although the U.S. currently ranks first in terms of the global production of industrially manufactured animal feeds (140.5 million MT in 1998, or 24.4 percent of total global production), its domestic aquaculture sector (0.35 million MT in 1997 and valued at $0.93 billion) is still very young and modest compared to the terrestrial livestock production sector, with total compound aquafeed production amounting to 0.5 million MT in 1998, or about 4 percent of total global aquafeed production in 1998.

With the domestic aquaculture sector currently representing the fastest growing segment of U.S. agriculture (surpassing in value most domestic fruit, vegetable, and nut crops), the potential for increased aquaculture and therefore aquafeed production in the U.S. and globally is considerable.

Objective of the AQUAFAN program

The long term strategic objective of OI’s Aquatic Feeds and Nutrition (AQUAFAN) program is to technically support and assist the aquaculture and aquafeed manufacturing sector within the State of Hawaii, the United States, and the international community, through the development and dissemination of new and/or improved aquatic feeds and associated feeding technologies which are nutritionally adjusted and tailored to the intended target species and farming system, as well as being economically viable and environmentally compatible with the sustainable development of the aquaculture sector.

The AQUAFAN Program prides itself in its multidisciplinary and holistic approach to aquatic feeds and nutrition research, and in particular its ability to conduct both fundamental classical studies on warmwater crustacean and finfish nutrition, and more applied studies on ingredient processing and commercial aquafeed manufacture, as well as studies related to the development and use of environmentally sound on-farm feed and pond management practices.

Research infrastructure

The AQUAFAN program possesses several unique attributes which contribute to its success in conducting research on aquatic feeds and nutrition, including:

  • Four Indoor Controlled Labs (ICL) for conducting experimental feeding trials with marine crustaceans and/or finfish under clean-water laboratory conditions; Facility A: 75 × 52-liter rectangular glass rearing tanks, Facility B: 36 × 52-liter rearing tanks, 12 × 500-liter digestibility measurement tanks; Facility C: 60 × 52-liter rearing tanks, Facility D: 24 × 52-liter rearing tanks;
  • One Outdoor Mesocosm Laboratory (OML), containing 56 × 1.4 cubic-meter experimental microcosm tanks for conducting outdoor feeding trials under conditions designed to mimic intensive clear-water or greenwater outdoor managed tanks;
  • Central Analytical Laboratory (see photo to the left) for the routine analysis of feed ingredients, aquafeeds, animal tissue samples, and tank/pond water; routine analyses including proximate composition, minerals and trace elements, bomb calorimetry, amino acids, fatty acids, specific vitamins and nutrients, pellet stability, pellet texture, as well as chemical and microbial water and waste-water analyses; and
  • Laboratory Aquafeeds Production Facility for the experimental production of semi-purified and practical crustacean/finfish feeds, including a CPM laboratory-scale pellet Insta-Pro Model 600 dry extruder, a 150-pound mixer, a 50-pound ribbon blender, a Hobart mixer and a Jacobson Model 16H Air-swept pulverizer, a hammer mill, a meat grinder/crumbler, a chilled feed storage room with plastic storage bins and weighing scales, a Despatch forced -air drying oven with an 18-foot chain belt conveyor, a two-door vertical drying cabinet with air-blower and vent fans.

(Editor’s Note: This article was originally published in the December 1999 print edition of the Global Aquaculture Advocate.)


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