Aquaculture's growth seen as continuing
Aquaculture production of seafood will probably remain the most rapidly increasing food production system worldwide through 2025, according to an assessment published in the January 2009 issue of BioScience. The assessment, by James S. Diana of the University of Michigan at Ann Arbor, notes that despite well-publicized concerns about some harmful effects of aquaculture, the technique may, when practiced well, be no more damaging to biodiversity than other food production systems. Moreover, it may be the only way to supply growing demand for seafood as the human population increases. Diana notes that total production from capture fisheries has remained approximately constant for the past 20 years and may decline. Aquaculture, in contrast, has increased by 8.8 percent per year since 1985 and now accounts for about one-third of all aquatic harvest by weight. Finfish, mollusks, and crustaceans dominate aquaculture production; seafood exports generate more money for developing countries than meat, coffee, tea, bananas, and rice combined.
Among the most potentially harmful effects of aquaculture, according to Diana, are the escape of farmed species that then become invasive, pollution of local waters by effluent, especially from freshwater systems, and land-use change associated with shrimp aquaculture in particular. Increased demand for fish products for use in feed and transmission of disease from captive to wild stocks are also hazards.
Nonetheless, when carefully implemented, aquaculture can reduce pressure on overexploited wild stocks, enhance depleted stocks, and boost natural production of fishes as well as species diversity, according to Diana. Some harmful effects have diminished as management techniques have improved, and aquaculture has the potential to provide much-needed employment in developing countries. Diana points to the need for thorough life-cycle analyses to compare aquaculture with other food production systems. Such analyses are, however, only now being undertaken, and more comprehensive information is needed to guide the growth of this technique in sustainable ways.
Source: American Institute of Biological Sciences
Related
- Large-scale fish farm production offsets environmental gainsWed, 27 Oct 2010, 10:32:41 EDT
- URI study: Rhode Island waters can support continued growth of oyster aquacultureThu, 8 Jul 2010, 12:18:58 EDT
- Marine aquaculture could feed growing world populationTue, 1 Dec 2009, 12:44:05 EST
- Free trade, loss of support systems crippling food production in AfricaMon, 15 Feb 2010, 16:09:10 EST
- New probiotic bacteria shows promise for use in shellfish aquacultureMon, 30 Jan 2012, 20:32:13 EST
Other sources
- Aquaculture's growth seen as continuingfrom Biology News NetFri, 2 Jan 2009, 17:49:05 EST
- Aquaculture's growth seen as continuingfrom PhysorgFri, 2 Jan 2009, 11:14:27 EST
- Aquaculture's growth seen as continuingfrom Science CentricFri, 2 Jan 2009, 10:56:18 EST
- Aquaculture's Growth Seen As Continuingfrom Science DailyFri, 2 Jan 2009, 9:42:47 EST
Latest Science Newsletter
Get the latest and most popular science news articles of the week in your Inbox! It's free!Learn more about
Check out our next project, Biology.Net
Popular science news articles
- Detection of the cosmic gamma ray horizon: Measures all the light in the universe since the Big Bang
- Allosaurus fed more like a falcon than a crocodile, new study finds
- King Richard III found in 'untidy lozenge-shaped grave'
- Protein study suggests drug side effects are inevitable
- UC Davis engineers create on-wetting fabric drains sweat
- Detection of the cosmic gamma ray horizon: Measures all the light in the universe since the Big Bang
- Birth of a black hole
- Carnivorous plant throws out 'junk' DNA
- Dinosaur predecessors gain ground in wake of world's biggest biodiversity crisis
- Organic vapors affect clouds leading to previously unidentified climate cooling