Difference between revisions of "Food/Open ocean farms"

From AdCiv
Jump to: navigation, search
(New page: 300px69% of the planet is ocean; if we can effectively farm this area, there can be no scarcity of food. Open ocean farming is currently being researched by se...)
 
 
(8 intermediate revisions by the same user not shown)
Line 1: Line 1:
 
[[Image:Seaweed.jpg|right|300px]]69% of the planet is ocean; if we can effectively farm this area, there can be no scarcity of food.
 
[[Image:Seaweed.jpg|right|300px]]69% of the planet is ocean; if we can effectively farm this area, there can be no scarcity of food.
  
Open ocean farming is currently being researched by several companies and universities. Floating nets are used to grow seaweed, and floating or submersible cages are used to breed fish in. As with all water-based agriculture, growth is about 10 times faster than land-based agriculture. This makes ocean farming ideal for biofuel, where the aim is to quickly grow large amounts of biomass.  
+
Open ocean farming is currently being researched by several companies and universities. Floating nets are used to grow edible seaweeds ("[http://en.wikipedia.org/wiki/Category:Sea_vegetables sea vegetables]"), and floating or submersible cages are used to breed fish in. As with all water-based agriculture, the plants grow about 10 times faster than with land-based agriculture. Inedible seaweeds can converted efficiently into edible fish; 4 tons of seaweed feed will typically yield 3 tons of fish.
  
Ocean farms can grow edible seaweeds ("[http://en.wikipedia.org/wiki/Category:Sea_vegetables sea vegetables]"), or fish. Once seaweed is grown, it can be fed to fish and converted efficiently into edible fish. Turning 4 tons of seaweed into 3 tons of fish is a typical ratio. Seaweed also makes good fertilizer for land-based growing.
+
Ocean farms will be most productive, labour-free and sustainable if they follow the principles of permaculture. High-input monocultures at sea have the same problems as they do on land. In such a marine agroecosystem, most fish and shellfish do not even require feeding as they feed on plankton that drift in from the open sea. Such ecologically-based aquatic farming is known in academic circles as {{wp|Integrated_Multi-Trophic_Aquaculture|Integrated Multi-Trophic Aquaculture}}. The level of integration can even be taken to the point of integrating land-based with sea-based farming; seaweed makes excellent fertilizer.
 +
 
 +
[http://www.presentations-dlgbenelux.com/Congres/download/a7588cc7272b3c793636d7150cf54aa2/18022011033219/559 This presentation from researchers at Wageningen University] calculates that less than 240,000km<sup>2</sup> of open ocean farms worldwide would provide all the protein needs for 9.3 billion people. This is a modest amount of space to dedicate to ocean farming; it is about the size of the United Kingdom and could be spread across offshore areas near population centres. (Most people live near coasts.) Realistically, ocean farms will be only one of several protein sources, so this large an area will not be necessary.
  
 
*[http://oceanfarmtech.com/ Ocean Farm Tech] use floating geodesic spheres that hold fish inside  
 
*[http://oceanfarmtech.com/ Ocean Farm Tech] use floating geodesic spheres that hold fish inside  
 
*[http://www.oceanharvest.ie/ Ocean Harvest Technologies] grow seaweed on floating nets
 
*[http://www.oceanharvest.ie/ Ocean Harvest Technologies] grow seaweed on floating nets
*[http://www.presentations-dlgbenelux.com/Congres/download/a7588cc7272b3c793636d7150cf54aa2/18022011033219/559 Presentation from researchers at Wageningen University]
 
 
*http://oceanfarmtech.com/news.htm - lots of links
 
*http://oceanfarmtech.com/news.htm - lots of links
 
*http://www.openblueseafarms.com/who_we_are/our_company.html
 
*http://www.openblueseafarms.com/who_we_are/our_company.html

Latest revision as of 00:26, 9 December 2012

Seaweed.jpg
69% of the planet is ocean; if we can effectively farm this area, there can be no scarcity of food.

Open ocean farming is currently being researched by several companies and universities. Floating nets are used to grow edible seaweeds ("sea vegetables"), and floating or submersible cages are used to breed fish in. As with all water-based agriculture, the plants grow about 10 times faster than with land-based agriculture. Inedible seaweeds can converted efficiently into edible fish; 4 tons of seaweed feed will typically yield 3 tons of fish.

Ocean farms will be most productive, labour-free and sustainable if they follow the principles of permaculture. High-input monocultures at sea have the same problems as they do on land. In such a marine agroecosystem, most fish and shellfish do not even require feeding as they feed on plankton that drift in from the open sea. Such ecologically-based aquatic farming is known in academic circles as Integrated Multi-Trophic Aquaculture 11px-Wikipedia_logo.jpg. The level of integration can even be taken to the point of integrating land-based with sea-based farming; seaweed makes excellent fertilizer.

This presentation from researchers at Wageningen University calculates that less than 240,000km2 of open ocean farms worldwide would provide all the protein needs for 9.3 billion people. This is a modest amount of space to dedicate to ocean farming; it is about the size of the United Kingdom and could be spread across offshore areas near population centres. (Most people live near coasts.) Realistically, ocean farms will be only one of several protein sources, so this large an area will not be necessary.