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==As part of an integrated system==
==As part of an integrated system==


[[File:azolla.jpg|500px|thumb|right|Co-cultivation of rice and azolla, which is a source of nitrogen fertilizer.]]
[[File:azolla.jpg|500px|thumb|right|Co-cultivation of rice and azolla: a source of nitrogen fertilizer.]]


Azolla is often cultivated in wetland [[rice]] paddies so that chemical fertilizers are not needed (see [http://www.tagari.com/?p=44 link]). The "Rice-Azolla-Fish" system-rice grown under the ridge culture in China, showing inter-rows being prepared for Azolla inoculation.  
Azolla is often cultivated in wetland [[rice]] paddies so that chemical fertilizers are not needed (see [http://www.tagari.com/?p=44 link]). The "Rice-Azolla-Fish" system-rice grown under the ridge culture in China, showing inter-rows being prepared for Azolla inoculation.  

Revision as of 16:58, 23 July 2016

An example of co-culture of Azolla and duckweed: "Azolla filiculoides and L.minor" by Mygaia at English Wikipedia (T.M.McKenzie)
"Red duckweed? (it is Azolla!)" (photo by Flickr user Hans Splinter, taken in the Netherlands.)

What is it?

"Azolla filiculoides" is a small fern that floats on water and is thus similar to the more familiar duckweed. It is native to North, Central and South America. Given appropriate nutrient and other conditions, Azolla can grow rapidly. It is rich in protein and minerals and can be used as animal fodder or for human consumption. While Azolla is not itself a nitrogen-fixing organism, it lives in symbiosis with certain cyanobacteria such as (Anabaena azollae) that fix nitrogen. Azolla may grow on somewhat brackish water, which expands the number of possible locations and uses.

Growth Characteristics

  • "200 g per square meter" per day - [1]
  • Dry weight percent - 5% - [2]
  • Optimum temperature range for Azolla growth has been shown to be between 18 and 28°C, although this is very much dependent on species, and optimal temperature as high as 33°C have been noted with some strains (see this paper for details).

Uses

  • animal fodder: cows, chickens, fish, pigs, goats, etc.
  • for human consumption: salad; powder
  • source of nitrogen fertilizer (was widely used as N-source in rice cultivation in China during last 1000y); see *Greenmanure
  • for biogas and biodiesel (see section below)
  • use of effluent from biogas digester to fertilize Azolla
  • wastewater treatment
  • initial soil biomining for nutrients: phosphorus and potassium from subsoil / mud, for subsequent use in agriculture
  • Product Ecology: Integrate with Aquaponics system (e.g. Tilapia): grow azolla on wastewater
  • Product Ecology: Ferrocement as pond lining (expensive but durable)
  • Product Ecology: Lactofermentation when longer-term storage is required

As part of an integrated system

Co-cultivation of rice and azolla: a source of nitrogen fertilizer.

Azolla is often cultivated in wetland rice paddies so that chemical fertilizers are not needed (see link). The "Rice-Azolla-Fish" system-rice grown under the ridge culture in China, showing inter-rows being prepared for Azolla inoculation.

"Azolla as chicken food." "Azolla is an excellent food supplement for backyard poultry. It is easy to grow and practically free of cost. It helps keep feathers shiny and improves their digestion. It is cooling and keeps their bones strong. This is a nice backyard type of business activity to generate employment and income for small and marginal farmers, housewives, unemployed youth, bored teenagers, enterprising people as well as organic farmers, health fanatics etc." )

Azolla Biodiesel

Because of its high oil content, Azolla may be a potential feedstock for biodiesel production. A recent open access paper analyzed the: "Lipid Yield and Composition of Azolla filiculoides and the Implications for Biodiesel Production". Another publication: "Biodiesel Production from Azolla filiculoides".

Besides biodiesel, other paths to bio-energy exist, such as Hydrothermal liquefaction for conversion to a crude-oil like liquid.

Azolla as the better microalgae farming

There has been long-standing hype about microalgae farming. In the 1950s, Chlorella was supposed to be the next thing that would solve all food and health problems. Spirulina is interesting but it requires highly alkaline water and needs specific chemical inputs ($) while Azolla grows on fish pond wastewater, compost leachate, silage leachate, etc.

Other microalgal organisms in this field besides Spirulina (which is the most widely cultivated one with an established market) are Chlorella (popular in Asia), Dunaliella (thrives in salty water), Haematococcus (for astaxanthin pigment), Schizochytrium (for DHA), Aphanizomenon, Botryococcus braunii (biofuel), Nannochloropsis (biofuel and omega-3). Being microalgae, these are all more difficult to harvest than larger organisms. Azolla is very easy to harvest. It exists in symbiosis with the microalga Anabaena. So there we have it, our microalgae, just better.

Videos

"Cultivation of Azolla as a sustainable feed for livestock" - from India and all in Telugu but good footage: azolla as feed for cows, chickens, pigs, goats, fish, etc.

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"The Azolla Project at Colorado State University"

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"Project Azolla: from floating fern to renewable resource" (good overview about a project at the University of Utrecht)

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Organizations

  • Azolla Foundation - [3]
  • Garden Pool Group sells it - [4]
  • Azolla Consortium - [5]

Sources

  • Pond Megastore - $10 - [6]
  • Loch Ness Water Gardens - $7 - [7]
  • Ponds, Plants, and More - $5 - [8]
  • Pond Plants Online - [9]
  • Pond Plants R Us - [10]

Links

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