Green Tech Healthy Foods Aquaponics Project

Aquaponics is a food production system that combines aquaculture (raising fish or other aquatic animals) with hydroponics (cultivating plants in water) in a symbiotic environment. In normal aquaculture, excretions from the animals being raised can accumulate in the water, increasing toxicity. In an aquaponic system, water from an aquaculture system is fed to a hydroponic system where the by-products are broken down by nitrogen-fixing bacteria into nitrates, which are utilized by the plants as nutrients. The water is continuously recirculated between the fish and plants.

As existing hydroponic and aquaculture farming techniques form the basis for all aquaponics systems, the size, complexity, and types of foods grown in an aquaponics system can vary as much as any system found in either distinct farming discipline.




GreenTech Aquaponics

GreenTech has started an exciting aquaponics venture in Sacramento. We have secured an initial site in the Oak Park neighborhood for an educational aquaponics facility. Students have begun preparing the land there for a 1000-square foot aquaponics greenhouse. They are taking part in all phases of greenhouse construction and will take part in installation and operation of the aquaponics system inside the greenhouse as well. The food we raise will be donated to the Sacramento Food Bank and Family Services. Students will learn a wide range of valuable skills in an
emerging green industry that they could potentially use for career opportunities in the future, while simultaneously contributing to the community.

Aquaponics Kale large


aquaponics - kale inside greenhouse

Community-based Aquaponics

Here’s a video of aquaponics and urban farming guru Will Allen at Growing Power in Milwaukee, WI, showing some of what is possible with a community-based aquaponics operation.

Aquaponics has Ancient Roots

Aztecs cultivated agricultural islands known as chinampas in a system considered by some to be the first form of aquaponics for agricultural use where plants were raised on stationary (and sometime movable) islands in lake shallows and waste materials dredged from the Chinampa canals and surrounding cities were used to manually irrigate the plants.

South China, Thailand, and Indonesia who cultivated and farmed rice in paddy fields in combination with fish are cited as examples of early aquaponics systems. These polycultural farming systems existed in many Far Eastern countries and raised fish such as the oriental loach, swamp eel, and crucian carp as well as pond snails in the paddies.

Floating aquaponics systems on polycultural fish ponds were installed in China in more recent years on a large scale growing rice, wheat and canna lily and other crops, with some installations exceeding 2.5 acres.

The development of modern aquaponics is often attributed to the various works of the New Alchemy Institute and the works of Dr. Mark McMurtry et al. at the North Carolina State University. Inspired by the successes of the New Alchemy Institute, and the reciprocating aquaponics techniques developed by Dr. Mark McMurtry et al., other institutes soon followed suit. Starting in 1997, Dr. James Rakocy and his colleagues at the University of the Virgin Islands researched and developed the use of deep water culture hydroponic grow beds in a large-scale aquaponics system.

The first aquaponics research in Canada was a small system added onto existing aquaculture research at a research station in Lethbridge, Alberta. Canada saw a rise in aquaponics setups throughout the ’90s, predominantly as commercial installations raising high-value crops such as trout and lettuce. A setup based on the deep water system developed at the University of Virgin Islands was built in a greenhouse at Brooks, Alberta where Dr. Nick Savidov and colleagues researched aquaponics from a background of plant science. The team made findings on rapid root growth in aquaponics systems and on closing the solid-waste loop, and found that owing to certain advantages in the system over traditional aquaculture, the system can run well at a low pH level, which is favored by plants but not fish.

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