Different Types of Aquaponics Systems

There are three different types of aquaponics systems that have been developed for use by home gardeners and commercial enterprises. These are media based, NFT and Deep Flow or Raft systems and here is a description of each one.

Media-based: also known as the gravel bed system, the media-based aquaponics system is the simplest type to set up and can be used on a small or large scale. This is why it is the type most commonly used by backyard aquaponics enthusiasts. Containers are filled with small rocks, usually expanded clay pebbles which are porous to absorb water and air, and then seedlings are planted directly into these. Water from the fish tank is circulated through the container to allow the plants to access the nutrients. The rocks act as a biological filter as well as a solids filter, eliminating the need for extra equipment.

You can also use special netted growing pots for your seeds or seedlings. You fill these with perlite, coir, peat moss or the clay pebbles and plant into them. These pots are then placed into a larger container which has been filled with the expanding clay pebbles, making sure the netted sides are covered by the media. Media-based aquaponics systems hold plants firmly and so are ideal for growing fruiting plants.

There are two different ways this type of aquaponics system can be operated. The first method pumps a continuous flow of water through the media bed from the fish tank and back into the tank. The second is a process called flood and drain or ebb and flow, where water is pumped into the bed to a depth of about 10 to 12 inches (20 to 30 cms) and then drained away. A timer controls the flooding and draining sequence.

NFT system: or Nutrient Film Technique is a common method used in hydroponics that is best suited to a large-scale aquaponics production. This is because of the expense of setting up the system of PVC pipes and mechanical filtration needed to operate the system. Because there is not the surface area exposed to the air, as in the media-based system, a biological filter is needed to allow the beneficial bacteria to develop and convert the fish wastes into plant nutrients. Solids filtration is also needed to deal with the solids in the fish waste; this is usually set up in a separate tank through which the water passes before going through the plant pipes.

In the NFT system, plants are held in netted growing pots which are suspended through holes cut in the pipe. A thin film of nutrient-rich water is run along the bottom of enclosed gutters so that the roots can reach it. It is really only suited to plants that have a small root systems, such as leafy green vegetables.

Deep Flow: also called Deep Water Culture (DWC) or the Raft system, this is another commonly-used method in hydroponics. This system involves the use of a foam ‘raft’ that floats on top of the water. It is a popular choice for both commercial and backyard aquaponics because it is relatively cheap to set up and operate.

A container or channel is used to hold the water as it is pumped through from the fish tank, after it has been filtered to remove any solid waste. Plants are held in holes made in the raft, so their roots dangle down into the water. This method uses high volumes of water which provides stable water temperatures for the plants and fish. It is the method most often used in commercial aquaponics operations because of the ease with which the plants can be tended and harvested. Again, it is better suited to growing herbs and leafy green vegetables than plants with bigger root systems and fruiting varieties.

This type of system can easily be adapted for home garden use by simply floating a styrofoam tray on top of a fish tank. Just cut holes in the tray and suspend the plants, or plants in netting pots, through the holes so the roots are in contact with the water. Choose fish varieties that are not voracious plant eaters to avoid having plants’ roots eaten away.

Now that you understand how each of the 3 types of aquaponics systems operates, you will be in a better position to decide which one suits you the best. Whichever method you choose, it is best to start small so you can gradually build your expertise and experience before setting up a large system.

   

Aquaponics' Origin

Aquaponics, with its fancy name, may sound like a trendy new concept developed by environmentalists. But it's actually as old as the hills.

The origins of aquaponics can be traced to ancient Egyptian and Aztec cultures.

The ancient Aztecs developed chinampas, man-made floating islands, which consisted of rectangular areas of fertile land on lake beds.

Aztecs cultivated maize, squas­h and other plants on the chinampas and fish in the canals surrounding them.

The fish waste settled on the bottom of the canals, and the Aztecs collected the waste to use as fertilizer.

Additionally, countries in the Far East like Thailand and China have long used aquaponic techniques in rice paddies.

Aquaponics is Organic

Organic Grown Food

http://www.epa.gov/agriculture/torg.html

"Organically grown" food is food grown and processed using no synthetic fertilizers or pesticides. Pesticides derived from natural sources (such as biological pesticides) may be used in producing organically grown food.

Organic Farming

http://en.wikipedia.org/wiki/Organic_farming

Organic farming is a form of agriculture that relies on techniques such as crop rotation, green manure, compost and biological pest control. Organic farming uses fertilizers and pesticides but excludes or strictly limits the use of manufactured (synthetic) fertilizers, pesticides (which include herbicides, insecticides and fungicides), plant growth regulators such as hormones, livestock antibiotics, food additives, genetically modified organisms, human sewage sludge, and nanomaterials.

Organic agricultural methods are internationally regulated and legally enforced by many nations, based in large part on the standards set by the International Federation of Organic Agriculture Movements (IFOAM), an international umbrella organization for organic farming organizations established in 1972. IFOAM defines the overarching goal of organic farming as:

"Organic agriculture is a production system that sustains the health of soils, ecosystems and people. It relies on ecological processes, biodiversity and cycles adapted to local conditions, rather than the use of inputs with adverse effects. Organic agriculture combines tradition, innovation and science to benefit the shared environment and promote fair relationships and a good quality of life for all involved..."

—International Federation of Organic Agriculture Movements

Organic Products 

http://www.ams.usda.gov/AMSv1.0/getfile?dDocName=STELDEV3004446&acct=nopgeninfo

Organic products have strict production and labeling requirements. Unless noted below, organic products must meet the following requirements:

- Produced without excluded methods; genetic engineering, ionizing radiation, or sewage sludge.

- Produced per the National List of Allowed and Prohibited Substances (National List).

- Overseen by a USDA National Organic Program authorized certifying agent,

- Following all USDA organic regulations.

An overview of labeling the various categories of organic products is provided below.

PRINCIPAL DISPLAY PANEL: portion of the package most likely to be seen by customers at the time of purchase.

INFORMATION PANEL: includes ingredient statement (list of ingredients contained in a product, from highest to lowest percentage of final product) and other product information.

100% Organic

Raw or processed agricultural products in the “100 percent organic” category must meet these criteria:

- All ingredients must be certified organic.

- Any processing aids must be organic.

- Product labels must state the name of the certifying agent on the information panel.

An overview of labeling the various categories of 100% organic products is provided below.

PRINCIPAL DISPLAY PANEL: May include USDA organic seal and/or 100 percent organic claim.

INFORMATION PANEL: Must identify organic ingredients (e.g., organic dill) or via asterisk or other mark.

Normal Organic

Raw or processed agricultural products in the “organic” category must meet these criteria:

- All agricultural ingredients must be certified organic, except where specified on National List.

- Non-organic ingredients allowed per National List may be used, up to a combined total of five percent of non-organic content (excluding salt and water).

- Product labels must state the name of the certifying agent on the information panel.

An overview of labeling the various categories of normal organic products is provided below.

PRINCIPAL DISPLAY PANEL: May include USDA organic seal and/or organic claim.

INFORMATION PANEL: Must identify organic ingredients (e.g., organic dill) or via asterisk or other mark.

Organic Certification

http://en.wikipedia.org/wiki/Organic_certification

Organic certification is a certification process for producers of organic food and other organic agricultural products. In general, any business directly involved in food production can be certified, including seed suppliers, farmers, [food] processors, retailers and restaurants.

Requirements vary from country to country, and generally involve a set of production standards for growing, storage, processing, packaging and shipping that include:

• no human sewage sludge fertilizer used in cultivation of plants or feed of animals
• avoidance of synthetic chemical inputs not on the National List of Allowed and Prohibited Substances (e.g. fertilizer, pesticides, antibiotics, food additives, etc.), genetically modified organisms, irradiation, and the use of sewage sludge;
• use of farmland that has been free from prohibited synthetic chemicals for a number of years (often, three or more);
• keeping detailed written production and sales records (audit trail);
• maintaining strict physical separation of organic products from non-certified products;
• undergoing periodic on-site inspections.

Aquaponics Presentation #1

Hi, its been long since I posted. And guess what I found while going through my previous semesters paperwork; an aquaponic presentation I (and a collegue of mine) did back in 2008! Here is some of its content.

INTRODUCTION

Terminology     :  Spelled                      : aqua·pon·ics

                          Pronunciation            : [ak-wuh-pon-iks]

                        : noun (used with a singular verb)

                        : origin: 1996-97; aqua(culture) + (hydro)ponics

                        : symbiotic cultivation of plants and aquatic animals in a recirculating environment

Brief explanation           : 

1. Fish waste accumulates in water as a byproduct of the keeping them in a closed-tank aquaculture system. The waste rich water becomes high in plant nutrients but is toxic to the aquatic animal.

     2.  Plants are grown in a hydroponic system that utilizes the nutrient rich water. The plants in turn digest the nutrients, reducing or eliminating the waters toxicity for the aquatic animal.

3. The water, now clean, is returned to the aquatic animal environment and the cycle continues. Aquaponics systems do not discharge or exchange water.

The systems rely on the natural relationship between the aquatic animals and the plants to maintain the environment.

  

COMPONENTS OF AN AQUAPONICS SYSTEM

     Fish Tank                   Vegetable Plot                 Water Pump

       
      Filter                                 Piping                         Sump

PRODUCTS OF AN AQUAPONICS SYSTEM

              Fresh Fish 

             Fresh Vegetables



***presentation continues into #2, refer older post***