Aquaponics Fish Food Maker

Aquaponics Small Pellet Mill

credit to: GEMCO Energy

link: http://www.pellet-press.com/Products/Home-Use-Pellet-Mills.html


Introduction:

The home-use pellet mills also named flat die pellet mill, which was first invented in the early 20th century, is mainly for home use. Due to its lower cost and simple construction, this type has become the most widespread at residences and farms internationally. Thanks to our ISO 9000-certified factories, our well-trained engineers’ hard work, and our staff’s efficiency, we are able to provide some of the best design and installation services for wood pellet mills. Through years of experience in this industry we have acquired advanced technology for wood pelletization. The conditioning of raw materials is one of the most important steps in making wood pellets. Taking into account that wood waste is more difficult to compress than feedstuff, our machinery is able to adjust the material's moisture and size to make the finest biomass pellets. 

Key Parts of Home-use Pellet Mill:

Flat Die Flat die and Press Rollers Flat Die and Press Roller Installation


Scope of Application:

Our pellet mills are appropriate for compressing a variety of fibrous biomass material: corn (maize) husks, peanut shells, rice husks, corncobs, cotton seed hulls, wheat biproducts, sunflower seed shells, sawdust, cotton stalks, weeds, house refuse, waste plastic and similar types of factory waste. It is also suitable for raw materials which are otherwise difficult to pelletize owing to low bonding ratios. All of organic bacterial manure, organic fertilizer and compound fertilizer can be also pelletized by our machines at low temperatures.


Advantages of Home-use Pellet Mill:

1. Reliable, versatile and efficient
2. ISO and CE certified
3. Potential for 24 hour continuous running
4. Competitive price with excellent quality
5. Low energy consumption and less manpower
6. Durable spare parts
7. Simple, automated operation
8. Easy maintenance
9. Advanced technological design requiring less labor
10. Stable and durable functionality

Technical Data of the Electric Motor:

  

Model	Power(kW)	Output (kg/h)	Measurements (mm)	N.W/G.W (kg)
ZLSP 120B	3	60-100	750*320*680	80/100
ZLSP 150B	4	90-120	800*450*700	95/110
ZLSP 200B	7.5	200-300	1650*820*1200	200/230
ZLSP 230B	11	300-400	1050*480*930	290/320
ZLSP 260B	15	400-600	1180*540*1000	320/360
ZLSP 300B	22	600-800	1240*540*950	350/380

Aquaponics Organic Pesticide

Neem oil
From Wikipedia, the free encyclopedia

Neem oil

Neem oil is a vegetable oil pressed from the fruits and seeds of the neem (Azadirachta indica), an evergreen tree which is endemic to the Indian subcontinent and has been introduced to many other areas in the tropics. It is the most important of the commercially available products of neem for organic farming and medicines.

Neem oil varies in color; it can be golden yellow, yellowish brown, reddish brown, dark brown, greenish brown, or bright red. It has a rather strong odor that is said to combine the odours of peanut and garlic. It is composed mainly of triglycerides and contains many triterpenoid compounds, which are responsible for the bitter taste. It is hydrophobic in nature; in order to emulsify it in water for application purposes, it must be formulated with appropriate surfactants.

Azadirachtin is the most well known and studied triterpenoid in neem oil. The azadirachtin content of neem oil varies from 300ppm to over 2500ppm depending on the extraction technology and quality of the neem seeds crushed. Neem oil also contains steroids (campesterol, beta-sitosterol,stigmasterol).

Neem fruit

The method of processing is likely to affect the composition of the oil, since the methods used, such as pressing (expelling) or solvent extraction are unlikely to remove exactly the same mix of components in the same proportions. The neem oil yield that can be obtained from neem seed kernels also varies widely in literature from 25% to 45%.

The oil can be obtained through pressing (crushing) of the seed kernel both through cold pressing or through a process incorporating temperature controls. Neem seed oil can also be obtained by solvent extraction of the neem seed, fruit, oil, cake or kernel. A large industry in India extracts the oil remaining in the seed cake using hexane. This solvent-extracted oil is of a lower quality as compared to the cold pressed oil and is mostly used for soap manufacturing. Neem cake is a by-product obtained in the solvent extraction process for neem oil.

Neem leaves and flowers

Neem oil is not used for cooking purposes. In India, it is used for preparing cosmetics (soap, hair products, body hygiene creams, hand creams) and in Ayurvedic, Unani and folklore traditional medicine, in the treatment of a wide range of afflictions. The most frequently reported indications in ancient Ayurvedic writings are skin diseases, inflammations and fevers, and more recentlyrheumatic disorders, insect repellent and insecticide effects.

Traditional Ayurvedic uses of neem include the treatment of acne, fever, leprosy, malaria, ophthalmia and tuberculosis. Various folk remedies for neem include use as an anthelmintic, antifeedant,antiseptic, diuretic, emmenagogue, contraceptive, febrifuge, parasiticide, pediculocide and insecticide. It has been used in traditional medicine for the treatment of tetanus, urticaria, eczema,scrofula and erysipelas. Traditional routes of administration of neem extracts included oral, vaginal and topical use. Neem oil has an extensive history of human use in India and surrounding regions for a variety of therapeutic purposes. Puri (1999) has given an account of traditional uses and therapeutic indications and pharmacological studies of this oil, in his book on neem.

Formulations made of neem oil also find wide usage as a biopesticide for organic farming, as it repels a wide variety of pests including the mealy bug, beet armyworm, aphids, the cabbage worm, thrips, whiteflies, mites, fungus gnats, beetles, moth larvae, mushroom flies, leafminers, caterpillars, locust, nematodes and the Japanese beetle. Neem oil is not known to be harmful to mammals, birds, earthworms or some beneficial insects such as butterflies, honeybees and ladybugs if it is not concentrated directly into their area of habitat or on their food source. It can be used as a household pesticide for ant, bedbug, cockroach, housefly, sand fly, snail, termite and mosquitoes both as repellent and larvicide. Neem oil also controls black spot, powdery mildew,anthracnose and rust fungi.

Neem seed oil has also been found to prevent implantation and may even have an abortifacient effect similar to pennyroyal, juniper berries, wild ginger, myrrh and angelica. The effects were seen as many as ten days after fertilization in rats though it was most effective at no more than three days. (Sinha, et al., 1984); (Lal et al., 1985). In a study on rats, neem oil was given orally eight to ten days after implantation of the fetus on the uterine wall. In all cases, by day 15, the embryos were all completely resorbed by the body. The animals regained fertility on the next cycle showing no physical problems. Detailed study of the rats revealed increased levels of gamma interferon in the uterus. The neem oil enhanced the local immune response in the uterus.(Mukherjee, 1996) Post coital use of neem oil as birth control does not appear to work by hormonal changes but produces changes in the organs that make pregnancy no longer viable (Tewari, 1989),(Bardham, 1991).

Neem seed oil has also been used as a renewable source for the preparation of polymeric coatings. It has been converted into various polymeric resins, including polyesteramides and polyetheramides. These resins may be utilized further for preparation of polyurethane coatings.

Neem tree

How to Write a Business Plan

credit to http://www.startupdonut.co.uk/

Writing a business plan

Many potential start-up businesses are daunted by the prospect of writing a business plan. But it is not a difficult process - and a good business plan focuses the mind as well as helping to secure finance and support.

The business plan will clarify your business idea and define your long-term objectives. It provides a blueprint for running the business and a series of benchmarks to check your progress against. It is also vital for convincing your bank - and possibly key customers and suppliers - to support you.

This briefing explains:

• What information to include.
• How to present your financial forecasts.

1 Executive summary

The executive summary outlines your business proposal. Although it is the last section to be written, it goes on the first page of the business plan. It will be read by people unfamiliar with your business, so avoid jargon.

1.1 The executive summary highlights the most important points and shouldsum up six areas.

• Your product or service and its advantages.
• Your opportunity in the market.
• Your management team.
• Your track record to date.
• Financial projections.
• Funding requirements and expected returns.

1.2 When deciding whether to back a start-up, bank managers and investors often make provisional judgements based on the executive summary.

The main body of the business plan is then read to confirm the initial decision. The appendices at the back of the plan carry detailed information to support the main text.

2 The business

2.1 Explain the background to your business idea, including:

• The length of time you have been developing the business idea in its present form.
• Work carried out to date.
• Any related experience you have.
• The proposed ownership structure of the business.

2.2 Explain, in plain English, what your product or service is. Make it clear how:

• it will stand out as different from other products or services
• your customers will gain through buying your product or service
• the business can be developed to meet customers' changing needs in the future

It is important to cover any disadvantages or weak points you feel the business may have. Be frank about these - it inspires confidence.

2.3 Explain any key features of the industry (eg special regulations, effective cartels or major changes in technology).

3 Markets and competitors

3.1 Focus on the segments of the market you plan to target - for example, local customers or a particular age group.

• Indicate how large each market segment is and whether it is growing or declining.
• Illustrate the important trends - and the reasons behind them.
• Outline the key characteristics of buyers in each segment (eg age, sex or income).
• Mention customers you have already lined up and any sales you have already achieved.

3.2 What are the competing products and who supplies them?

• List the advantages and disadvantages of all your competitors and their products.
• Explain why people will desert established competitors and buy from you instead.
• Show you understand your competitors' reaction to losing business and demonstrate how you will respond to it.

Unless there is a viable market and you know how you are going to beat the competition, your business will be vulnerable.

You must show you have done the market research needed to justify what you say in the plan.

4 Sales and marketing

This section is crucial. It often gives a good indication of the business' chances of success.

4.1 How will your product or service meet your customers' specific needs?

4.2 How will you position your product?

• This is where you show how your price, quality, response time and after-sales service will compare with competitors.
• Quote minimum order figures, if appropriate.

4.3 How will you sell to customers?

• For example, by phone, through your website, face-to-face or through an agent.
• Show how long you predict each sale will take. Many new businesses underestimate the time involved in winning each order. In year one you may spend up to 80 per cent of your time making contacts and selling.
• Will you be able to make repeat sales? If not, it will be hard to build up volume.

4.4 Who will your first customers be?

• Show which customers have expressed an interest or promised to buy from you and the sales they represent.
• How will you identify potential customers?

Unless you can demonstrate that you have a clearly defined pool of potential customers, starting your business is likely to be a struggle.

4.5 How will you promote your product? For example, using advertising, PR, direct mail or via email and a website.

4.6 What contribution to profit will each part of your business make?

• Most businesses need more than one product, more than one type of customer and more than one distribution channel.
• Look at each in turn. Examine your likely sales, gross profit margins and costs.
• Identify where you expect to make your profits and where there may be scope to increase either margins or sales.

Services and intangible products (eg computer software) are more difficult to market. Start-ups in these areas must pay special attention to marketing in their business plans.

5 Management

People reading the business plan need to be given an idea of why they should have faith in the management of your start-up.

5.1 Outline the management skills within your team.

• Define each management role and who will fill it.
• Show your strengths and outline how you will cope with any weaknesses.
• Describe the background and experience of each team member.
• Clarify how you intend to cover the key areas of production, sales, marketing, finance and administration.
• Management information systems and procedures should be outlined. For example, management accounts, sales, stock control and quality control.
• Show how many 'mentors' and other supporters you will have access to.

5.2 How committed are you?

Banks and any other potential investors will want to be sure you are committed to the business. Show how much time and money each of the management team will contribute, and what your salaries and benefits will be.

6 Operations

Explain what facilities the business will have and how it will deliver the product or service to the customer.

6.1 Show the pros and cons of the location.

6.2 Indicate the facilities you will need to start (eg equipment and machinery). Some start-up businesses only need a desk and a phone.

Consider any potential limits to production capacity.

If you are going to manufacture or distribute products, show how and where you are going to warehouse them and for how long.

6.3 Provide a list of employee roles you need to fill and the skills required to fill them.

6.4 Show how you selected your suppliers.

Keep it real

Sales forecasts produced for start-up businesses are often over-optimistic. Here are some important reality checks.

• How soon can you start selling?
• Will potential customers hold off for a year before they take you seriously and place an order?
• How often will you be able to sell?
• How many days can you spend selling?
• How long will each lead take to line up?
• What percentage of leads will turn into sales?
• How much will you be able to sell?
• What will the average sale value be?
• Will most people give repeat orders, or must you find new customers each time?
• How long after a sale will it be before you can collect payment?
• How much income can you realistically expect each month?

7 Financial forecasts

Your financial forecasts translate what you have already said about your business into numbers.

7.1 A realistic sales forecast forms the basis for all your other figures.

Break the total sales figure down into its components (eg different types of products or sales to different types of buyer).

7.2 Your cashflow forecast shows how much money you expect to be flowing into and out of your bank account and when. You must show that your business will have access to enough money to survive.

• Demonstrate that you have considered the key factors affecting cashflow - eg level and timing of sales revenue, wages.
• Show when there will be more money coming in than going out ('cash-positive').

7.3 Your profit and loss (P&L) forecast gives a clear indication of how the business will move forward. Summarize the annual P & L forecast for each of the first two or three years of trading.

7.4 If you are launching a larger start-up, you will also need projected balance sheets.

These will show you the financial state of your business on day one and at year end, perhaps for the first two or three years.

7.5 Do not get too protective about your forecasts. You may need to revise them.

For every forecast, list all your key assumptions (eg prices, sales volume, timing). Small business advisers at banks and your local business support organisation will often help you put together your forecasts free of charge.

8 Financial requirements

The cashflow forecast will show how much finance the business needs. Your assessment of the risks will determine whether or not you need to arrange contingency financing.

8.1 Say how much finance you will want, when and in what forms.

For example, you might want a fixed-interest loan and an overdraft facility.

8.2 State what the finance will be used for.

Show how much will be for buying equipment and how much for working capital (financing stock and debtors).

8.3 Confirm that you will be able to afford it.

9 Assessing the risks

9.1 Look at the business plan and isolate areas where something could go wrong (eg if your main supplier closes down).

What you would do if it actually happens?

9.2 Consider a range of what-if scenarios (eg what happens to your cashflow if sales are 20 per cent lower or 15 per cent higher than forecast). If there are serious risks:

• you can arrange contingency funding to cover the finance you may need
• you may decide that the business is too risky and abandon the whole project.

Assessing risk will help you minimise problems and help build up your credibility with any investor or bank.

10Appendices

10.1 Detailed financial forecasts (monthly sales, monthly cashflow, P&L) should usually be put in an appendix.

Include a detailed list of assumptions.

For example, the profit margin on each product, debtor collection period, creditor payment period, stock turn, interest and exchange rates, equipment purchases.

10.2 You may want to give other relevant information.

• Detailed CVs of key personnel (essential if you are seeking outside funding).
• Market research data.
• Product literature or technical specs.
• Names of target customers.
• A list of external data sources used in your research will add credibility to the information.

11 Presenting the plan

The more solid information you can gather for your own use, the better the business plan will be. But a banker or other outsider will not have time to read through all the details.

11.1 Keep your business plan short.

Most business plans are too long. Focus on what the reader needs to know.

11.2 Make it professional.

• Put a cover on the business plan and give it a title.
• Include a contents page.

11.3 Test it.

• Re-read it yourself. Would reading your plan give an outsider a good feel for your business and a grasp of the key issues?
• Show the plan to friends and expert advisers and ask them for comments.

Preventing an Aquaponic Problem From Happening

credit to AQUAPONIC GARDEN

http://www.aquaponicgardeningguide.com/prevent-an-aquaponic-disaster/

Prevent an Aquaponic Disaster

When someone new is getting into aquaponics, they need to take the time to carefully review and learn about aquaponic system maintenance. They need to learn about the most common issues that cause problems in aquaponic systems and it will help them to be more successful from the start.

One of the most disastrous aquaponic problems that can happen is when you use cold, chlorinated, un-adjusted pH water to top off and fill the system’s reservoir. Using this type of water will stress and kill everything from your fish and plants to even the healthy bacteria living in the system.

When you are “topping-off” the reservoir in the aquaponic system, you can get away with using less than 10% of this type of water. However, using too much will cause aquaponic problems in a very short time and you will need to start salvaging your system all over again.

Many times, people who are topping of their system using a water hose will forget that the water is on and flood their system. By setting a timer it will remind you to shut off the water to avoid this aquaponic problem.

The Options

Always evaluate the situation first.

Figure out what is wrong, ways to fix it and then pick the best option. Using chlorinated water essentially sanitizes your entire aquaponic system and will possibly eliminate all of the gathered plant nutrients.

When using cold, chlorinated, un-adjusted pH water for your system, the most likely state of each of the living elements in your system are as follows:

The Fish

Chlorine is not good for fish and the best case scenario is that they are just really stressed. The temperature level of their water most likely decreased considerably and the pH of the water is most likely changed.

While it is best to not utilize aquarium dechlorinators since they add sodium and other chemicals that can be hazardous to plants and cause aquaponic problems.

You should reduce the amount of chlorine in the system as quickly as possible to recover the fish’s slime coat that keeps them healthy, using a good aquarium water conditioner will do both of these things.

In extreme aquaponic problem cases, many of the fish may be very sickly, or floating in the water.

The Plants

Your plants also are stressed as a result of the temperature and pH changes, in addition to the chlorine that is presenting the water.

If your aquaponic problems are extremely bad then you might have to clean the system, which removes all of the beneficial nutrients from the system. It is strongly recommend that you add some Maxicrop into your system that will feed your plants while the aquaponic system comes back into balance.

If you catch the aquaponic problem before the water has made its way from the fish reservoir into the plants in the system, then quickly shut off the water pump. You will need to treat the fish tank water before you turn the water pump back on and by doing this it will help to minimize aquaponic problems caused to your plants and the bacteria in your system.

The Bacteria

Likely, the healthy bacteria in the aquaponics system have been destroyed and you will need to start all over again by re-cycling your system.

This is the hardest part since you most likely still have fish in your system and if they all didn’t die, you will need to cycle your system using the fish as your ammonia source.

Unless you have another fish tank or aquaponic system that you can transfer them to and do a fish-less cycling.

All will work out, however be sure to watch the ammonia and nitrite levels very carefully. If either starts reaching the high end of the color graph in the API test kit (4 ppm ammonia and 1 ppm nitrites).

After that be sure to do a 1/3 water change out of your system to dilute the levels back down to where your fish will be able to tolerate to avoid further aquaponic problems.

The Worms

You can assume that they have actually been eliminated by the chlorine and that you should add more worms to your grow beds once you have adjusted the water.

The bottom line is that one disruptive aquaponic problem can reset your system back to when you first started. You may lose a few fish, your plants could stress out and yellow for a few days or weeks, but you will certainly recuperate from the aquaponic problems.

Learn From Another’s Experiences…

The best way to prevent these aquaponic problems is to use a separate water tank to off-gas the chlorine, adjust the pH and water temperature before transferring the water into your aquaponic system.

By doing this additional step, you will save time and heartache from an aquaponic problems turning into a disaster then having to start all over again.

And just think, you will most likely never make these mistakes again or by reviewing this article, you will prevent this aquaponic problem from ever happening!

  

Aquaponics' Applications [1]

Educational Applications of Aquaponics

credit to Nelson Pade website

Aquaponics and hydroponics are both excellent means of demonstrating many principles of science, agriculture, math and business in all grade levels and for home schooling. Applications of these technologies are only limited by ones imagination.

A unit in hydroponics or aquaponics enforces practical uses of chemistry, mathematics, physics, economics and engineering. The monitoring and care of a hydroponic or aquaponic system by students helps instill a sense of responsibility, inspires creativity and creates excitement in the learning environment.

A small aquaponic garden can sit on a counter top and be used to demonstrate botany, horticulture, hydroponics (soil less plant culture), plant science, nutrition, physiology and care, nutrient and pH testing, pH relationships, plant usage of nutrients, seed germination, photosynthesis and light and plant development.

An aquaponic system combines hydroponics with aquaculture in a recirculating system. In addition to the plant sciences, aquaponics incorporates and demonstrates many of natures natural cycles, nitrification, biology, fish anatomy and nutrition and high-tech agriculture.

A unit in hydroponics or aquaponics can be started at the beginning of a semester and run through the entire semester, allowing the educator to present the individual concepts and lessons as the plants and fish develop and grow. A small hydroponic or aquaponic system can sit on a spare counter top. Larger systems can be placed on the floor of a classroom, in a windowsill or a greenhouse.
  

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.

Permaculture + Aquaponics = Self Sustaining

By bringing Permaculture Design principles and practices into Aquaponics, we are closing many loops, inefficiencies, and energy drains that exist in more conventional systems, as well as integrating the system appropriately into the larger landscapes and ecologies it is a part of, making it a much more holistic and sustainable enterprise. 

Closed-Loop Aquaponics focuses on designing aquaponics systems that that produce as much of the system’s needs (water, energy, fish, feed, heat, gas, etc.) on-site and within the system itself as possible. 

Products of the systems can include; solar electricity, solar heated air, solar heated water, fish, prawns, vegetables, fruit, aquatic plants, algae, minnows, snails, worms, dry and liquid fertilizers, methane gas, and more. By using the Permaculture Design process, we learn to design systems appropriate to diverse climates and unique ecological niches to meet various needs, dreams, and desires.

Aquaponics Trial #2

Hey guys, its been a while.

Here's the second trial I've been doing at my house. Had the first prototype moved out of the shade plus additional 2 pods. Also added a fish tank i acquired from a fish store that's about to move out of town.

Actually these photos here are outdated by 2-3 months, since I've already started to harvest them from August. Anyway, here's a close-up of the pods.

I've been trying a lot of different kinds of vegetable; kailan, lettuce, salad, cabbage, sawi, etc. But the most success I've had so far is the kangkung (water spinach).

The two tanks shown are connected underneath; the right tank receives freshly filtered water from the pods. It has 9-10 lampam fish. The water then travel to the left tank (along with fish faeces), before being pumped to the highest pods to begin the cycle again.

Aquaponics and Worms

Credit to Vermiaquaponics article by Great Lakes Aquaponics
http://greatlakesaquaponics.wikispaces.com/Vermiaquaponics

Vermiaquaponics is actually a word my father and I invented. It is in laymans terms the same thing as aquaponics but with a combination of worm breeding. You use the worm castings to make a nutrient tea which is then used to feed the plants through their roots directly and in the form of foliar feeding. Foliar feeding is when you feed a plant through its leaves. You spray the tea onto the leaves directly and the goal is to have the nutrients be absorbed in more than one way. Then the worms themselves are used to feed the fish thus eliminating some of the cost of fish feed, and making these aquaponic systems more self sustainable.

Vermiaquaponics will soon become the future of aquaponics. In a way many people use certain aspects of it by feeding their plants with extra micronutrients and such.(for example chelated iron, manganese, zinc, etc) But what makes this version so unique is that it will help eliminate the cost of fish feed which becomes an enormous expense. In addition you are feeding your fish great protein which should theoretically help them to grow faster and bigger. Although worms do not give fish 100% of their diet, and are nearly 90% composed of water, so supplements will be required. So essentially your getting your fish wish less cost improving your profit. 


One concern I have about this new form of growing is when it gets to the commercial scale. Places like the University of the Virgin Islands are harvesting over 5 tons of fish annually and in order for something like this to be beneficial to them you would need a very vast number of worms. Making vermiaquaponics less practical on a commercial scale but definately beneficial on the hobby scale. Something to consider if trying to convert from aquaponics to vermiaquaponics is that you will need the space to grow your worms, and to make sure you will have enough worms to be able to integrate this technology into aquaponics.

The focus on vermiaquaponics is to not incorporate it in systems producing such high quantities of fish. For the Urban Farmer, primary focus should be on plant growth in order to make profit. Using as little fish as possible and supplementing with tea will reduce other costs. The key is to get the right number of fish to plant growth ratio and also adding the vermiaquaponics side of the equation. When all these numbers can be worked out maximum plant growth to cost can be achieved giving you maximum profit.

Aquaponics Presentation #3

CONCLUSION

 

The simple steps on how to establish your own homegrown apuaponics produce 

 prepare the tank         prepare the growbed      setup the pipework

 

planting seedlings           watch them grow        harvest in 2-3 weeks

releasing fingerlings      aerate and feed them      harvest in 3-4 months

REFERENCES

1 Australian Aquaponics website

http://www.aquaponics.com.au

2 Cabbage Hill Farm website

http://www.cabbagehillfarm.org

3 Kirby Peak Ranch website

http://www.kirbypeakranch.com

4 University of Virgin Island website

http://rps.uvi.edu/AES/Aquaculture/aquaponics.html

5 Wikipedia

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