Midge AKA Chironomus riparius not Camallanus!

Thank you  John Malone and  Dr. George B. Brooks, Jr.  for your persistent help with this. 
You are correct.  It is Midge AKA Chironomus riparius not Camallanus!
I think the tell tale features are the body segments and the narrow pointy tail.

       Camallanus                               This is my worm                        Midge AKA Chironomus riparius

These worms are really small.  I had to take about 20 pictures to get just a couple that were any good.  These worms are so hard to see I had to wait until I could use full sunlight.

This is focused through the extra high magnification spot of a magnify glass.  My camera is set at maximum zoom and I still had to make it bigger with the computer!

I still moved the fish from the fish tank over to the raft tank.   I looked carefully to sex the fish, and looked for protruding camallanus.  None were found.    I was not very successful at determining the sex as they all seemed to have two holes.  Maybe its determined by how close together those holes are. 

In any case Im very happy to have them in a tank where I can view them.  I plan to rebuild my 800 gallon tank to a depth of only 18" with an extra 8" to the top edge of the tank.  That will make a 340 gallon tank. 

Two of the largest fish or maybe one really stupid fish jumped out today.  Dang that must have hurt because its 4 to the floor. Is there a rule of thumb about how high the sides must be?


After reading about Midge I became absolutely certain because my grow room has been filled with what I thought were mosquitoes. Hundreds of them; I thought it strange that I never got bit.  They do not fly away when I place my finger on them, so I have been feeding them to the fish one at a time.

Thanks again for your help!

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Intermitent Pump Systems

  My goal with these designs is to save energy by running a pump intermittently rather than 24/7 using an ebb&flow design, but the problem with ebb&flow is the regurgitation of solid fish waste and uneaten food.

  I think these ideas would only be worth while if the system were small.  With a large system the cost of circulating 24/7 would be applied to a much larger grow bed array.   But for a small system where pennies count and the harvest is small, I think there are ways to make an ebb&flow work.  Here are a couple ideas Ive had.

   I have drawn this system that would use the ebb & flow method and return clean water to the fish tank.  Water would be held in the settling/filter tank while the pump is on.  Then the clean water would return to the fish tank when the pump is off.
   An overflow would allow excess water to flow back to the fish tank. 
While the pump is filling the settling tank a solenoid valve would hold the water in the grow beds and settling tank.  A timer would turn the pump and the normally open solenoid valve off allowing the grow beds and settling tank to drain back to the fish tank.
   This design is an improvement over the classic ebb&flow design because the settling tank allows for the water to be cleaned before returning to the fish tank.

Here is another concept drawing which uses vertical gardening and a reservoir/settling tank.  The water is pumped to the reservoir with an intermittent timer.  An overflow tube would return excess water to the fish tank.
Filtered drip lines from the reservoir would supply a constant water flow to the vertical tubes.  If made of fiberglass reenforced weed cloth the water would be returned to the fish tank with plenty of aeration.

With proper filtration around the pump the system could be set up as simple as this. 

The pump would be on a timer.  The vertical media does not require constant flow.

UPDATE 12/23/2012

The ebb&flow design above is a bit complicated.  A design that has been working for two months can be seen at [The Perfect System]

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Thinking Beam me up Scotty

Dear The-President,

Im reasonably sure that the pressure difference between the Enterprise and (statistically speaking), pretty much every planets surface, would result in a lot of sinus pain and some scenes involving explosive snot.

I feel these scenes were conspicuously absent in the filming of the Star Trek franchise during beaming exercises.

I further feel that in the interest of reality, this should be easily rectified.

The absence of snot is the absence of reality...

Boomshanka.




120 Things in 20 years - Its possible that I have a cold.

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Aquaponics Artificial pollination

Ive been artificially pollinating my cucumber plants for a while now.

I do the hand pollination thing with a small artist paintbrush, because my original - whatever you call cotton on a stick in your part of the world (cotton buds, cotton swabs, etc)- fell to bits, and was really only a stick by the end.

But Ive been wondering if picking a handful of male flowers, and dropping into a blender of water, might just give me a pollen shake to spray into the female flowers. Obviously it would depend on the survivability of pollen in a blender. Its just an idea, and although a quick search didnt find it, it may well have been tried.

It might be a really quick and easy method to pollinate things that dont do the thing with the bees for whatever reason.

I suspect the reason my cucumbers are not getting pollinated, is because there dont seem to be any bees. I seem to remember something about bees mysteriously dying out or something.

I have no idea if it will work, but given none of my cucumbers set fruit without my intervention, it should be easy enough to test. I think all Ill need to do is separate two of my four cucumber plants, and spray one with the pollen shake, and leave the other untouched. The two remaining plants Ill keep pollinating by hand because I need the cucumbers.

This experiment will have to wait for a while, because Ive hand pollinated all the flowers this week. Ill separate the two test plants, and wait until they stop producing fruit before I start the test. Ill use the delay to see if anyone else is doing it, or if it wont work for some reason.



120 Things in 20 years - Its 6am and I havent slept yet.

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Chelated Iron

 Update:

I think I have found a good source of chelated iron.
CLICK HERE

A product called Ironite also looks good.  CLICK HERE for the whole story about lead and arsenic levels found in that product


TCLynx wrote this comment about  Maxicrop

 " As Nate noted, fish emulsion can provide the ammonia source for initial cycling but one must be careful and it might not be the best choice for cycling for all situations. I would definitely not recommend using fish emulsion in any system with fish already in it unless you are an expert. It could spike the ammonia too high and kill off fish if one was not very careful how they went about it. For fishless pre-cycling it might be ok.

For those having issues with plants not flowering or setting fruit well, potassium deficiency can cause that and maxicrop original might be a good supplement to help improve things on that front.

As to people saying to dose with maxicrop to keep the plants going till the nitrates come online, well Im not sure that is really an accurate comment as to what the maxicrop actually provides for the plants. However, in a new system, nitrate is not the only thing the plants are waiting for so giving a dose of seaweed extract can help your plants get a good start with trace nutrients and many of the complex substances that wont be available in a fresh gravel bed. (I also think some worm castings can provide much benefit for a new system too.)"

RupertofOz wrote this about letting the system mature 
Just feed your fish a quality aquaculture pellet feed... they contain all the essentially trace elements necessary for plant growth in an aquaponics system.. and the ammonia wastes from the fish... provide all the necessary "nitrates" required for abundant growth...

"Its that simple.... and safe...
Other additives are only utilized if deficiencies show... usually due to pH associated "lockouts"...
Cycling a system only requires a pure ammonia source.. and only takes a few weeks..."

Original Post:
I got the idea add iron chelate to prevent chlorosis from Murray Hallams video.  The main symptom of iron deficiency is yellowing leaves, especially the youngest leaves. The veins of the leaf usually remain green.  So I went out to buy some today, and found it difficult to get straight iron chelate.

Then I came up with this half baked idea to use dried sea weed since it has no nitrates and lots of iron.   I fed a pinch to my fish and they gobbled it up; they really liked it! I thought I was on to something good.

Then I though better about it, and tested with a very small amount into a large tank of water.  Im so glad I did not put more than that little pinch in the aquaponic system.  It turns the water dark as coffee
.  

Heres what Murray uses

A source CLICK HERE


Update June 15 2012
The topic of nutrients is quite a demanding study.   I have written several posts pertaining to nutrient uptake.   Nutrient Deficiencies

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Epic solar boat adventure Extension poles

Part of the latest design plan is to be able to raise the solar panels when my little boat is going on an epic adventure, rather than just a day trip.

During transit on the tralier, I want my solar panels as close to the deck of the boat as I can make them so they dont fly of in a direction of their choosing. I want them to be a little more under my control that the wind might, so keeping them low means I get a bit less wobble. If you dont know what Im talking about, get a neighbours kid (dont use one of your own) and see how much more they move about if you lift them up high on a post.

Thats physics at work.

Or something.

But anyway, if you built a carport on 300ft long broomsticks, it would fall over in the first stiff breeze. But the same carport would hand it just fine if the broomsticks were only 4 foot tall. (I presume you drive a Ferrari)

So I want my solar panels to sit atop their low rise roof in 110 kph transit, but be extended to a more convenient height when Im on an epic adventure. I dont mind stooping a bit to get under cover, but it will drive me nuts if I have to crawl under the panels if I ever need to sleep on board.

So..

The in the low rise version (road transit, and day trips) the solar panels will sit at around 400mm high.

In high rise mode, they will sit at more like 1200mm high.

In order to move from low to high mode, I figured Id mount the entire frame on hinges so I could add the extension tubes first to one side, and then to the other by lifting the frame with one hand and adding the extension tubes with the other.

But I have a problem. I cant wrap my head around Newton and his pesky rules...

If I mount a 1.8m cube of grow house frame so that all four of its legs are hinged to enable it to tilt around an axis running front to back of the boat, will it fall down, or will its integrity be maintained by the structure of the top.

I realise the answer is going to start with "it depends", but arggggh!.

I want my old brain back.



120 Things in 20 years wants to start using the invention engine again. Its always worked much better than this brain thing.

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Stirling engines Ball bearings

From what Ive read, shiny wire does a better job of being a bearing on a tin can Stirling engine, but I want to see just how much extra friction a proper ball bearing race or two would add to the mix.

The friction levels are very low on these little engines.

They have to be or they just dont work.

But I want to try to make a more robust version, and perhaps even make one that is capable of doing some work.

Perhaps.

But probably not.

Any attempt to make a bigger tin can Stirling engine would also involve a lot more weight. And more weight means more wear and friction. Ball bearings will be the solution, as long as there is enough power left over to overcome the extra friction that bearings have.

That sounds a little contradictory, but bearings are really good at dealing with extra load on the rotating surfaces, but they involve a little extra friction than say... hovering in space.

So, with this in mind, I looked into small bearings.

They cost a lot.

A 12mm (internal) ball bearing race is a very standard thing that industry makes. They cost around $2 each retail, and are a weighty, very strong thing you might find in a motor bike, or in the centre of a bicycle wheel. They carry a lot of weight, and last for ever. But they have way too much friction.

The little bearings I want that are only around 1.5mm in diameter (internal) all seem to cost around $20 each. They are nothing like the robust 12mm ball bearing races I looked at.

Tiny.

Fragile. (actually not really, but compared to the 12mm version...)

Fragile.

And expensive.

But my fishing real has a dozen of the things. They cant really cost that much. It must just be that there is no real retail trade in them. I need three or four, so I thought of buying a $20 K-mart fishing reel, and pulling it to bits, and thats probably what Ill end up doing. But in the mean time, I really want to know if a bearing will be too costly in terms of friction.

I found a little computer cooling fan in my electronics junk drawer. I figured that should have at least one bearing.

These little fans dont put a lot of stress on their little bearings, but they last for ever and spin really fast, with little friction.

Last for ever, fast.

Perfect.

I started by removing all the bits that didnt look like a bearing.

How hard could it be.

Very, it turns out.

Thats the little bearing inside the small brass tube.




I spent a lot of time and energy trying to get it out.

I started by trying to knock out the pin by gently placing a centre punch (made of thick wire) on the centre axle, and smacking it with a hammer as hard as I could.

That didnt work so well.

Actually that didnt work at all.

I finally got it to give some ground by taking a hacksaw to it, and cutting through all the hard plastic surrounds that held the coils to the little motor.

This left me with a much more manageable bit of kit, that even looked like it might finally surrender its bearings.

In fact, this would be perfect if I could just get the pin out of the centre, so I could put the Stirling engines wire crank through the centre.

Centre.

Difficult

I put one end in over the opening of a little socket so the punch could get through and hit it hard.

Nothing happened, so I turned it over and hit it again.

Thats my trusty hammer at the top of the frame.

Camera shy hammer.

This time it worked.

Theres a little flange on one end of the pin that was making it impossible to tap out.

An amazingly strong little flange.

I hit it hard.

A lot.



Now that the shaft was out, I needed to knock out the bearings. I tried inverting the socket so its outside fit inside the brass sleeve, and rested against the bearing. I hit it again.

And again.

And some more.

In the end I just kept cutting.

The hacksaw was the only thing making any progress.

Who would think there would be a time where a hammer failed me.

Theres no real danger of damaging the little bearings here, as the brass sleeve is soft and bearings are made of insanely tough... stuff.

The bearings came out with ease, once the brass was cut through.

It turns out that the brass sleeve is really a brass sleeve with a divider in the middle.

No amount of hammering was ever going to get the bearings out.





Oddly, after all that hammering, the bearings still roll reasonably.

Reasonably.

The reason the little fan was part of my electronics junk drawer in the first place, was because it no longer turned. I think it was the cooling fan that I replaced on my rectifier, so it was never going to work perfectly.

The bearings spun freely enough after rotating them for a while with my drill. but there was a little bump in each revolution.

This pic is of the new ball bearing raced tin can Stirling engine running on my stove-top at around 200rpm.






200rpm is around the same speed on the same heat setting as it ran before, but it no longer runs from the heat of a single candle at only 36rpm, so the bearings have increased friction a little.

The brass sleeve was replaced with a cable tie for each bearing, and it turns out that cable ties fit nicely into my adjustable screw in bearing mounts.

Having the adjustable wire crankshaft I made turned out to be worthwhile, as I would never have been able to make just this one change. The smallest change in the crank shaft, in either the displacer crank, or the power piston crank makes a lot of difference as to how well my little Stirling engine runs, so it would be very hard to tell if it didnt work because of the bearings, or because of the different crank I would have been forced to make.

So.

A success as far as this little engine up goes. The bearings are small, but should be more reliable than the a plain wire on wire bearing. And it seems the friction loss is only around a quarter of a candle.

An interesting addition to this learning thing.





120 Things in 20 years measures the amount of friction in a tin can Stirling engine in "candles". I think I just invented a new metric.

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Billboard Tarps

The vinyl is chemically unstable and unhealthy for fish.

My used tarp leaked, but the company refunded my money including shipping.

Each of the circles and squares drawn on this tarp indicate a hole!

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Aquaponics External Tomato growing in fishtank

Ive been away for a few days.

It was nice.

One of the best things about aquaponics, is the fact that it takes care of itself. I came home to a system overflowing with produce, and with lettuce that was ready to eat, where when I left, it was nowhere near ready. Its amazing what a few days can do.

Also, not seeing my system for a few days made me realise just how big my tomatoes were getting.

Thats them hanging off the side of the little grow house.

Im calling this experiment a complete success. I had to tie the foliage to the growhouse to support it, because it was starting to pull the roots out of the water.



Theres fruit forming everywhere, and in spite of the late start due to pruning it all back to only a few leaves, I think it will be a good season. Once the capsicum season is over, I think I might just pick up the tomato, and move it back inside for winter.

The tomato grows through a PVC pipe to stop it growing inside the growhouse, and the roots are all just hanging inside the fish tank. There is no media involved, and it relies on the water being oxygenated by the water movement, and the nutrient it gains from the fish.

This has been a lack luster post.

Im sleepy from too much driving.

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A List of Double Up Food Bucks Locations in Albuquerque and Valencia County

Thanks to an initiative approved by the State Legislature this year, New Mexicans who receive food stamps can use their EBT cards to double the amount of fruits and vegetables they purchase at growers markets. Here is a list, courtesy of the New Mexico Farmers Marketing Association, of locations in the Albuquerque area and Valencia County that offer the Double-Up Food Bucks option.

• ABQ Uptown Growers’ Market 2200 Louisiana Boulevard NE, Albuquerque (Saturdays 7AM–12PM)
• Albuquerque Downtown Growers’ Market Central and 8th, Robinson Park, Albuquerque (Saturdays 8AM–12PM)
• Albuquerque Growers’ Market at Presbyterian 1100 Central Ave. SE, Albuquerque (Tuesdays 7AM–12PM)
• Albuquerque: Rail Yards Market 777 1st St. SW, Albuquerque (Sundays 10AM–2PM)
• Belen Growers’ Market Anna Becker Park, Highway 309 & Reinken Avenue, Belen (Fridays 4:30–7PM)
• Bosque Farms Growers’ Market 1090 North Bosque Loop, Bosque Farms (Saturdays 8AM–12PM)
• Los Lunas Farmers’ Market 3447 Lambros Circle, Los Lunas (Tuesdays 4PM–7PM)
• South Valley Armijo Village Growers’ Market Isleta Blvd. and Arenal Rd. SW, Albuquerque (Saturdays 8AM–12PM)
• South Valley Gateway Growers’ Market 100 Isleta Blvd. SW, Albuquerque (Thursdays 5PM–8PM) 
• Zia Bernalillo Farmers Market 335 S. Camino del Pueblo (Fridays 4pm-7pm)

Double-Up Food Bucks benefits are also available in Alamogordo, Aztec, Cuba, Carlsbad, Clovis, Dixon, Española, Farmington, Las Cruces, Las Vegas (Tri-County Farmers Market), Lordsburg, Mescalero, Mora, Pojoaque, Portales, Ramah, Santa Fe, Silver City, Socorro, Truth or Consequences (Sierra County Farmers Market), Taos and Tucumcari. Click Here to find specific information about each of these markets. 

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Aquaponics Cherry tomatoes

Those crazy cherry tomato plants I have growing directly in my fish tank water are producing some really nice fruit.

This bunch looked like a likely candidate for some photos so here they are...

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A Handbook For Aquaponics

Gardening with aquaponics is a passion for me.  For almost 2 years Ive visited my fish first thing in the morning, and its the last thing I do before bed.  I enjoy the science and systems that sustain this marvelous symbiotic garden with biological interactions that continue to flourish and amaze me.

Ill warn you that a lot of what you will find on the internet is hype and rubbish.  For example growing lettuce at four times the normal yield is just not going to happen. Aquaponics is not going to feed the world, and its not as easy as many make it look, and unless you are a top notch salesman you will not grow rich selling produce, and fish or aquaponic systems. Beware of people selling anything related to aquaponics. There are no secrets in aquaponics.

Why do you want to grow with aquaponics?  Chances are you either want to
1. save money on food,
2. avoid kneeling,
3. reduce your water consumption,
4. be sure you are eating healthy organic food,
5. help reduce the depletion of fossil fuel and lower the carbon foot print of your existence.

Maybe its all of these, but "traditional aquaponics" is not a sustainable method. To be fair, I cant think of any method of farming that provides animal protein in a sustainable fashion, especially if we are not able to allow the animal to free roam and forage for their own food. After you add up all the energy involved with aquaponics it still uses more energy to pump water than the caloric energy it grows. But aquaponics is a move in the right direction, and it does save transportation energy. In ideal locations aquaponics could produce 30,000 lbs of fish per acre per year compared to less than 100 lbs for cattle, but dont forget the fossil fuel required to make that happen. For more on that [CLICK HERE].

As a side note, farming in general tends to be wasteful.  400 gallons of oil is used annually to feed  EACH modern human.  34% for manufacture of inorganic fertilizer.  19% for operation of field machinery. 16% for transportation long distance.  By growing in our back yards with free nutrient rich sources which I will tell you about later.  We can save a lot of oil, but we need to be conscious of our own waste.  Pumps, heaters and lights use energy.


This is why I strive to design low energy systems, and grow with the seasons. These integrated systems qualify as Permaculture, and I will show you how to accomplish every one of the goal on that list! My first rule is dont fight Mother Nature. She can be generous if you work with her.

Traditional aquaponics may never grow enough food to get back what you invest, but you will save a lot of water, know first hand how safe your food is, and if you design it with raised beds or vertical towers you will not have to get down on your knees.

Growing a garden is a challenge, at least it was to me. Aquaponics is not any easier, and often times more difficult than soil based gardening. I dont consider myself an expert, just experienced. I hope I can help you get you off to a good start because it can provide a great deal of enjoyment.

Here is a list of topics I will cover

Sustainability
Water Quality
Carbonates, pH, water chemistry and nutrients
Iron
Media beds
Media
Radial Filters
Cycling & Nitrification
The System Build
    Concrete
    Wood Tanks
    International Bulk Containers (IBC)
    Drums
    Bell Siphons
    Timed Fill and Drain
    Old School Fill & Drain
    Air Pumps
    Airlift Pumps
    Electric Pumps
CHOP 1 vs CHOP 2
Level Systems
Flow Rate


Fish
    Compassionate Killing of Fish
     Fish Food
    Breeding Fish
Level Systems
Media Beds
    Wicking beds
    Earthan Beds
Wicking Pots
Deep Water Culture (DWC)
NFT (Nutrient Film Technech)
Vertical Towers 
Bioponics
Plants
Green Houses
    Rocket Mass Stoves
    Evaporative Coolers
    Floors
    Pipe sizes
    Insulation
    Lights
    Heating
Starting from Seeds
Keep a Log
Sea Salt
Pest Control
Site & Experts to follow

I want to talk about the many questions I had as a newbie aquapon, and discuss some brilliant ways to improve traditional aquaponics.

Questions will always come up when designing your first system. I will attempt to remember what mine were, and anticipate what yours are too. I also want to mention an alternative to aquaponics with fish. Bioponics is aquaponics without fish. It uses other sources of nitrogen there by avoiding many problems and expenses involved with raising fish. If you do not eat a lot of fish I encourage you to go this route.

Water Quality
There are often concerns about detritus in the media and water. Let me first say, worms in all of your media beds are very beneficial whether it be Earthan, Wicking, or LECA (Lightweight Expanded Clay Aggregate). They consume dead roots, uneaten food, and with the help of bacteria in their guts, make minerals available to the plants through a process called chelation. They help keep the media clear of excess gunk, and feed the plants in the process. Worms (Eisenia Foetida – the Red Wiggler, Californian red worm) to be exact should be in your system. You can even feed them to your fish.

Carbonates are bad for beginning systems because they remove a level of control for beginning systems (i.e. before your nitrification efficiency is up). Your related acidification is really weak and carbonates can overwhelm the process, leading to chronically high pH. (i.e. 8+) which limits nutrient availability and makes it difficult to stabilize your system where it should be (below 7 for commercial systems). - Nate Storey (Bright Agrotech)

pH and water chemistry and nutrients:
If the pH gets too high you will need to lower with acid.  Buffing from the carbonates in your grow media, and local water supply may make the pH difficult to adjust.

http://www.chemguide.co.uk/physical/acidbaseeqia/phcurves.html

At the point at where the buffer is overcome any further amount of acid will cause a drastic pH change

GO SLOW.  As you add Hydrochloric acid the pH will drop, and then bounce back.  Dont get frustrated and dump extra in.  You will reach a point where it kicks in and then a little goes a long way. It is possible to kill your nitrifying bacteria if you go too low.
Ive never had a problem with low pH, but the same applies.  Add a threshold level of HCl (Hydrochloric Acid) or KOH (Potassium Hydroxide) and then test pH a day later and adjust with a smaller adjustment dose.  This is actually safer than calculating because it allows other variables to impact pH over the course of 24 hrs.

Some people like to keep pH adjusted water on hand.  Rain water can also be used to avoid adding calcium bicarbonate when topping off the system. 

A Reverse Osmosis (RO) system removes calcium bicarbonate from the water.  They are expensive but they eliminate the constant struggle many find when striving to maintain a perfect pH. 

Iron is almost always lacking in aquaponic systems.  The form of iron is very important. The three common chelated forms (iron-EDDHA, DTPA and EDTA) differ in their ability to keep iron soluble and available to plants as the pH increases. Between a pH of 4.0 to 5.5, any form of iron will work (including iron sulfate) at supplying iron to the plant. However, as the pH increases above 7.0, only the iron from Fe-EDDHA will have high solubility. Iron-EDDHA 4 >< 9 Iron-DTPA 4 >< 6.5 Iron-EDTA 4 >< 5.5 Research has shown that the ranking of iron forms from most effective to least effective at supplying iron at high media pH is Fe-EDDHA Iron-DTPA > Iron-EDTA > Iron sulfate. If iron is applied in a form that is not soluble because of high media pH, then most of the nutrient will not be available to plants until media pH is lowered.
In general the best products will say EDDHA (Sequestrene 138) because they work over the widest range of pH. Sequestrene 330 is ETPA and it is more affordable. Use Sequestrene 138 only if your media is alkaline and calcareous If your soil/media is very acidic I would still use ETPA Sequestrene 330 rather than EDTA. ETPA (Sequestrene 330) is the best all around iron to buy if your are maintaining your system between 6.2 and 6.5. Iron Sulfate can be used as a foliar application in aquaponics, and may not be terribly detrimental to your fish, but I would not use it when there are better choices.
Sequestrene is what I use and its widely available on the internet, but others are good too. Sequestrene 138 may has been reported to turn the water red but Ive only used 330 so I dont know for sure if that is true or how much of a problem it is.

Media beds clean, and filter the water, but that is not their primary purpose.  In fact even a bio-ponic system (aquaponic system without fish)  will accumulate muck in the media.  To a certain extent that is what you want for good nitrification and as your system matures it will continue to improve.  What you dont want is food and poo clogging the media, and creating anaerobic spots.  Therefore we remove the detritus from the water with a radial filter.  The main purpose of media is to provide nitrification, and as luck would have it, media beds provide a place to grow plants.  People from the aquaculture world often miss this last point and try to incorporate a very efficient Fluidized Biological Filters as well. 

The primary focus of aquaponics is plant growth and fluidized filters also known as moving bed filters create no space for plants, but there are situations where they may be useful.  For example you may wish to have more fish and have no room for more garden beds.

Media provides filtration, a place for plants and most importantly nitrification.


BSA (Biological Surface Area) depends upon the SSA (Specific Surface Area) of the media.  The higher the BSA the better because the bacteria which provides nitrification likes to grow on surfaces.  Most IBC systems average about 25 ft² surface area per pound of fish.  100 or more sq ft per pound would be really great for the fish, but somewhere in this range is good.

The surface area of the media where the bacteria grow increases with porous media.  Kaldness is used in aquariums because it has been designed to provide a very high SSA of about  244 ft²/ft³, while providing good flow.  Flow is the crux, because even though media such as sand has a high SSA of about 270 ft²/ft³. and a void ratio of about 40% the flow rate is too slow.

There is a wide range of media with good flow and high SSA,  but some to stay away from are any rock that will change the pH such as marble or lime stone and GrowStones in apquaponic systems because they are made of glass which will leach into the fish tank and harm your fish.  They would be great in a bioponic system though.

The best products are LECA (Lightweight Expanded Clay Aggregate),  Expanded Shale or Bio-Char if you are able to afford, and obtain them.  For the rest of us Lava Rock is my preference because it is cheap, porous, not too heavy and contain a lot of minerals for the plants. Microporous solids called zeolites form in volcanic rocks.  According to Russel Water Gardens - Lava Rock has an SSA of 86 ft²/ft³ and a bed porosity of 20%

For comparison I found this reference
gravel (40–70 mm,speci?c surface area of 700 m 2  /  m 3 and bed porosity of 0.4)and a LECA with the commercial name of Filtralite NR(4–8 mm, speci?c surface area of 1250 m 2  /  m 3 and bedporosity of 0.45).
I converted that to inches and feet.
1.5-2.5 inch gravel has an SSA of 213 ft²/ft³ and bed porosity of 40%
1/8–3/8 inch LECA has an SSA of 318 ft²/ft³ and bed porosity of 45%).

Some of these figures do not seem to jive...  It may be that the 2 gravel was not ordinary drain rock.

Nate Storie showing specifications for Sand, Pea Gravel, 3/4" Rock, 1" River Rock and his Zip Tower Media

http://youtu.be/EKGiXoJMLbo

Radial Filters are inexpensive to build, extremely efficient, and offer the side benefit of capturing fry before they are eaten. To grow healthy plants we must keep the roots clean, and the radial filter will do a better job. There are many versions of radial filters on the internet, but the principal is pretty basic, and easy to understand. A radial filter will remove most of the detritus by slowing the water down, and allowing it to settle to the bottom of the radial filter, thus keeping your DWC raft beds, and media beds as clean as they need to be.

Basic radial filter

There have been quite a few other types of filters tested, but any attempt to use filter pads will create a lot of extra work, and jeopardize the clear flow of water if you forget to clean it. Depending on the size of your filter you will be married to that chore more often than you like.

I only do this when my fish have babies, but occasionally I will place a filter inside my radial filter on the exit pipe in order to save the fry that get sucked in. I can then move them to a safe tank until they grow a bit larger.

Cycling
One of the biggest blunders newbies make is to buy fish before the system is cycled.  Cycling involves growing bacterial (nitrification) which will naturally find their way into a aquaponic system.  There is no need to buy this bacteria, and every product I have ever used did absolutely nothing.  This includes products claiming to have several bacteria strains, and those claiming to have special enzymes.  Nitrification takes a minimum of three weeks, and as your system ages this process will mature and get even better.
There is only one way to speed the process.  You can obtain a fresh bucket of media from an established system and add it to yours.  Water from an established system will not work.  To feed and grow the nitrifying  bacteria simply add enough urine to maintain the ammonia at about 0.5 - 1.00 ppm more or less, and let the water flow through the media and it will begin to grow.
There is possibly one other way to quickly establish nitrification, but I have never tried this.

Nitrifying bacteria live on surfaces therefore a high  BSA is good.  Nitrification is a process where bacteria convert ammonia to nitrite and other bacteria convert nitrite to nitrate.  This is a two-step oxidation process of ammonium (NH₄⁺ or ammonia NH₃) to nitrite (NO₂^-) then to nitrate (NO₃^-) .  During the cycling process do not adjust your pH unless it falls below pH 7.  The bacteria prefer a higher pH.  The pH can be adjusted later when the bacteria have become established.  It is this nitrification process that removes the ammonia and nitrites from the water and creates a clean healthy environment for your fish.  Without it you will be doing several water changes per day of burying dead fish.

Nitrogen is a key component of aquaponics.

The United States uses about 13 Million Tons of nitrogen fertilizer a year.  It takes  liters of fossil fuel to make just  2.2 lbs or 1 Kg of nitrogen, so alternative sources is a big deal and I hope I can convince you to use sources of nitrogen such as urine and weeds which are simply going to waste.

We add protein in the form of fish food and that breaks down into nitrogen for our plants.  For most of us this is all we need to know, but if you wish to crunch numbers and maximize the use of nitrogen then I suggest Commercial System Design – Nitrogen Budget. Paul Van der Wolf explains the entire cycle in depth. 


The System Build

Your first system will probably be done as inexpensively as possible, and you may be temped to try some of your own ideas. I can tell you from experience that your tanks need to be sturdy, thin enough to accept a Uniseal or bulkhead, and of a material that will not rot from constant exposure to water which I guarantee you will spill plenty.

Concrete may seem like a good choice, but only if it is sealed. The problem with concrete is that it will affect the pH and if you continually force the pH down to an acceptable level the concrete will also weaken and crumble. There are ways to seal it with pool paint or wax, but its is probably better the just avoid it.

Wood Tanks will rot if water accidentally gets under the liner. I have successfully [built wood tanks using fiberglass], but in the end this was more expensive than a good solid agriculture stock tank which can generally be picked up for about $1/gallon.  Over time the bulkheads tended to loosen - probably due to the contraction and expansion of the wood.

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These bunk feeders make good DWC Raft beds and the stock tanks are perfect for fish tanks

The advantage to building your own tanks is you get to make them exactly the size and shape you wish.

International Bulk Containers (IBC) and plastic drums also make very good tanks, and the size is appropriate to most backyard systems. But I like a fish tank that I can reach my hand to the bottom of so you may want to cut your container down just a little.

Drums are often free, so it is an ideal way to start. Some people like them well enough to stay with them. I like the way Justin has built his grow bed using 1/2 drums because there is no frame below the drums, but I would have added a support leg in the center or used 2x12. By the way a barrel has a removable lid a drum has two bungs.

Bell Siphons work while the flow remains within the parameters they were designed for, and as soon as something changes they will fail. As much as I enjoy listening to a bell siphon cycle through its phases; and even though Im the guy who came up with the idea to use a small reservoir at the end of a breather tube, I will never use another bell siphon on any system I build. The reservoir helps, but its a Band-aid fix. Why bother with a bell siphon when there are better solutions.

Timed Fill and Drain are a better choice and they conserve energy. Running a 100W pump 24/7 uses 2.4KW per day 365 days a year. A 15 minutes on 4 hours off cycle consumes 16 times less power than a continuous run bell siphon system! I do not believe turning a pump on and off shortens the life of a pump, but everyone can have an opinion.

Media beds traditionally use a Bell Siphon, but a Timed Fill and Drain system will use less energy and run with far fewer problems.

Timed Fill and Drain systems use a small weep hole which allows the media beds to drain more slowly than they are filled. A stand pipe allows any excess water to overflow back into the sump tank until a timer turns the pump off. The beds are filled several times a day, and when the pump shuts off, the water weeps out and drains the media bed.

Old School Fill & Drain

I dont know if this siphon valve has a name or how well it works, but I first saw it in Travis Hugheys Barrel-Ponic Manual. It works by pulling a toilet flapper with the weight of a 2 litter bottle. Just giving you all the options.

Air Pumps
Im running my air pump to 9 air stones and moving over 1000 gpm with 2 airlifts. Im using all the air (200 lpm) my Eco Plus 7 compressor can deliver. It runs at 93W wide open and 51W when closed.
The specs say an Eco Plus 7 compressor is rated at 200 lpm 5.1 psi and 280W. I believe the 280W rating refers to the maximum heat dissipation the motor coils can endure. Ive rebuilt Active Aqua air pumps and Ive looked inside this Eco Plus 7 and found the Active Aqua to have less space within the enclosure. After I could no longer rebuild my Active Aqua I bought the Eco Plus. My feeling is that Eco Plus has created a larger cooling area that allows the pump to operate much cooler and last longer. I could not pick my Active Aqua 70 lpm up with bare hands whereas the Eco Plus 200 lpm is only warm.

 

Ive done a similar test with my Ametek Rotron EG DR083 regenerative blower and found that restricting the outflow increases the Wattage, contrary to the compressor. The regenerative blower is great for air stones where the depth is usually pretty shallow. It delivers 521 liters per minute and uses just 118W, but the compressors advantage is the ability to deliver 5.1 psi. The regenerative blower has only 0.867 psi. So the regenerative blower does not work well for airlift pumps but it blows a hell of a lot of air to air stones!

Airlift Pumps 

Air stones are highly recommended throughout any system and since we are running an air pump why not utilize it for pumping water too? Thats right airlift pumps will move large quantities of water on less power, and aerate the water while doing so.

One of the really nice things about airlift pumps is the way they can pass solids without clogging. They are in my opinion far more reliable than centrifugal pumps, and a whole lot less expensive. My airlift can be built for less then $10 and it delivers over 1000gph.

Electric Pumps - If you purchase an electric pump there are some considerations. To keep this paper short (lol) Ill insert a [Link Here]

CHOP 1 vs CHOP 2
CHOP (Constant Height One Pump) Traditional Aquaponics uses either a CHOP 1 or a CHOP 2 design. The water level in the fish tank is always a constant height and one pump delivers water to the fish tank which overflows into the media beds and then back to the sump tank. Chop 2 differs by one pump delivering water to both the fish tank and the media beds. These each return water back to the sump tank. The advantage of CHOP 1 is greater flow through the fish tank. The advantage of CHOP 2 is the ability to isolate the media beds and the fish tank. These traditional systems aerate the water by drawing air down through the media each time the water level fills and drains.

Level Systems
There seems to be some misconception that fill and drain action is required for good aeration.  This is simply not true.  There are several methods to aerate water.   

Air stones, with an air pump are generally used in any type of aquaponic system  I highly recommend many air stones throughout the system, and air lift pumps definitely ensure good aeration.

Level systems do not waste energy lifting water from a sump tank.  Instead the water is simply pushed along through the system, remaining the same height from one section to the next.  The air lift pump, and air stones provide all the aeration necessary for good healthy roots.

This of course does leave the roots sitting in water in the media beds, but so do raft systems.  There may be a few plants that dont appreciate constantly wet roots, but most do fine.   Media beds have been included in every successful aquaponics system since day one,  but a new concept has evolved which integrates wicking beds with aquaponics.  Its called Earthan Beds, and Ill tell you more about that later.

Flow Rate - Kieth Tatjana recommends twice per hour, but no more. The Aquaponic Gardening Community site recommends once per hour. So if you have a 100 gallon fish tank you should pump 100 to 200 gallons per hour. These rules of thumb are good enough, but if you are designing a commercial system then I would refer you to "Why Flow Rates are Critical in Aquaculture" written by Paul Van der Werf.


Fish are such a wide topic. My advice is grow what you like to eat, or grow what you like to look at, but dont grow what does not belong in your neck of the woods.
Tilapia in Maine is going to require heating the system, and take it from someone who has been there, it gets expensive. Catfish, are a good all around fish, but even though they can survive, they will stop growing during the cold days of winter. If you live in Florida or Hawaii you might like to grow tilapia, but even in Florida the winter will require some heat.
The nice thing about Tilapia is they grow pretty quick, they are hardy, and they reproduce well, but catfish kept in a warm water tank will also fulfill these qualities. If you live in a very warm climate, go for it. But most of us will be better off with a local fish that is acclimated to our area. Perch, Blue Gil and even trout are being raised in cool climates.

Larger systems are more stable, but start small. A 100 gallon tank with about 16 lbs of fish and 16 sq ft of garden is a very nice system. You can expand the grow bed on that system a little, and stock the fish a little heavier, but for starters its best to keep a light fish load.

Breeding Fish - I have found that fish will breed without my intervention. But some like to identify the males and females and place one male among several females. Sexing fish is not easy, but Robb Nash has a good method in his link. Once the fry are available it is a good idea to separate them so they will not be eaten.

Compassionate Killing of Fish

Inhumane and totally unacceptable slaughter methods, that can take a long time for
fish to lose consciousness and die, should be prohibited urgently. These include
suffocating fish in

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