Tag Archives: aquaponics

Three Plants in Bloom!

Had a surprise today. My tomatoes were already putting out flowers – and now they’re putting out bunches – but the strawberries have put out their first two blooms, and the blueberries were a complete surprise. The instructions for that cultivar stated that it could take up to two years for the plant to fruit, and just a month later we have berries on the way. 🙂

Peace,
-Steve

Aquaponics Update

The pipes behind what’s left of the basil are eventually going to go all the way across, so I will have 48 additional bays for plants like lettuce, chard, and strawberries.

Peace,
-S

Aquaponics

So everyone knows that I keep native (and naturalized) fish. In my collection I have various sunfish (bluegill, pumpkinseed, etc.), mummichogs, bullheads, shiners, creek chubs, mirror carp, and even a brace of goldfish (those laste two were a failed science experiment… but now beloved pets).

The wonderful thing about natives in NJ is that you don’t need to worry about heating your tanks (they’re comfy with the local weather), and that they all are quite happy in sub-optimal water conditions (they don’t mind low to even moderate levels of pollutants, they’re happy in virtually every pH a human wouldn’t mind swimming in, and some could care less about salinity etc.)

However, like all fish, they like to produce a lot of waste – in the form of ammonia (NH3) and ammonium (NH4+). In order to handle that waste, every aquarist needs to cultivate a colony of two different types of bacteria in the tank’s filter, gravel, and other surfaces that break the ammonia down. The first type of bacteria (nitrosomonas) break those compounds down into nitrite (NO2-) which is less poisonous that ammonia. The second type (nitrospira) take the nitrites and break them down into nitrate (NO3-). Like with humans, nitrate isn’t poisonous to fish, unless it’s in seriously high quantities.

Once the colonies of bacteria keeping this nitrogen cycle in check are large enough that there is virtually no ammonia or nitrite detectable in the water (i.e. they eat them as fast as its produced and ultimately turn them into nitrate) the tank is considered “in cycle,” and the major maintenance at that point is to do regular, weekly water changes to remove the excess nitrates – which are simply waste, and clean out the filter and gravel (where the bacteria grow) from residue.

However, there are plenty of other living things out there that absolutely love to eat nitrates, specifically plants: Especially big leafy greens, tomatoes, and other vine fruit.

This is where aquaponics comes in. Like with hydroponics where the plants are grown in gravel or other media with flowing water to deliver the nutrients, instead of using commercial hydroponics solutions, I’m able to use the water from my aquaria to grow vegetables and fruit. Tank water simply contains (nearly) everything your average garden needs to grow already in it, and the plants that feed off of it remove (nearly) all of the waste that conventional water changes and filter cleanings do.

It’s a serious win-win. 🙂

My Prototype Rig

My initial, messy sketch that my prototype rig is based off of. Feel free to steal it.

Now, with aquaponics, like with hydroponics, there are dozens of methods to choose from, and lots of highly opinionated people out there about what works best. My goal in putting together my prototype was to see how well a proof of concept system would work, made from a bunch of materials that I simply had lying around my house. To that end, based on the drawing above I put together:

  • A 10 gallon tank (filled with young pumpkinseed sunfish and its own conventional tank filter – the water and nutrients).
  • A 16 quart Steralite plastic container (the grow bed).
  • A bunch of quartz aquarium pea gravel (the growing medium).
  • A drain pan coupling, drilled in and sealed to the bottom of the Steralite container with a rubber washer.
  • A few lengths of PVC pipe, one for the input, and one for the gravel guard output with holes drilled in them at regular intervals.
  • A pump to circulate the water (I had a spare canister filter I used).
  • Some filter pad or filter floss for the input (to strain out any solid waste).
  • A 90 watt equivalency LED spotlight (which pulled ~10 watts), eventually upgrading to two 120 watt equivalent bulbs (each pulling ~12 watts).

In the end, the prototype looked like this:

The canister filter pumped the water up into the grow bed, where it flowed over to the gravel guard on the output, and flowed back down into the tank, both cleaning and aerating the water at the same time. I had to re-house the basil and oregano, because the tomatoes quickly dominated:

This time lapse started on January 14th, the last image from last night.

And just today, I had the first blossoms open:

Tomatoes coming soon!

The Second Rig

The month after I started the Prototype, I decided to break down my 40 gallon tank rack, and convert the top two tiers of space into a single grow bed shelf.

The rack on the right in the midst of being reduced from four 40 gallon tanks to two.

Putting two 40 gallon tanks on the bottom rack (our wild specimens on the left, out domesticated sunfish on the right), I invested in some Hefty 40 quart storage tubs (two per tank), plumbed them, filled them with gravel, and bought some dedicated Beckett 290 gallon per hour pumps to keep the water flowing. For lighting, I put two of the 90 watt replacement full spectrum LED lights hanging above each tub.

Having 1″ PVC returns at a length of approximately 2 feet allowed the returns to act like trompes, pulling air back down into the tanks, so when they run I don’t need to use an air pump to power a bubbler. 🙂

On the input end, I had to build a PVC splitting pipe for each tank, so that the water coming up from the pump watered both tubs evenly. I figured out a way to rig up some smaller CPVC in a “u-bend” so that the water also pushes air into the water before it hits the gravel bed as well – so there’s oxygen introduced on the way in, and oxygen introduced on the way out.

Once I had all four beds set up, I planted them one by one and watched things grow.

The beds over the course of a month and change.

In the beds we planted – from left to right (1-4):

  1. Two kinds of heirloom tomatoes.
  2. Strawberries in the front, basil in the middle, oregano in the back.
  3. Strawberries in the front, kale in the middle, blueberries in the back.
  4. Bibb lettuce all throughout.

So far, only the basil has come ripe enough for us to enjoy on two occasions in caprese. It has the crisp bite of spinach and a really deep flavor.

That’s it for now. In my next entry I’ll go over some of the pitfalls I came across, as well as the next phase of this project’s prototype. 🙂

Peace
-Steve

Coronavirus

Looks like the Caruso Family is going to be sheltering in place for a while due to the outbreak. Raritan Valley is extending Spring Break by an additional week, and during that time we Faculty are getting ready to teach classes online until April 10th.

As a result, to prevent going slightly mad, I’m going to be working on (well, continuing to work on) a number of projects in between recording lectures and grading. On the docket for future posts here include:

  • My growing aquaponics rig, and plans underway for building additional rigs out on our porch, and on top of the bumpout/den.
  • DEGAS 2.0 – Which I’m implementing in PixiJS with WebWorkers.
  • All of my new art I’m painting with DEGAS will be – appropriately – posted on my Art Blog.
  • Translations of various works in Neapolitan I’ve been messing about with.
  • Any fishing I manage to get done, if any (in remote areas where there are no other people around).

Stay tuned.

Peace,
-Steve