Green Garden Dreams

The Joy of San Diego Vegetable Gardening

HYDROPONICS INTRODUCTION: Why Soil-less Gardening?

Soil is very complex. It’s a whole community, with trillions of microorganisms such as bacteria, fungi and other little buggers, that break down the organic material, in concert with roots of plants, to convert it to nutrients like Potassium, Phosphorus and Nitrogen ions. Organic material has to be broken down with the help of other organism to make those bound-up elements available to plants. In hydro, you are short-circuiting this process, taking a direct approach and giving plants those nutrients, and onlyu those nutrients, ions directly, and abundantly.

Hydroponics is part of “controlled environment agriculture”, based on the knowledge of optimum conditions for plant growth that have been isolated and identified. Systems are created to give the plants directly and exactly what they need for maximum growth. Very high growth rates, large size, and healthy plants with no pests or diseases are often the result of using hydroponics. There are few pests because healthy plants have a natural immunity. Pests attack weak plants, and hydroponic plants are very strong.

Other aspects of controlled environment agriculture include greenhouses, where temperature, humidity, air circulation (and even gas composition) can be controlled to some degree to help optimize conditions for year-round growing. Hydroponics in particular started with the discovery that plants could be grown in water and derive the mineral nutrition they require with a precise feeding of mineral salts to supply the roots with their required elements. Since that discovery, many variations of hydroponics have been invented, including organic hydroponics. However, they all use the basic method of using water, rather than soil to deliver nutrition to the roots.

THE BASIC EBB AND FLOW TECHNIQUE
The Ebb & Flow (also known as Fill and Drain) technique of growing plants hydropinically is a low-tech method that has been around for many years. The advantages are simplicity, relatively low investment, and reliability. It does not take any fancy equipment, just a bit of initial work to set up the system. Once it’s set up, you will get tremendous growth, and can grow a very wide variety of plants, large and small, because it mimics an ideal soil medium. It also provides a support for larger plants. I’ve grown everything from lettuce to corn, tomatoes, peppers, squash, broccoli, and many kinds of herbs. One of the advantages is the amount of air exchange with the roots. Plants grow vigorously with the good gas exchange that happens with this method, and are able to get high levels of water and nutrients from the medium.

The basic idea is very simple. A tray or bed is filled with a course growing medium. A nutrient solution gets pumped into a growing tray, almost to the top of the medium. Excess water drains out of the drain stop, recirculating for a short time until the pump switches off. Once the pump is off, the nutrient drains out, leaving the medium flush with nutrients and water, and pulling air down into the medium (the root zone) in the process. This is done generally twice a day but can be at whatever regular interval is required. With highly water-retentive media in relatively cool conditions, watering only once a day is enough. By contrast, something like a gravel system, which does not retain as much moisture, could be flooded every hour in warm weather.

LET’S GET STARTED
OK, so let’s go over all the basic components.

THE BED
First you need a growing bed. Something that is watertight. The bed in the photo at the top of this article was made from wood and lined with fiberglass. It also needs to be strong enough to hold up the weight of water and a growing medium. A growing medium (the “rocks”) is what holds the plants up.

A Hydroponics Growing Bed or Tray

Deeper beds are better for larger plants. Roughly 4 to 8 inches is usually enough. The growing bed in the photo at the top might have been deeper, because I used 2 by 12 planks of wood for the sides (which are actually 1.5″ x 11.25″).

Almost any container or tray that will hold water and a growing medium can be used. I’ve used various kinds of ready-made trays found at hardware stores. I’ve also used other containers such as a 5-gallon bucket or a discarded 5-gallon water jug. It must have a drain hole too.

Concrete Mixing Trays from a Hardware Store Serve as Hydro Herb Beds

5-Gallon Water Container Used As Ebb-and-Flow Module.
(Used a screen at the bottom to retain medium).

Tomatoes Growing Happily in Re-Purposed 5-Gallon Water Jug

At one end of the bed you need a drain hole. However, you don’t want the medium washing out as the nutrient solution drains. You also want the nutrients draining at a proper rate: too slow and the roots would get water logged, too fast through large holes and it won’t fill the bed, and might disturb the root hairs or wash away medium.

In the herb beds in the following photo, I used a c-clamp to control flow back into the nutrient tank. I probably just had a simple screen over the drain hole.

In the large beds I’ve used a simple PVC pipe or tube with holes drilled into it, stuck into a hole in the bottom of the grow bed. I then used silicone or epoxy to seal it in. When water gets to the top of the pipe, it drains fast through the end hole, thus preventing the level from rising any further and over-filling the bed.

PVC Pipe With Drilled Holes Used for Drain

You also need a screen around the drain tube so that medium doesn’t plug up the holes in the tube and to assist in draining.

The holes of the mesh have to be small enough such that the medium doesn’t wash though the holes. Metal window screen, painted with epoxy paint will do the trick. It might need a thicker mesh, such as 1/4″ or larger, to support it. You will want to glue or somehow fasten the mesh circle to the bottom of the bed so that it doesn’t move around. The type of glue you use depends on the composition of the bed. A plastic bed such a concrete mixing tray may requite special plastic glue, as silicone or most epoxies will not stick to it.

Drain Detail – Screen Keeps Drain Tube From Clogging

Be sure to make the top of the drain tube low enough so that the nutrient drains from the top of the tube and recirculates before reaching the top of the medium. You don’t want the plants floating away! (See diagram)

You will want to tilt the bed slightly so that the nutrient solution drains completely. This principal is important: you do not want any standing water. This can lead to fungal growth, root rot, and lack of oxygen.

THE GROWING MEDIUM
The growing medium’s function is to support the roots and the plant, hold moisture and nutrients, and allow air circulation. You don’t want a medium that holds too much moisture (for example straight vermiculite) because you will get organisms growing such as fungus, and algae on top, and not enough air exchange. Roots literally breathe, and oxygen and carbon dioxide gas exchange is crucial for healthy and vigorous plant health and growth. Coarse gravel, sand and perlite are examples of mediums that do not hold enough moisture. They dry out too fast and do not retains nutrients for the plants very well. They drain quickly however.

I’ve had great success with white pumice (which just happened to be available at a local nursery). It drains quickly but also holds moisture and nutrients. Expanded clay (sold as “Hydroton”) has similar properties but is lighter weight than pumice (which is good), as does lava rock. These are popular and work well.

Another factor to consider is the weight of the medium and how much your bed can support.

Various materials have been used by growers over the years, including gravel, volcanic rock, sand, perlite, vermiculate, and various kinds of commercially created aggregates (such as Hydroton expanded clay).
I’ve used combinations to get the right kind of weight and moisture retention. For example, a mixture of perlite and vermiculite, or perlite and polymer water crystal beads is very light weight, and good for small beds. The drawback of an extremely light weight medium is that it can’t provide a great deal of support for a large plant, such that a heavy or tall plant could potentially fall over when it gets large.

THE NUTRIENT SOLUTION
Hydroponic nutrients is a huge topic. I’ll just give the briefest of outlines and tell you what I used. The essential idea with hydroponics – which literally means water work – is to provide exactly and only what the plant needs in terms of basic elements. Early researchers who were trying to find out what plants actually get from soil – their minimum and essential needs – grew plants in water, and found out by trial and error that all green plants need just a few basic chemical elements from the periodic chart: mainly Nitrogen, Phosphorus, and Potassium. They also need a range of “micronutrients” – metals such as iron and magnesium, in extremely small quantities. They absorb these as dissolved minerals – ions – from the water in the root zone. In nature, these elements come indirectly, from the breakdown of a large array organic materials and rocks, through very complex biological and inorganic processes. Hydroponic methods supply these elements directly, in the form of mineral salts. (Newer methods also use organic solutions – a more complex and difficult technique, needing it’s own chapter).

A salt, when dissolved in water, breaks into the constituent ions. For example, Potassium Nitrate dissolves into Potassium ions (K+) and Nitrate ions (NO3). These are what the root hairs absorb in the water.
Hydroponic nutrients are supplied to the grower in the form of powders or concentrated liquids. Because some of the salts will react with each other and form precipitates (solids) or other combinations that you don’t want, they often come in the form of more than one solution.

The nutrients that I have experience with were from General Hydroponics. I had excellent results. Commercial growers and NASA use them. They were FloraGrow and FloraBloom.
http://generalhydroponics.com/site/index.php/products/nutrients/flora_series/

THE NUTRIENT TANK
For the ebb and flow systems in the photos, I used a plastic trash can. Any container that is large enough for the estimated capacity, will fit below the level of the growing bed (since it’s gravity fed), and will not react with the nutrients will suffice. Avoid metal containers, as they could potentially react chemically with the salts in the nutrients. You will want something with a cover too – animals or insects and debris can get in your tanks. I once had a hydroponic system on top of a trellis outside my bedroom window in Del Mar, California. The nutrient tank was similar to the bed: a large rectangular tank that fit under the bed. Tree frogs got in it, attracted to the water, and made quite a racket at night!

THE PUMP and FITTINGS
I used submersible fountain pumps available at hardware stores and nurseries. There are a range of sizes available, rated in Gallons Per Minute (GPM). You want to find one with enough capacity for your system, but not so large that it’s going to create too much flow. You might need an inline valve to control flow. Some of the fittings for tubing and to create a bottom nozzle or drain on a trash can (if needed) were obtained at a Koi pond supply store.

THE TIMER
The timer for the pump was an ordinary appliance timer. You can also use a digital timer. Just make sure whatever you use has enough rated wattage to run your pump. I built a box underneath the bed to keep the timers and plugs organized and away from the elements, as you can see in the following photo.

Controller Box Under Big Hydro Bed – Shows Two Timers

DRAWBACKS
The use of a large amount of an aggregate medium means that you will need to clean the medium at the end of a growing season, or at some point, or replace it. This washing is necessary to remove root debris, and possibly precipitates from the nutrients. You may want to also sterilize the medium. How often this needs to be done depends on the condition of the medium and how many plant roots are left behind after harvesting or season’s end.
Another possible drawback is that different plant root systems can get tangled together, making them harder to separate.
Overall though, every technique has it’s drawbacks, so you have to look at what you want to grow and what kind of investment you want to make, what fits your needs and budget, and what appeals to you.

SUMMARY
Ebb and Flow hydroponics is a worthwhile technique for those on a budget, and wanting to create a significant growing space for a wide range of crops. It’s a fun way to grow vegetables, herbs and flowers, and is the closest to growing in soil of any of the methods. Using simple materials, an extremely vigorous and fast growing garden can be created – one with few pests (healthy plants have strong immune systems) and no weeds. HAVE FUN!

  • Bloombastic Hydroponic Nutrients | ABCHEALTH-CARE.COM

    October 4, 2012 at 9:54 pm | Reply

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  • FranckRichard

    November 15, 2012 at 4:29 am | Reply

    I am currently growing tomatoes in a greenhouse using soil and would like to try hydroponics using the “suckers” pruned from the existing plants if possible.
    |Post websites that would help (:

    • eric

      December 5, 2012 at 1:01 am | Reply

      Yes hydroponics is well suited for growing tomatoes. There are large commercial operations growing tomatoes hydroponically.

      Tomatoes grow quite easily from cuttings.

  • eric

    December 5, 2012 at 1:08 am | Reply

    I don’t have any experience with growing orchids hydroponically. I do have some orchids that are growing in bark, and they are fed with a sales-based fertilizer, similar to hydroponic nutrients, so that would tend to make me think it’s possible.

    Regarding tomatoes and peppers in water culture: it depends on what you mean by “water culture”. The raft type water culture systems, where the roots are floating in a bath of nutrients, is not well suited to tomatoes and peppers. This is because, first of all, these plants need a better support system, and second, they need more aeration in for the roots. This type of culture is better for lettuce.
    If you mean NFT (Nutrient Flow Technique), then it may be suited, if the plants have enough physical support.

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