What is the best watering frequency for me to use in my system? This is a question we often get asked - but it is hard to answer. There’s absolutely no easy response, but only one right one: when the plant needs it! Both watering frequency and, to a lesser extent, the amount of water to apply, depend on many outside variables that further complicate the issue, so the grower needs to maintain an ‘eyes on’ approach in his or her growing techniques.

Thoughts on watering plants

The Growth Tetrahedron

Let’s begin our look at watering by accepting a small fact: successfully bringing a plant crop to maturity depends on successfully keeping to the Growth Tetrahedron (see figure 1-1). The sides of the Tetrahedron feature the four primary components for achieving growth. Each side is equally important and must be optimised to fit in with the other sides. As you can see, the base of the pyramid is water (as a solution or pure) because it is in all the sides as well. Plant selection will determine the root environment, and consequently the system or medium to be used, as well as the top environment that you will need (sides 2, 3 and 4).

Thoughts on watering plants
Figrue 1-1 Growth Tetrahedron

Plant selection

The plant or crop is the first side and the first thing you decide. What you want to grow determines how to grow it; the root environment and top environment to use depend on the chosen plant. In addition, choices are made based on the grower’s knowledge of the system, the crop, strengths and weaknesses, and the remaining two sides. It makes no sense to try tomatoes if there’s not enough light. It makes equally little sense to grow orchids when the water solution is scarce. Choose your plant carefully, both type and variety, as all are different and will respond differently.

Root environment

The second side is the root environment which determines the system to employ in growing. What will best fit with the other sides? The system determines the root environment or medium to use. This is how we prepare for the plant and store water, food and air for it, and it also protects and shelters half the plant.  The medium serves to provide both physical and material support for the plant. The type of medium is pretty much determined by the needs of the crop and grower.

Roots also require the correct proportion of air to water in the medium based on the type of plant. And don’t forget that all roots require oxygen to function too. Oxygen diffuses through the plant’s tissues. While most carnivorous plants require little air, cacti and succulents require lots of air. Most plants fall in the middle. Steady temperature and correct humidity are key components in root development and function; these are influenced by the type of medium used. (figure 1-2).

Thoughts on watering plants
Figure 1-2 Air relationships and pore space

Top environment

The top environment is everything you can see of the plant above the crown or soil line. This top environment must have the correct temperature for a particular plant grow. Light intensity, air, and relative humidity are all integral components of this environment (which, to a lesser extent, includes pathogens and external stresses as well). If these aspects are not in balance, the plant will not flourish. Plants assimilate carbon atoms, the basic building block for life as we know it, only from this side as a constituent of the air, CO2. It is not so much the effect of one component that makes the difference. It is more about the way all these components combine, including driving the final side, water.

Water solution

Water, the universal solvent, is the final side of our Tetrahedron, the base. Look at it in a broad sense from the individual atom to the complex slurry that moves nutrients to the root surface in a mass flow, and subsequently up the stem to the rest of the plant. Water sees action in all sides, as humidity in the top environment, moving nutrients and supporting other media activities in the medium, directly controlling all activity in the plant, as well as supplying the necessary nutrients to the final use sites in the plant cells by transporting them there.

While a plant will usually adapt to limitations in the other sides of our Growth Tetrahedron, it will not tolerate water depletion. Limit the water and a plant’s functions will decrease or cease, forcing it into dormancy or killing it outright.

Stick to the Growth Tetrahedron

So what should you take out from all of this? Remove, change or cheat one side from the Growth Tetrahedron and nothing works. Information on all the needs of a plant for each side is pretty much known and achievable with current technologies. The question that remains: ‘Can the grower get all the information required for a super crop given his or her time, knowledge, budget, workload or temper?’

Hand watering

Hand watering is the easiest and least expensive of all the systems. This includes everything from holding the hose in your hand to manually tripping a valve that applies water through an irrigation system of drippers, spray stakes or other individual emitters including sprinklers and soaker hoses. This gives the grower the most control as long as he or she is paying attention and getting the correct amount of water into each container or plant.

"Hand watering is the easiest and least expensive of all systems."

Automated systems

But for precise volume applications, you have to use a system that applies a known volume of water to each point, and to accomplish this, you will need an automated system. Design the system around the water need. Start with how much water needs to go into a container in the time allotted to ensure the roots are not submerged for more than the recommended time. Then, since drippers have depth profiles, pick a type of dripper and the number required to go into a container to satisfy this need. Then, count the total drippers required for your proposed system and design the pipes and pump to deliver this total amount of volume at the pressure required for the dripper to work correctly.

Next choose a size of tank that ensures this amount is available at each watering, and that’s sufficient to cover the number of applications needed between tank changes. Remember that volume has to be equal at each dripper, so ensure that the pressure needed in the entire system and volume supplied are available at each dripper, and allow some margin for error! Remember that as pressure goes up, volume out decreases.

That’s it! All the systems on the market today fall into two categories, manual and automatic. The clock and the labour needed to water are the important considerations. Everything else is about the plumbing. In simplest terms, the goal is to deliver water to the root zone on time and on target. Everything else is an issue of convenience or accuracy. So there are two categories and many systems. The simplest are the best.

"In simplest terms, the goal is to deliver water to the root zone on time and on target."

Success is in your hands

Overhead watering by hand is the best, especially for leaching salts, and can be accomplished with spray stakes, as long as all containers can be watered. The “flood and drain” method is not this author’s favourite way to apply a water solution, but, to an extent it works, but should always include a regular leach session to reduce the salts that do not drain from the container but move upward. Drip emitters are great in media that are not too airy, but they depend on lateral movement to saturate the root zone and do little to rinse out the medium. Sprinklers are great but only if the crop (and building) can handle it. And if there are tight restrictions on their mode of operation.

It’s hard to condense 30 years of experience into one ‘short’ article. But if these guidelines are followed, you’ll get results in plant performance, money saved, and your general success as a grower. It’s the grower that affects the entire system and success or failure are entirely in the grower’s hands.

More tips? Read the 'Ten watering rules of thumb' on watering plants.

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