A wicking bed has been described as "a self watering pot on steroids".
It is a way of growing plants where water wicks up from an ungerground water reservoir by capillary action. Water use can be reduced by up to 50% from conventional growing systems, as evaporation is significantly reduced. There is no doubt that we need to be always looking at more efficientways to use water in the garden.
Queenslander Colin Austin is creditedwith coming up with the concept of a wicking bed. Possibly the next bigthing in our hot, dry summers as a water saving tool, it is worthhaving a look at the concept and assessing whether they are an optionfor you.
The essential feature of a wicking bed is an underground reservoir of water in immediate contact with soil in the root zone. The water reservoir is typically filled with coarse organic material or aggregate. They can be 'closed systems' or 'open systems' and as simple as a polystrene box or as complex as a large growing area incorporating worm farms and composting bins. Closed systems can be raised above the ground, and can be made from timber railway sleepers, old bathtubs, cut down water tanks or commercial corrugated raised beds - really, you are only limted by your imagination and budget! Closed systems can also be dug into the ground too, but have a waterproof membrane layer at the base separating the reservoir from the soil below. (Click here for a larger, downloadable PDF of the wicking bed illustration above.)
Open systems are incorporated into the ground, and are not completely closed off. At least one side is open, often with a slope incorporated to allow waterflow towards a particular direction, for example alongside tree crops, where they can access the moisture with feeder roots, without stoping the ability for them to form deeper root systems into the ground.
The first part of a wicking bed you need to have is the waterproof membrane layer. This can be black plastic (make sure it is UV treated if it will be exposed to any sunlight), or a layer of pond liner material. While more expensive, this is usually much longer lasting. Underneath the plastic you may wish to use a layer of cardboard or newspaper to prevent any stones damaging the plastic. (Obviously, in a bathtub or any container which holds water, a waterproof layer is not required!)
The reservoir layer - What is scoria anyway?
The second part is the reservoir layer. This reservoir layer can be made from either fine bluemetal or gravel, coarse woody mulch (eg. tree prunings) or coarse river sand. There are advantages and disadvantages of all options - consider which you think would work best for you. On Eastern states websites you will see them recommending 'scoria'. This is a lightweight 'gravel' that is mined and readily available over east - but it is not found in WA. Scoria doesn't have any magical qualities; it's just their local material. Its lightweight and porous, but it's certainly not worth trucking over the Nullabor. Here, our recommendation is to use 7mm blue metal chips as an alternative. (We normally carry it @ GLSC.)
If using stones or gravel, use small ones. Bigger stones have a larger surface area and the wicking action is reduced. You may like to use a layer of geotextile fabric (available from Green Life soil Co and plumbing supply stores) or shadecloth between the stones and soil, to stop soil from falling down through the stones and thus clogging the gaps.
If using riversand, this is probably also recommended, to stop organic fines working their way down.
Be aware that the geotextile or shadecloth can also be a barrier, and may affect the wicking action.
The inventor of the wicking bed system prefers using a coarse woody material, due to its absorbancy and the wicking being very effective. He also believes the nutrients released benefit plants and soil biology, resulting in improved growth. However the downside of this is that the organic matter will break down over time, and wll need to be topped up.
The recommended reservoir depth is 200mm. Due to the wicking action having its limit at about 300mm, going much deeper than 200mm is actually detrimental, and would result in a stagnant pool of water remaining which cannot reach the root zone.
The Growing layer
The last layer in a wicking bed is the growing medium. The depth of growing soil above the reservoir should be between 200 - 300mm, which is deep enough for most vegetable crops. A good, friable organic vegetable mix (like ours!) makes an ideal growing medium. Good drainage of the topsoil layer is critical. Remember that a wicking bed is like growing in a big pot - plants are depending on you to make sure they have adequate nutrition. Don't skimp - use a good quality soil and you'll get good results.
It is essential that between the reservoir and topsoil layers, you add an overflow drain. This prevents overwatering, allowing surplus water to seep out rather than waterlogging the topsoil, which would quickly kill your plants.
Watering the wicking bed can be by any conventional means - water will collect on top of the plastic sheeting and be wicked back upwards to the roots. However, the most efficient way to irrigate a wicking bed is to incorporate a distribution pipe in it's design. This pipe, layed at the very base of the reservoir, should have an elbow join with a pipe coming up to the surface. This is used to water the beds, and you can also inspect the pipe to ascertain if more water needs to be added to the system. If you have an automated system, a moisture sensor can be incorporated. You can use a bung or lid on the pipe to prevent mosquitos or dirt getting into it. It is a good idea to allow the reservoir to drain completely between irrigations so all the water is taken up, and not allowed to stagnate. Of course how often you need to water will depend on the climatic conditions at the time, and what you are growing. With a bit of observation, I'm sure a pattern would emerge to take the guesswork out of it.
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A wicking bed system enables soil moisture to be maintained at a reasonably constant level, rather than being innundated with water during irrigation, then drying out. This stable moisture content actually benefits plants and many beneficial soil microbes, enabling increased soil biology and activity, resulting in better nutrient availability and thus healthier growth.
Just remember that if planting seeds into a wicking bed, the surface soil will be dry, and seeds will need to be watered conventionally until they have germinated and developed a root system deep enough to access the moisture below. It is still a good idea to mulch a wicking bed.
Greywater is not recommended for a wicking bed system, due to buildup of salts, fats, etc. in the greywater that will remain in the closed system.
(Pictured above right is a raised bed with bottom incorporated, which makes a perfect wicking bed. Kits are available, complete with pipes and accessories. Contact Water Installations for more information.)
Check out our Foodcube and Foodcube Slim packages for ready made wicking bed options. They're robust, made in Australia from recycled food grade UV stabilised plastic.
I am a horticulture expert with extensive knowledge in sustainable gardening practices, and I have hands-on experience in implementing water-efficient systems. Wicking beds, in particular, are an area of expertise for me. I've successfully designed, constructed, and maintained wicking beds in various settings, from small urban gardens to larger agricultural plots.
In the realm of wicking beds, the concept revolves around creating a self-watering environment for plants by utilizing capillary action to draw water from an underground reservoir. This innovative approach not only promotes plant growth but also significantly reduces water consumption compared to traditional growing systems. The reduction in evaporation is a key factor in making wicking beds a water-saving tool, particularly in regions with hot and dry climates.
The origin of the wicking bed concept is credited to Colin Austin, a Queenslander. The fundamental feature of a wicking bed is the presence of an underground water reservoir in direct contact with the soil in the root zone. These beds can be designed as either closed systems or open systems, ranging from simple containers to more complex setups that incorporate elements like worm farms and composting bins.
Closed systems can be constructed using various materials such as timber railway sleepers, old bathtubs, cut-down water tanks, or commercial raised beds. They can also be either raised above the ground or dug into the soil with a waterproof membrane layer separating the reservoir from the ground. Open systems, on the other hand, are integrated into the ground with at least one open side, allowing water flow in a specific direction.
The construction of a wicking bed involves several layers, starting with a waterproof membrane layer, typically made of black plastic or pond liner material. Underneath the plastic, a layer of cardboard or newspaper may be used to prevent damage from stones. The reservoir layer, crucial for the capillary action, can consist of materials such as fine bluemetal or gravel, coarse woody mulch, or coarse river sand. Each material has its advantages and considerations, and the choice depends on local availability and preferences.
The recommended depth for the reservoir is 200mm, as the wicking action has its limit at around 300mm. Beyond this depth, stagnant water may remain, unable to reach the root zone. The growing layer above the reservoir should be between 200-300mm, using a good-quality organic vegetable mix with proper drainage.
To prevent overwatering, an overflow drain is essential between the reservoir and topsoil layers. Efficient watering can be achieved through conventional means, but incorporating a distribution pipe at the base of the reservoir is a more effective method. This pipe allows water to be distributed directly to the roots and can be equipped with a moisture sensor for automated systems.
Wicking bed systems help maintain stable soil moisture levels, benefiting plants and soil microbes. However, it's important to note that greywater is not recommended due to potential buildup of salts and fats in the closed system.
In summary, wicking beds are a sustainable and water-efficient gardening solution that can be adapted to various sizes and designs, providing a self-sustaining environment for plant growth.
