Drip irrigation

Economical and ecological, drip irrigation is the solution of choice in the garden and even on a balcony. Coupled with a programmer, you will no longer have to worry about watering your plants so that they are beautiful and healthy!

What is drip irrigation?

  • It is a low-pressure micro-irrigation system that starts with a simple water tap that feeds the main circuit consisting of a pressure reducer, a hose that carries the water to the plantations (diameter 16 to 25 mm), and then secondary circuits that can be made with thinner hoses (diameter 4 to 6 mm). The available hose lengths range from 5 to 100 m.
  • Drip irrigation is usually coupled with a programmer that allows you to plan the watering times. The connected programmer offers even more freedom to the gardener.
  • Note that there are watering kits that do not require a faucet or electricity. They are interesting in isolated areas or in the context of an unoccupied second home. They work from a rainwater collection tank, by gravity. The programmer is powered by batteries or even a small solar panel.

The dripper, the star of micro-irrigation

Watering each plant directly at its foot by drip is the goal of this micro-irrigation watering. To do this, drippers are placed on the pipes, with a fixed or adjustable flow rate, they allow you to irrigate each plant according to its needs by providing water progressively, drop after drop (from 0 to 20 liters per hour).

Note that the drippers can be placed directly on the first circuit if the watering plan is linear and/or on the secondary circuit.

From the simplest with a fixed flow rate to drippers whose flow rate can be adjusted by rotating the head, the choice is vast. The most fastidious will turn to professional solutions such as self-regulating drippers that compensate for a too low or too high pressure to deliver the required amount of water. These drippers will also solve the problem of a very sloping ground but be careful: often, they cannot be closed if a plant disappears unlike the adjustable drippers.

There are also built-in drippers for simplicity, but they do not allow the same creativity as a system where the gardener chooses to install his drippers according to the positioning of the plants already in place. Built-in drip lines have a spacing of 15, 30 or 50 cm, so it will be necessary that the garden is not yet planted or that the plants are exactly at these spacings for the system to be effective. However, this type of hose is easier to install and saves a lot of time.

What are the advantages of drip irrigation?

  • This type of irrigation is very localized and ensures the preservation of water resources, the interest is both ecological and economic. Indeed, we count a saving of about 25 to 40% compared to a traditional watering for an efficiency 40 to 50% higher.
  • The plants are watered at the right dose and in a regular way, which avoids the hydric shocks which weaken them in case of forgotten watering.
  • The water is brought under low pressure to the feet of the plants and penetrates slowly towards the root system which benefits directly from it.
  • The foliage is not watered, which avoids many cryptogamic diseases or leaf burns.
  • The possibility of programming the watering offers a newfound freedom for the gardener who can finally go on vacation or take care of other activities.

How to install an efficient drip irrigation system?

Flow rate and pressure are the basic concepts of drip irrigation.
  • Depending on the diameter of the hose, the flow rate will be more or less important. It is therefore crucial to calculate the necessary flow rate for the number of drippers installed and the length of the pipes.
  • The flow rate of each dripper is given for a pressure of 1 bar (achievable thanks to the pressure reducer installed at the faucet outlet). For example, if you want to install 10 drippers with a flow rate of 2 l/h and 20 drippers with a flow rate of 4 l/h on your circuit you will need a total flow rate of 100 l/h. It is always better to limit yourself to a maximum of 50 drippers per circuit.
  • A 16 mm diameter pipe will be chosen for a circuit of 50 to 100 m length, beyond that a 20 mm diameter pipe will be necessary so that the flow is always correct at the end of the circuit.
  • Always differentiate between circuits with drippers and circuits with sprinklers. To do this, you can divide your irrigation plan into several circuits using directional elbows, bypass tees, plugs to complete a circuit...
  • Don't forget to think about the solenoid valves needed to create several separate circuits. These solenoid valves, placed at the beginning of each circuit, are programmable. They work either under electrical tension via a programmer, or individually thanks to batteries. The solenoid valves allow you to operate each circuit independently.
  • If your irrigation system has only one circuit, a timer will be installed just below the faucet to control the frequency, duration, and timing of watering automatically.

What is the best frequency to program a drip irrigation?

Watering should preferably be scheduled in the late evening after sunset so that evaporation is reduced and the plants get the most out of the water.

If each dripper corresponds to the real need of the plant, the watering can be started during one hour every evening in summer. In dry and hot weather, it can be extended by one hour. Only experimentation will help you decide on the duration and frequency, as each garden is exposed differently and exploited in different ways (presence or not of mulch, weeds...). It's up to you to learn how to dose, and to enjoy your tranquility!

Equipment for automatic watering

Automatic watering allows you to program a regulated irrigation according to the specific needs of the plants. It will also save you the chore of watering which can quickly become a hassle, especially in summer.

Automatic watering: what you need to know

The quality and diameter of the hoses chosen are essential parameters when installing an automatic watering system. Flexible or semi-rigid hoses must be able to withstand a pressure equal to or greater than 6 bars because they will be equipped with water intakes that will then carry the various types of sprinklers.

The hoses must be of very good quality in order to be assured of a long life, to resist to the climatic hazards and to the possible rodents.

In general, 25 mm diameter pipes will be sufficient unless your network is very long or your flow rate is enormous, in which case 32 mm diameter pipes should be preferred. The larger the diameter, the lower the risk of pressure drop at the end of the stroke.

The different types of sprinklers

Sprinklers are chosen according to the plants and their needs. Drippers are preferred for vegetable gardens or ornamental gardens because their flow rate can be adjusted individually according to the needs of the plants grown, while turbine, oscillating or rotating sprinklers will ensure the watering of lawns.

Please note: the two types of sprinklers cannot be installed in the same circuit because the flow rates and spans are not at all similar. It will be necessary to create two separate lines.

The various circuits

When your garden requires several circuits with different zones and different types of sprinklers, it is necessary to divide the automatic watering into several separate circuits. In this case, a selector switch with multiple outlets should be placed on the water supply valve. If you do not have a large flow rate, you will also need to install solenoid valves to trigger the circuits one after the other. There are two models: battery-operated (9 volts) or wired (powered by 24 volts). Remember to respect the direction of water flow when installing.

The programmer

The programmer is used, as its name indicates, to program the hours and duration of watering. It can be equipped with a humidity sensor or an electronic rain gauge that will allow the automatic watering to start if the soil is too dry or simply to stop if it rains enough.

The micro-sprinkler for your garden

The Micro Sprinkler is a watering system particularly adapted to large flower beds and rock gardens.

The Micro Aspersion produces a very fine rain that waters at low pressure (it does not damage the flowers, even fragile ones) and over different distances quite wide (1 to 3 meters radius depending on the brand).

This one is very easy to install since all the pipes are on the surface, with connectors to be plugged or screwed: many parts are common with a Drip system (see sheet: balconies and terraces). However, never mix micro-sprinklers with drippers on the same pipe.

So, a programmer on the faucet, a piece of garden hose with fittings, a filter + pressure reducer, PE hose with a diameter of 13x16, ground spikes to hold the hose in place, a small shut-off valve at the end of the hose that will allow for easy draining in the winter (since the hose is on the surface, it is not protected from the cold)

Once the main 13x16 pipe is in place, simply create branches on small pipe (4mm or 4.6mm) to a support.

At the top of this support, the micro-sprinkler is screwed or plugged in.

Note that the small tube branches should be relatively short (generally not more than 1 meter) and that between the support and the micro-sprinkler, it is often possible to place an extension (to raise the micro-sprinkler according to the vegetation) and a small regulating tap (to adjust the distance of the jet).

A micro-sprinkler is placed every 2 or 3 meters or so (depending on the technical characteristics): the jets must cross each other, as one sprinkler must always try to water its neighbor.

Even if they water at a pressure of a few bars in fine rain, the micro-sprinklers can have a large flow (up to 100 liters for some). It is therefore not possible to place too many of them on a single pipe.

The main technical advantages of micro-sprinklers are, if compared to drip irrigation:
  • Excellent watering coverage over a large area (for a rock garden for example). The drip only waters a strip of land about 60cm wide.
  • less hoses to pass through the beds, it facilitates the maintenance/planting and reduces the risks of breakage.
  • in a caricatural way, where 50 drippers are needed to water a bed, we obtain a much better water distribution with only 5 sprinklers.
  • the sprinklers, in height, do not get blocked, contrary to drippers which can end up being buried in the very dense massifs.
  • it is easy to move a sprinkler since it is always in branch of the main pipe on a support planted in the ground. As a remark, I would indicate that the solution of putting the sprinklers directly in the 13x16 pipe is not qualitative in terms of watering and can, in some cases, be defective very quickly (from the second year).
  • finally, the micro-sprinkler system is aesthetic when it works (editor's note: you will tell me that it must work around 2:00 am, and that the visual aspect is not essential at this hour ....)
All this being very easy to install, I wish you a "good installation".

Micro-irrigation to save water

Micro-irrigation is an effective water-saving technique that offers a solution of choice for both gardeners and agricultural companies. With an incomparable efficiency, this system allows to water the plants at the right time and at the right dose.

What is micro-irrigation?

Developed in the early sixties, micro-irrigation ensures optimal distribution of water under low pressure directly to the feet of the plants concerned. Of course, already in ancient times, the issue had been addressed by the use of oyas, these porous buried jars that ensured effective watering close to the roots.

But let's go back to the current system which has the advantage of being able to be planned by cycles, according to the climatic conditions, and which allows to choose the flow intended for each plant.

Otherwise known as 'localized irrigation', this technology was created in Israel in 1959, when the advent of plastic pipes allowed its development. Patented in 1960, drip irrigation quickly took off in America and Australia. Nowadays, this system is recommended in arid countries and in hot climates. Unlike conventional irrigation, which waters the entire soil indiscriminately using maximum pressure, micro-irrigation provides water in a punctual manner, on a well-defined area of the soil and at low pressure.

What does a micro-irrigation system look like?

There are several micro-irrigation media, although drip irrigation is the best known and most widely used, especially by individuals.
  • The drippers work under a pressure of 1 bar. Each dripper is fixed independently on the whole length of a pipe of 0,5 to 1,5 mm of diameter. With one or more holes for water flow, the dripper can be chosen or adjusted (depending on the model) to the right flow rate for each plant (from 0 to 20 l/h).
  • Micro-sprinklers, micro-diffusers or micro-sprayers are generally used in arboriculture. They can be fixed on a stake and diffuse water on 40 cm by rotation of the cap with an adjustable flow from 0 to 60 l/h.
  • Micro-porous pipes are perforated with a multitude of small holes from which the water flows at low pressure along the whole length.

Advantages of micro-irrigation

This controlled watering technique allows enormous water savings (25 to 40%) compared to flood or runoff irrigation techniques with an efficiency 40% higher.
  • Micro-irrigation can be coupled with a programmer, or even a weather station or an application to manage the watering according to the real needs corresponding to the climatic conditions. You can even be notified in case of water shortage or technical problem.
  • Evaporation is less, especially when the system is activated at the end of the day. It also helps avoid many cryptogamic diseases that spread through the watering of foliage.
  • The hydric shocks so harmful to plants are avoided. Plants not stressed by the lack of water are more vigorous and less sensitive to parasites.
  • In a large farm, it allows to reduce labor costs.
  • The rooting of the plants is favored by this system.
  • There are far fewer weeds, which avoids competition for cultivated plants and tedious and time-consuming weeding.
  • This technique allows for the direct addition of fertilizer during watering in large-scale agricultural operations.
  • Knowing that the water consumption of intensive agriculture corresponds to nearly 70% of the world consumption, that water resources are beginning to decline or even disappear in some areas, the problem of food security may become burdensome. Micro-irrigation helps to overcome this problem.

Disadvantages of micro-irrigation

Although few in number, there are some disadvantages to installing a micro-irrigation system.
  • The cost can be prohibitive when it comes to irrigating a large plot of land. However, at the level of a medium-sized private garden (500 m²) or even better, a simple balcony or terrace, it is possible to obtain very affordable kits that will quickly pay for themselves.
  • Another concern is the technical nature of the installation (calculation of pressure losses, installation of the pressure reducer, knowledge of the right pipe diameters, creation of the different circuits, adjustment of the flow rate of the drippers and their number, installation and adjustment of a possible programmer...) which can frighten the novice gardener or those who are not very handy.
  • The drip system should be checked often enough because some drippers can be clogged, especially by ants or soil debris.
  • Leaks and breaks are not impossible, especially after the brushcutter has been used! If you don't do your own brush cutting or mowing, always remember to tell the person in charge of this work that an automatic watering system is in place, otherwise your garden will be compared to the water games in Versailles as soon as the watering system is turned on!

The installation seen from the trenches

You have now the technical study in hand to realize your underground watering system. Now it's time to tackle one of the most difficult parts (for the arms...): the earthwork.

Let's see the steps and our advice for the earthwork for the installation of your underground sprinkler.

1/ The trenches

Make the trenches as shown on the plan

The width does not matter. A trencher makes cuts 9 cm wide and this is more than enough to pass pipes and sprinklers. If you are working with a backhoe, there are small buckets that make narrow trenches (so there is less soil to put back in place afterwards!). Finally, with a spade, there is no choice but to get the width of the tool.

Remove all the stones if possible.

In terms of depth, there are several opinions...
  • I often advise 35 cm minimum (a little more than a spade).
  • It is useless to dig at 60cm to protect yourself from frost. In some regions, if the winter is very hard, the ground can freeze very deeply. It is better to foresee anti-freeze systems as soon as the installation is done.
  • The idea of putting the pipes at 90 cm to be sure that nothing freezes is very risky: the sprinklers are on the surface, and they will be damaged by the cold: it is therefore better to have the possibility of draining the whole installation. Moreover, at this depth, when it is necessary to intervene to modify or repair, it is very complicated. Think about the hole that will have to be made for a simple connection to be added.
Don't forget when opening the trenches to foresee the location for the manholes (see manhole picture).

2/ Setting up the pipe network

Unroll the polyethylene pipe at the bottom. In case of important presence of stones or pebbles, put a bed of sand under the pipes (in this case, dig deeper).

Install fittings and sprinklers.

DO NOT PLUG UP!

At the end of the line, do not put the plugs in yet. You must first send water into the pipes to clean them of all the debris that could have slipped inside. (see photo turbine380)

Screw in the plugs once this step is completed. Shim and adjust your sprinklers. Leave the system running and check ALL the connections.

There are no leaks after your installation? You can now fill in the gaps...a little...

3/ Locate the water network

3) If you have a 40 cm deep trench, put 20 cm of earth and then put a blue wire mesh. This will avoid piercing the pipes if you have to work on them in a few years: it will indicate the presence of pipes underneath. The blue color of this plastic mesh is important, it is a recognized standard for water (for information, green = telephone, red = electricity, yellow = gas).

4/ End of the earthwork

That's it, you can fill it in completely. Let the soil settle for several days before renovating the damaged lawn.

Technically, the trenches are not the most difficult part, but a well done earthwork allows an easy maintenance during the following years.

Underground irrigation programmers

The use of a buried automatic watering controller allows you to control the watering time at the most convenient time of the day. 

One of the most important ways to save water is to water only as long as you need to, when evaporation is lowest, i.e. in the middle of the night or early morning.

To do this, your underground watering system must include an important element: the programmer. It will allow your installation to start and stop at the desired time; it will control the solenoid valves, so that your garden is watered in successive sequences: we speak then of several networks or ways.

There are four main types of multi-network programmers:
  1. The battery-operated programmer, connected to the solenoid valves by a cable with many wires. This is a choice to be reserved exceptionally for places where there is no power supply. Compared to other options, this product is quite expensive. (main manufacturer: RAIN BIRD).
  2. The wireless battery or current programmer. This one is connected by waves to the solenoid valves. The installation is thus strongly facilitated.
  3. On the other hand, it is still a very expensive product, but practically all suppliers are trying to develop this type of programmer. We can therefore hope that the prices will decrease in the years to come. (Main manufacturers: RAIN BIRD, GARDENA...).
  4. The wall-mounted programmer, with a separate transformer (photo opposite), connected to the solenoid valves with a multi-core cable. This is the best quality/price ratio. There are, apart from the "first prices", very reliable models at around 75 Euros that can control up to 6 solenoid valves. The only problem is that these products must be installed indoors (garage, cellar, storeroom, etc.), near a power outlet, as the electrical transformer (220v/24v) is not protected from water projections. (main manufacturers: RAIN BIRD, NELSON...).
The wall-mounted programmer, with an integrated transformer, connected to the solenoid valves with a multi-core cable. This is the largest choice available on the market. There are all models (from 2 to 48 networks) and all prices (from 170 Euros for the big brands). These devices have the particularity to be in the standards for a wall installation outside, even in the rain.
They are also products that can be installed inside. The advantage is that there are less visible wires, the transformer being included with the programmer in a single box, with a door that can be closed. (see photo below)

Logically, the many existing models and the discretion in terms of wall installation make these products very often preferred by craftsmen. (Main manufacturers: HUNTER, RAIN BIRD...).

The purchase of a programmer should not be based solely on its price: it is the submerged part of the iceberg (the rest of the installation being buried) and you will use it frequently (changing the watering times according to the season for example).

So you need a model that is easy to modify.

More and more products are available with hundreds of programming options. Even if you don't need all of them, the more options a controller has, the easier it is to adjust if you only focus on what you need for your garden.

So don't necessarily look for the cheapest one that seems simple, as this may limit the use you want to make of it.

Finally, in addition to the notions of saving water, a programmer is obviously a comfort of use, like all the rest of an underground watering installation.

Note that there are now programmers accessible from your smartphone.

Installation of a solenoid valve manhole for an underground irrigation system

Here is an illustrated example of a solenoid valve assembly in a manhole. This one, as well as those that could follow, is only an example among many solutions or preferences that each installer may have. Nevertheless, some basic principles are stated.

1/ Mounting the manifold

Here two solenoid valves with the water inlet in the center. Although there is a main water cut-off, a shut-off valve is always placed at the manhole inlet. The solenoid valves are removable before and after, by the "removable union" type fittings. The solenoid valves have been disassembled so as not to bother with the wires, protective tape (orange here) prevents the intrusion of earth. Pipe primers allow the manifold to be mounted completely without worrying about the rest of the piping.

2/ Positioning the collector

After the hole has been made for the manhole (wider than necessary), the bottom is laid flat, the solenoid valve manifold is placed, as well as a sheath here to allow the cable to be passed later. The pipes under the manifold allow to raise it a little with respect to the level of the manhole (the usefulness of this will be seen later).

3/ Arrival of the manhole

The manhole has been cut with a hole saw in order to let the pipes pass. It is positioned over the collector. We check that it is level and aligned with the limits of the garden (wall, alley, ...). Note that the manhole is deliberately larger than necessary: it is a false economy to try to put a maximum number of valves in a small manhole; maintenance and repairs are difficult, the connections are not accessible, ...

4/ Wedge the manhole

Once the manhole is correctly in place, we start to backfill all around it, gently so as not to shift it. The geotextile film is pulled up along the outside walls so that the soil does not enter the manhole.

5/ Backfilling

Once the manhole is in place, it can be completely filled in. The pipe primers are useful on some sites where the manholes are installed well before the garden pipes.

6/ Manhole bottom 

The bottom of the manhole is filled with pebbles. The pieces of pipe which supported the collector are removed.

7/ Cleaning

The manhole is cleaned with water. All the components of a collector are watertight, so it can be washed with water. The solenoids are screwed -by hand- on the solenoid valves, the wires will not interfere anymore. The multi-core cable coming from the programmer is brought into the manhole, longer than necessary (it will not be cut).

8/ Connections

All that remains is to connect the wires of the solenoids with the cable, using waterproof connections. Here, the connections are enclosed in a box, for cleanliness reasons, so as not to leave unsightly connections lying around: be careful, it is never the box that makes the watertightness, but the specific connections used.

Renovation of a solenoid valve manhole for underground watering

Here is an example of a manhole installation using existing cables or pipes.

1/ Assembly of the new manhole

After the old manhole with its solenoid valves has been completely dismantled (the cables are not cut, it is better to keep the connections), a new complete manifold is assembled, adapting to the existing one.

Here, three watering networks, drip, so three solenoid valves. A stop valve was added at the entrance of the collector, as well as a second valve to easily purge the collector before the winter.

This is a solution that I recommend very regularly (even if it is not systematic). Removable fittings before and after the solenoid valves.

2/ The manhole

We check and try the positioning of the manhole. In renovation, it is always a little more complex than in a new creation. It is necessary to check that a maximum of elements and connections are inside the manhole (and not under the edges, the walls, inaccessible).

3/ Connections

The manhole has been installed, wedged and filled, it is time to make the watertight connections.

Here you can see the old connections (brown), which have not been removed in order to identify the wires as the new connections are installed (blue or black).

4/ Finishing

Once finished, a bottom of garviers or pebbles, then we wash the manhole; the old grey cable has not been shortened, and there is room in this large manhole to work if needed.

Automatic drip irrigation by gravity

If you don't have electricity and water near the area to be watered or you don't want to use it because it is your second home and the taps are closed and the fuses are broken when you are away, automatic gravity drip irrigation can be a solution for a self-sufficient system, but it has some implementation constraints.

Having a water tank

Automatic gravity watering requires a rainwater reservoir or a tank filled regularly with water when you are present intermittently. Its volume will depend on your autonomy. A tank of one cubic meter is a good starting point and will ensure several weeks of watering depending on your surface to cover. By connecting several tanks you will increase this autonomy. 

The advantage of the water tank in the case of a second home is to leave with peace of mind with the water meter valves closed. Who hasn't experienced a leak on his watering system?

Severity and pressure

In this type of watering, the idea is to take advantage of gravity to feed our drip system. Under its effect, the water will flow in your network which must be under the water level of the tank. In fact, a buried tank on a flat ground will not be suitable without a pump and therefore with electricity nearby.

But for the drip system to work at its best, pressure is needed to feed and distribute the water throughout the network. This is related to the height of the tank and more precisely to the height of the water level, placing the water tank as high as possible will be an asset. If your land is flat, you should consider raising the tank by a slope, a small construction, some breeze blocks or pallets, if your land is sloping, simply place it in the upper part of the garden.

The pressure is 1 bar every 10 meters vertically (editor's note: information well known to divers), a meter of difference in level between the tank and the watered area makes you gain 0.1 bar of pressure. This is only an order of magnitude, but it is important when it comes to solenoid valves.

To facilitate the flow, bring the water as close as possible to the area to be watered with large diameter pipes starting with 25 mm for example and then create a secondary network with 16 mm and finish with small pipes if necessary next to the targeted plants. The drippers can be installed directly on the secondary network or of course on the tertiary network.

Not one but many networks

Too many drippers on your network will not allow you to keep a good pressure in the whole circuit. Some branches may not be supplied. It is therefore important to define several networks operating at different times from the same tank to maximize the pressure and therefore the flow.

Create separate networks for different zones, depending on whether it is a vegetable garden, a dry rock garden, a flower bed, a hedge, etc. The watering times and frequencies will not be the same in any case. 

Adapted solenoid valves

Solenoid valves are taps whose opening and closing is controlled electrically by a nearby or remote programmer. 

Most of the solenoid valves available on the automatic watering market only work from a certain water pressure, generally between 0.5 and most often 1 bar. Be careful because this information is not always available on the technical data sheets or the packaging of the products on the market. It is unlikely that you will have such a pressure or your land is very steep, so you need to find 0 bar solenoid valves, which open without or with very little pressure. This is the case of some automatic programmers like the "tap nose" for automatic watering from rainwater harvesters. Moreover, some of them propose 2 ways, that is to say the possibility to program the watering of two different circuits. Most of them work with batteries, which is good because we don't have electricity!

Programming of the automatic watering

For a bed of flowers or a vegetable garden, a watering of approximately one hour every 48 hours in summer is a base of departure to allow a watering in depth and not just wet the surface ground. Then adapt according to the needs of your plants.

Consider starting at night when the soil starts to cool down after midnight. Distinguish and adapt the programming according to the seasons, so decrease the frequency outside the summer period by passing from 48h to 72h for example.

A drip irrigation system

With a low and variable pressure according to the level in the tank, and according to the altitude of the different circuits if your garden is not flat, an adjustment of each dripper is necessary. Also adapt the flow rate of the drippers to the needs of your plants. Over time, check that each dripper is working properly, as particles can clog them or even lime deposits can block them. Make sure that the tank remains clean and free of deposits.

Although it may be tempting to use other types of sprinkler systems such as boom sprinklers, their water consumption is not at all the same and will limit the life of your water supply. So use sparingly.

Last tips...

Place taps to purge air at the end of each of your circuits.

Connect several 1000-liter tanks together to gain autonomy depending on the space available for their installation.

Test your installation for a few weeks and measure the consumption in the tank. This will allow you to estimate the available watering time in your absence or to adapt the possible watering duration.

An automatic watering system

You are tired of spending hours watering your garden with your watering can or hose. You want to install an automatic watering system to make your life easier, but you don't know which watering system to choose?

Which watering system do you need for your garden, your vegetable garden, your flower beds, your trees? Choosing the right watering system for your garden when you are not a handyman, or when you have very little knowledge is not always easy. Before buying a watering system, list your needs (plants to water, lawn, hedge ...), they will allow you to determine the system that suits you.

Do you want precise watering?

You have a vegetable garden, a hedge, fruit trees, as well as flowerbeds in your garden. Do you want precise and water-saving watering? Then drip irrigation is for you. It allows you to water the different plants in your garden or vegetable garden in an optimal way without having water running off or overdosing. The water is distributed directly to the plant and only on it.

The installation sometimes seems perilous because of the many parts to be assembled for the installation (fittings, drippers, tees, elbows, plugs, programmer ...), but the drip system does not require any particular knowledge, it is therefore accessible to everyone.

It allows you to save up to 50% compared to other watering systems, moreover it avoids the proliferation of weeds and diseases.

Do you have a large lawn area, a large garden to water?

You have a large garden with a lawn and you like your lawn to be as beautiful as a golf course? Then the underground watering system is for you. It is completely hidden in the ground, it connects to your city water or to a pump, all depends on the flow you have at the tap. In this it is important to know the pressure and flow rate of the pump you have. The installation can also be done from a well if you have one on your property, or from a stream.

Your underground watering system is linked to a programmer that allows you to regulate the frequency and duration of watering your garden. This allows you to control costs and water consumption. Your lawn is watered continuously even when you are at work or on vacation.

Automatic watering allows you to go on vacation with peace of mind, no need to ask your neighbors or family for help. You just have to define your watering hours and it will start automatically. In the summer, we advise you to water mainly in the morning when it is cool or at the end of the day once the heat of the day is over. You can also couple your installation to a rain gauge that will control the opening of the solenoid valves in case of rain, so that your garden will not be over watered and the distribution of water will be controlled.

10 tips for proper watering

Plants are 90% water. To live, they draw water from the soil through their roots and this water brings the necessary elements for growth. Like us, plants lose water through transpiration. A continuous supply of water is therefore essential to the life of plants.

Water stress (lack of water) has a direct impact on the growth of the plant, it also causes wilting and makes the plant more susceptible to diseases.

At the same time, water is a precious resource that we must save, which is possible by adopting good watering habits.

1) Prefer rainwater

Rainwater has the advantage of being economical but not only that. It is also at room temperature and does not contain chlorine unlike tap water.

If you water with tap water, remember to let it sit for a few hours in your watering can to warm up and let the chlorine evaporate.

For the sake of the planet, your plants and your wallet, think about collecting rainwater in cans or any other system adapted to your garden.

2) Water in the morning or evening

Never water in the middle of the day when it is sunny. Indeed, the heat will promote evaporation (by the soil) and transpiration (by the plants) and your water will be wasted. The combination of water and heat also risks burning your plants.

Water preferably in the morning in mid-season when the nights are still cool. If you water in the evening, any wet foliage will not have time to dry, which will encourage the appearance of diseases (fungi, etc.).

Watering in the evening is to be favored in summer when it is hot, it allows to cool the plant, to limit transpiration and losses by evaporation. The plant will also be able to take advantage of the night to hydrate itself.

3) Remove the head of your watering can

It is absolutely necessary to avoid wetting the leaves of disease-sensitive plants like curcubitaceae and tomatoes.

Therefore, you should not water in rain but rather water at the feet of the plants by using the neck of the watering can (remove the apple).

However, some vegetables like to be watered in the rain, such as cabbages and salads. The same goes for your seedlings; watering them from the neck of the watering can could break them.

4) Follow the weather

Rain is the natural watering method par excellence. But it doesn't always rain enough...

Don't water if rain is forecast for tonight, and on the contrary, water enough if your soil is already dry and the forecast is for lots of sun tomorrow.

5) Check your soil moisture

You should only water if the soil is deeply dry, not just on the surface. You can stick a stake about 30 cm into the ground and if it comes out without soil stuck to it, your soil is dry.

Another simpler and more technological solution is to use PinParco. It is a small probe to be planted in your soil that will inform you in real time of its moisture status. The data will then be displayed on your smartphone and thanks to the weather forecast, the application will also tell you the ideal time to water. 

6) Analyze your soil

The type of soil you have has a direct impact on the way you will have to water. Light sandy soils need to be watered frequently and in small quantities because they do not retain water well and dry out quickly. Heavy clay soils retain moisture better and should be watered less often and in larger quantities. Knowing your soil through a soil analysis is therefore important on this point but also to plant the right plant in the right place.

7) Study your plants

Each plant is different and has its own water needs. You must at least know the main families to know if the plant you are watering needs more or less water.

Cucurbits (zucchini, cucumbers, ...), salads, tomatoes and cabbages are for example demanding in water whereas onions, potatoes and asparagus can be watered sparingly.

Think of "designing" your garden to group plants according to their water consumption and thus facilitate your watering task.

8) Water less often but more

Generally speaking, it is better to water less often but in greater quantities. Watering every day is excessive, promotes disease and depletes the soil.

By watering less often, you will force your plants to develop deep roots, they will depend less on surface watering and will be more resistant to drought.

Seedlings, on the other hand, are very sensitive and should be watered regularly in small amounts to keep the soil moist.

9) Hoe

One hoeing is worth two waterings! Avoid letting a hard crust form on the surface of the soil under your plants, water will penetrate less easily and evaporate more quickly. So remember to loosen the soil around the plant by hoeing.

10) Mulch

Mulching prevents the soil temperature from rising and limits evaporation. Your plants will thus be able to better resist to drought.

For your mulch, you can for example use straw, RCW, flax or hemp chaff. Grass clippings that you dry first are also suitable but they decompose quickly and can create a good playground for slugs.

Mulching will also help control weeds that compete with your plants.

How to save water and limit watering?

Water is becoming scarce and consequently more expensive, so let's save it. Here are some tips to preserve it.

Limit water loss through evapotranspiration by mulching or sowing green manure (you also encourage the phenomenon of dew), these practices increase the absorption capacity of the soil during heavy rains and prevent the growth of "weeds" that compete for water with your cultivated plants.

Make sure that your soil has a good clay and humus content by making regular compost contributions, you will thus optimize its water and nutrient storage capacity. The use of a root stimulator expands the root exploration zone in the soil and allows plants to better resist periods of water stress.


Prefer underground watering, drip systems localized at the foot of the plants or microporous hoses to avoid wetting the foliage and risking cryptogamic diseases.

Choose plants adapted to the climatic conditions and in particular to the periods of drought if they are common in your region, always keep in mind not to go against nature.

Some examples of plants according to their water needs

Vegetables requiring almost no watering: garlic, onion, shallot, potato, asparagus, artichoke.

Vegetables requiring a lot of water: cucurbits, lettuce, tomatoes, cabbage.

Trees that require a lot of water: willows, alders, poplars, ash trees (they are a real pump to drain your soil; in summer, one of these trees can take several hundred liras per day).

Plants that require relatively little water: gorse, lavender, rosemary, fescue, arbutus, broom, tamarisk, boxwood, houseleek, euphorbia, sedums and, as a general rule, rockery plants, aromatic plants, ornamental grasses, conifers.

Which water to choose?

As far as possible, do not use tap water: it is cold, chlorinated and increasingly expensive!

Prefer rainwater: many models of rainwater harvesters and cisterns are available in stores. Do not hesitate to choose a large storage capacity: the investment will quickly pay for itself.

Did you know that?

1 m2 of roof space can recover about 600 liters of water in one year (depending on the region).

Tips for efficient watering

Watering is necessary during the summer period. But water is an expensive and scarce resource, so it should be economical and efficient.

Here are some tips to save water

Prefer watering in the evening, as late as possible, so that the soil is cooled to avoid immediate evaporation on contact.


For young plants, it is advisable to be more vigilant and to water more regularly than well established plants.

In pots and tubs, your plants require almost daily watering during hot periods. Water gently, so that the substrate soaks up the water.

When your soil is heavy, it is better to water heavily and less often because it retains moisture longer. In a light soil, you will have to water more often, because the water does not stay.

Let your plants suffer a little between two waterings so that the root system develops in depth. A superficial watering favors a surface development of the roots and thus makes them more sensitive to drought.

Do not wet the foliage of plants sensitive to fungal diseases such as roses, tomatoes or curcubitaceae in the vegetable garden.


Water your heather plants with recuperated rainwater. To do this, install a tank under a gutter outlet. Or simply leave a trash can open in a corner of the garden.

Hoe at the foot of the plants when the soil is compact. The water will penetrate deeper into the soil. "One hoeing is worth two waterings". This advice also applies to planters.

Remove weeds that compete with your plants.

To prevent water evaporation, mulch your soil with pine bark, grass clippings, cardboard or newspapers for example. The mulch will form a protection against the rays of the ground that heat the soil and will allow to keep a certain humidity underneath. Mulch will also prevent weeds from growing.

Mulch is also very effective for pots and planters in full sun.

Did you know?

  • Approximately half of all water treated during the summer is used to water lawns, gardens and vegetable gardens.
  • A lawn sprinkler that sprays 19 liters of water per minute uses half as much water in one hour as it takes to flush 10 toilets, take two five-minute showers, run two dishwasher cycles and do a full load of laundry.
  • The human body loses 2.4 liters of water per day. We replace some of it by drinking and the rest by eating.
Source: Environment Canada


Watering outdoor plants in winter

In winter, the first reflex of the gardener would be not to intervene in the watering of plants installed in the ground or in pots in the garden. Of course, rainfall is sometimes sufficient, but this parameter must be modulated according to the regions, the nature and the positioning of the plants.

Which outdoor plants should be watered in winter?

When the plant is flowering (hellebore, camellia, winter jasmine, cyclamen...) or bearing fruit (citrus, pomegranate, apple tree...) watering will be necessary, especially if it does not rain. The same goes for recently planted plants which will need very regular watering so that their root system forms properly before the summer heat.

Beware of some southern regions where it may not rain for several weeks. Winter drought, although less destructive than summer drought, can destroy many plants if you are not careful enough.

Be particularly wary of potted plants whose mixture dries very quickly, especially if the weather is windy. Pay special attention to them and water them as soon as the mixture starts to dry. To avoid asphyxiation of the roots, remove all the cups in autumn.

Which outdoor plants should not be watered in winter?

Generally speaking, it is not necessary to water plants that are at rest, as rain is more than enough for them. Recognizing a plant in rest is quite simple:
  • its foliage is faded, and only the underground part remains;
  • the tree or the shrub has lost its foliage ;
  • the plant is no longer growing and does not produce flowers or fruits.
Never water succulents and cacti in winter. These very particular plants should be installed in very well drained soil and in a very warm exposure. Succulents grown in pots should be placed in a cool and bright room without watering from October to April.

How to water outdoor plants in winter?

  • Always water with water at room temperature to avoid thermal shock.
  • It is best to water in the late morning so that the water can be absorbed before the cold falls in the late evening.
  • Water only if you feel it has not rained enough. A rain gauge can help you measure the amount of rain that has fallen, but you must remember to empty it often to avoid distorting the data.
  • Beware of frost. The main concern with winter watering is frost. Indeed, if the soil is waterlogged, the roots are less resistant to cold. For this reason, beware of mulches in regions where it rains very often, because once soaked, their protective effect is reversed. A good solution is to stop all watering operations in case of an expected heavy frost.

Ollas, an ancestral watering technique

An ancestral and very efficient watering technique, the olla allows to supply the plants with water directly at the roots level. Ecological, economical, it has only advantages. Discover it...

Ollas, a proven irrigation system

Proud of its 4000 years of existence, this watering technique still works wonders especially in Southern Europe where it is still widely used.

The term "olla" comes from the Spanish word for "pot". The olla is a microporous clay container, usually in the shape of a jar. It has an opening in the upper part and a lid on top.

The olla is buried at the foot of a plant, then filled with water and closed. Only the neck of the jar protrudes slightly from the ground in order to replenish the water.

Its porous constitution allows the water to escape slowly and directly to the roots of the plants thus ensuring a targeted and very effective watering. The plant only gets what it really needs and no longer suffers from water stress.

Savings in perspective

Since the planet's water resources are limited, this watering system offers a solution to preserve the resource. It is a water saving of 50 to 70% that is achieved by using this system. Not to mention the energy you usually spend watering, since the olla is only filled once a week on average!

The different types of ollas

The system can provide water to all kinds of plants, from a geranium in a window box to an olive tree in the ground.

For planters and pots, we use 'planting' ollas. Shaped like a spinning top, they have a pointed lower part that is planted in the substrate. The water is placed in the reservoir of the upper part, which remains on the surface of the mixture. These small volume ollas (0.25 l) are available in natural, enamelled or even patterned versions. They are very practical when you go on vacation to ensure watering for a week to 10 days.

In the open ground, ollas 'to be buried' are preferred. They are available in all volumes:
  • 0,30 liter for small plants or pots;
  • 1,5 liters for isolated plants;
  • 5 liters or 10 liters for shrubs or trees, or even for the vegetable garden.

Advantages of the technique

This watering technique has many advantages:
  • It allows for significant water savings and reduces watering work to a strict minimum.
  • It ensures a deep water diffusion; the soil is not wet on the surface, the 'weeds' do not germinate, which reduces the weeding work.
  • The roots draw the quantity of water necessary to their needs. Their growth is harmonious since they are no longer subjected to water shock.
  • The plants are less exposed to the diseases propagated by the water drops on the foliage (oomycetes).

Water retainers, gel against drought

A recent invention, water retention systems or hydroretention systems open new horizons for farmers and plant professionals. This technique allows significant water savings but also a better productivity. Let's see how this miracle product works.

A recent invention

Sergio Jesùs Rico, a Mexican scientist, nominated for the 'World Water Prize' of the Stockholm Water Institute in 2012, has succeeded in creating a revolutionary product for modern agriculture by solidifying water. How did he make this possible? Simply by gelling it with a biodegradable and non-toxic substance, potassium polyacrylate. This powder is able to store up to 500 times its weight in water and release it progressively according to the plants' needs.

To use it, simply mix the powder into the soil during planting. If it rains or after watering, the water solidifies into granules that vary in size from 3 mm to 1 cm in diameter. The permeable wall of each of these granules allows it to absorb the water but also to release it in very small quantities directly in contact with the roots of the plants.

This technique is already used by farmers who develop crops requiring a large amount of water or in areas where water resources are irregular. This product can also be used in the fields of horticulture, reforestation, arboriculture in the sports sector (golf, soccer fields...), in green spaces, and even in nurseries where 2g per liter of substrate are enough to grow plants in pots.

How is the product packaged?

The water retainers are packaged in pots or bags of varying sizes. Their cost is about 40 € per kilo, which is very profitable when you calculate the savings in water and fertilizers. The average life span of the product is 5 years.

Advantages of water retainers

The advantages of this revolutionary product are numerous among them:
  • To make consequent water savings at the planetary level. When we know that 70% of the world's water resources are used by irrigated agriculture and that losses through evaporation and leakage are enormous before they even reach the plants, water retainers are a solution of choice. Irrigation costs with this method are reduced by 50-75%.
  • Restructure dry, compact, poor or eroded soils. Indeed, the product allows a better circulation of air and releases oxygen, limits the leaching of fertilizers, reduces the impact of salinity or pollution of the water table and counteracts the irregularity of natural rainfall.
  • Produce better and more with less natural resources and energy spent.
Plants cultivated with water retainers extract liquid gradually and according to their needs. Less subject to water stress and nutrient deficiencies, they grow faster, their root and leaf mass is multiplied by 3 or 5 with this method. They are more vigorous, absorb fertilizers better (30% savings) and are much more resistant to diseases.

Bleed your outdoor faucets before freezing

In some regions, freezing temperatures are severe during the winter, so there is a risk of serious damage to outdoor faucets and pipes without a proper procedure before the cold weather arrives. Let's take a look at how to do it easily.

Why bleed your outdoor pipes?

During the dreary season, temperatures can very easily drop below zero and even reach extremes depending on the region (down to -20 or 30°C). The water in the pipes or faucets freezes and takes up more volume, sometimes causing them to burst. The equipment is therefore put to a severe test and, if it is already fragile, it can be damaged very quickly.

When should I bleed my outdoor pipes?

It is important to purge outdoor pipes as a preventive measure in the following cases

Regions with very harsh winters;

Prolonged absence that does not allow for quick intervention in case of a cold snap;

Pipes or ducts that are not or only slightly buried (a minimum depth of 70 cm ensures frost protection).

Please note: in regions where winters are mild and frost is rare, the procedure is not necessary, but it will be necessary to act in case of an exceptional climatic event, which implies to be present.

How do I purge the outside pipes?

Start by locating the water inlet valve, which is usually located upstream of the pipe. Turn the valve to shut off the water;

Open the taps to drain the remaining water from the pipes;

Turn on the small tap near the water valve to drain the pipes;

Once all the liquid has drained, close the drain valve and the valve again.

Remember to store the hoses in a dry, frost-free place to keep them in good condition during the winter.

If you live in an area where temperatures remain within a reasonable range, simple protection of the pipes and valves may be sufficient. Polyethylene foam insulation tubes are available to protect pipes. Bubble wrap in several layers may be sufficient for fittings.

Avoid newspaper or rockwool which tend to retain water and thus amplify the phenomenon.

A dense, plant-covered garden to save water

With global warming, drought threatens. Water deficit sets in during winter. Being satisfied with our rainwater reserves requires us to consider new cultivation techniques, more ecological, but also more labor-saving.

... or reconsider the "clean garden" question

"The garden must be clean": this is the leitmotiv that has been preached to gardeners for decades. Agronomists in favor of monoculture, a sort of pride in a vegetable garden with nothing sticking out, perhaps also more or less subliminally by the sellers of treatment products? The "golf course" or very formal garden is finally beginning to fall out of fashion, it is gradually giving way to the informal, to the naturalist garden that favors declining biodiversity, to permaculture...

This is just as well, because we have to adapt to global warming, which is drying and overheating our garden more and more. What can we do, if not try new cultivation techniques to save water? To finally take into account ecology, which considers all living beings in their environment and their complex relationships? For, most often, these inter-species relations are a relationship of mutual aid: for millions of years, these living beings have coexisted by adapting to each other and living in community. But where in nature do we see a piece of land drying out in the open air? Nowhere, because nature hates emptiness and is quick to fill it. Keeping the soil covered with vegetation is definitely a way to save water.

Why does land without ground cover deteriorate and dry out?

When soil is bare, freshly turned and worked, it is lumpy and easy to plant, and transplanted plants easily sink their roots into it. However, just after the first heavy rain, a so-called "capping" crust is created, especially on clay or loam soils. The heavy rain (or a copious watering) loosens the soil, the clay or silt is transformed into very fine particles suspended in the water, then settles on the surface in a hard surface layer. This layer bakes in the sun and becomes cemented.

Neither water nor air can penetrate this impermeable layer, which will greatly limit the development of the planted vegetable. Moreover, future rains, instead of gently infiltrating the soil, will either remain in puddles and evaporate very quickly, or run off if there is a slope, and carry soil with it. This rainwater supply is therefore lost to the plants.

Not only does the crust prevent water from infiltrating, but also, by a powerful capillary phenomenon, it sucks the water from the deep soil towards the surface where it evaporates, and amplifies the phenomenon of dehydration.

The dehydration of the soil does not only occur in summer, in winter, especially during periods of frost and wind, a huge quantity of water evaporates instead of infiltrating and going into the water table. 

Even if there is no crust, on a bare and freshly hoeled soil surface, the sun evaporates the water much too quickly (imagine a sponge in the sun). On black soil, sunlight causes overheating, which is beneficial in early spring, but disadvantageous in summer.

Finally, overheating, like the crust of threshing, is unfavorable to the life of the soil, especially for the earthworms that produce the clay-humus complexes so necessary to plants.

Fill the garden with plants to water less

For a few years now, we have been trying to fight against this bare soil by mulching. Mulching is very interesting, but there is never enough plant debris in a garden to mulch everywhere.

Another solution is to imitate nature: no gaps!
  • put an inter-culture (when the garden is empty) in winter or at the end of summer in the garden: a green manure or simply let local annuals grow, plant lamb's lettuce, forget-me-not...
  • avoid cleaning up your garden too much, leave selected weeds (often annuals) between the vegetables for their tranquility (easy to pull out) and their attractiveness (for you as well as for insects): as long as they do not cover the vegetables, they do not bother them. A potato, for example, is not bothered by anything.
  • stop trying to control your garden completely: each plant in its own place, perennials spaced regularly, no spontaneous sowing. Well, no! change your perspective, accept a form of wilderness, go from formal to informal style. Of course, it's also a matter of taste, but letting the flowerbeds thicken and become dense, filling the holes with annuals that take care of themselves until the perennials have grown enough volume are methods to avoid water evaporation. Moreover, it greatly limits the work of weeding: yes, we don't leave everything! It is a permanent balance to maintain, between the poppy that sometimes sows too much and the delicate perennial plant that is pampered, but it requires much less work than systematically weeding everything: once the plant cover is dense, very few new seedlings germinate and there are far fewer watering cans to carry.

Role of the ground cover plant

When the land is covered with plants, even small ones or even weeds, because it is better than nothing :
  • the soil is protected from direct sunlight that dries out and overheats.
  • the foliage absorbs the pressure of heavy rains: there is no crust of battance.
  • the root network allows a natural drainage of the soil: the rain infiltrates quickly along the roots instead of evaporating.
  • the foliage transpires during the day, but in return, the plant collects the morning dew (atmospheric water), part of which runs down the stems and into the soil.
  • Under the layer of leaves, the atmosphere remains more humid and creates a microclimate conducive to life.
  • weeds or other companion plants maintain the rhizosphere in good condition (symbiotic micro-organisms of the plants), which allows a better water balance of the soil and a certain help when replacing the weed by a cultivated plant.
  • plant tissues are waterlogged, and are therefore generally a means of maintaining water in your garden
  • the shade created on the foot of productive plants can be very useful in case of heat wave.
On the other hand, the fact that it is no longer a monoculture is very favorable to biodiversity, and therefore to the presence of small auxiliary fauna: for example, companion plants can flower in the low season and allow foraging insects to feed. Finally, some weeds are quite simply rare and tolerating them a little simply allows them to exist, such as the harmless Kickxia elatine.

Counteract the harmful effect of bare soil with weeds, the so-called weeds!

The gardener's work must evolve and be refined: rather than wanting to control everything 100%: water, plants, nutrient inputs, perhaps the gardener must trust nature more and imitate a system that has been developed over millennia and has proven itself, leave aside "clean", let go of complete control of the environment: accept a quota of weeds.

How to use weeds in the garden?

We will only allow those that are easy to remove, therefore most often annuals, and to do this well, we will allow those that we like, those that can be eaten, those that are melliferous, etc., to reseed themselves. This also means learning to recognize them.

Obviously, we will avoid leaving quackgrass, perennial nettles and bindweed in the middle of the beds, although bindweed can also be useful and often comes from an imbalance (see the article on field bindweed), or annuals that are too cumbersome.

The principle is to look at what sprouts spontaneously or to sow it yourself, and to let the selected seedlings develop after working the soil as long as there is nothing to cultivate in their place. When the time comes to plant or sow, just make the hole without enlarging it too much, then watch out for the balance between the two types of plants, avoid too much competition for light.

Some examples of weeds that can be tolerated and used in the garden :
  • plantains, Plantago coronopus, Plantago lanceolata, Plantago major, perennials, but easy to pull out, they are relatively beautiful in flowers and melliferous.
  • Robert's cranesbill, Geranium robertianum, a very cute and melliferous annual which appreciates semi-shaded or shaded spaces; it is happy in a bed of small fruits for example or in a vegetable garden surrounded by fruit trees. Its light foliage does not overpower its neighbors.
  • Its counterpart in a sunnier and drier garden is the Pyrenean cranesbill, Geranium pyrenaicum, a melliferous plant whose small flowers are of a beautiful vibrant mauve.
  • less aesthetic, but still native is Geranium dissectum, the cut-leaved geranium, the plant is interesting in basal rosette, but its flowers are tiny.
  • the daisy and the veronicas, small and pretty... ex Veronica chamaedrys, which can be marvelous in a bed.
  • the poppies, absolutely magnificent, but high
  • the purple lamier, Lamium purpurea, not very annoying and sometimes blooming in winter so necessary for the foragers.
  • the fumitory, Fumaria officinalis, with light foliage that protects the soil without shading it too much.
  • wild pansy, Viola tricolor
  • chickweed, Stellaria intermedia, small and harmless
  • the red chickweed, Anagallis arvensis, cute, well covered and very low.
And certainly many others to experiment with...

Some cultivated plants play the role of weeds to perfection, such as forget-me-nots, red mustard, whose foliage is magnificent in winter, borage, lamb's lettuce if you let it reseed itself (and it's good too!)...

Keeping your soil always planted means maintaining a balance between what you leave and what you remove without wanting to make a clean sweep. The species to be used are certainly numerous and will depend in part on the cultivated area.   As you leave this system of over-weeding, you might be amazed at how beautiful this overflowing, crowded garden is! For those who like neatness, these exuberant beds or vegetable gardens will find grace by drawing well-defined borders around them.

No doubt other old cultivation techniques to limit water loss have been lost with intensive agriculture and are to be rediscovered. Moreover, this vegetal cover of the soil can be combined with the technique of mulching and agroforestry (associating trees and herbaceous crops). But we can already change our mentalities in this period of strong extinction and act at our scale, because we must understand that these weeds are only local plants, hosts of a procession of associated species (microorganisms and animalcules of the soil, insects, earthworms...), which seek a space to live, whereas they are stupidly chased away from the edges of the fields, the edges of the road or our gardens, sometimes for very bad reasons.

Weed: the weed of crops is the plant that ends up in the middle of the field, the bed or the vegetable garden without being intentionally sown there. From the point of view of the "clean garden" or intensive agriculture, it is a nuisance and must be weeded. From the point of view of ecology, it is a pioneer plant, that is to say, it serves to re-vegetate a disturbed area.

Clay-humus complex: a healthy soil structure where clay (mineral) and humus (stable organic matter) are associated; they are made by earthworms and are very beneficial to plants in that they prevent leaching and therefore the escape of nutrients from the soil.

Ecology: science that studies living beings within their environment, the complex relationships they have with this environment and with the other species present. Different from political ecology, which deals with man's relationship with nature.

Monoculture: agrosystem where only one species is cultivated and tolerated. E.g. a field of wheat in agriculture, or on a smaller scale, rows of vegetables in a completely weeded vegetable garden. Weeds are banished.

Rhizosphere: all the micro-organisms living in the immediate proximity of the plant's roots. Extremely more numerous than elsewhere, they maintain symbiotic and cooperative relationships with the plant and create an extremely profitable synergy. See the article Rhizosphere, micro-organisms and plants, a winning team.

Black Alder, Alnus glutinosa, botanical description

Botanical sheet dedicated to the black alder, Alnus glutinosa

The black alder: a species for river banks

The glutinous alder, Alnus glutinosa, is a deciduous tree which fixes the banks, cleans up and enriches spongy soils and captures nitrogen (thanks to nodosities present on the roots) for its own benefit; it is therefore the typical tree of the banks of watercourses and marshy areas. Very common in France (except in the Mediterranean region), it is a very popular subject in eastern France. It is a species that requires light and has difficulty with competition from other trees: it needs a large living space.

Description of the black alder

The alder, sometimes called alder or worm, has a deciduous foliage with a rather dense cover. Its top is conical, its branches erect (almost horizontal), and its male flowers (long hanging catkins) and female flowers (short erect catkins) are borne by the same individual. The pollination is done by the wind.

The bloom, during March, is discreet and precedes the exit of the leaves. The fruiting composed of small cones (the strobiles) is regular and abundant.

Of very fast growth; the black alder has a longevity comparable to that of the man; it lives between 60 and 80 years.

The enemies of the black alder

Microscopic fungi carried by the waterways cause root rot, the outcome of which is fatal.

The black alder is also sensitive to deer rubbing (marks that deer make on the trunks by rubbing their antlers).

The qualities of the black alder

The black alder is not afraid of water; it is rot-proof and has often been used for the construction of foundations, water pipes or pilings. The city of Venice is built on alder piles.

The wood of the black alder is orange in color. It is light and soft, easy to work. It is very often used in turning and furniture.

Growing tips

Alder should preferably be planted in deep soil, along waterways. It has a high water requirement and tolerates well asphyxiation by flooding.

It tolerates soils with a pH ranging from neutral to very acid.

Demanding in light, its fast growth compensates for its weak longevity.

The Canadian Cercis, cultivation and maintenance

The Canadian Cercis: beautiful flowers and leaves

Cercis canadensis is a small tree native to North America with undeniable aesthetic assets: elegant foliage for 8 months of the year and, just before the leaves appear, a beautiful purplish-pink bloom that appears on the entire plant, including the trunk (cauliflora).

Weeping and erect cercis

There are two types of cercis du Canada. The weeping ones (ex.: Cercis canadensis 'Ruby Falls' - 2 meters high), and the erect ones. Of the latter, there are different colors:
  • Cercis canadensis 'The Rising Sun': young golden orange leaves, then yellow, green and finally orange in autumn.
  • Cercis canadensis 'Merlot': bright purple leaves.
  • Cercis canadensis 'Carolina Sweetheart': young pink-red leaves that give way to a mix of dark green, creamy-white, pale yellow and pink tones.

Cultivation of the Canadian Cercis

Canadian cercis are hardy trees (up to -25°C) that are reasonably resistant to drought. They are planted in spring or autumn, by adding compost to the planting hole, not forgetting to install a stake so that they can root properly, without moving. We finish the plantation by installing a mulch in order to limit the evaporation of water from the soil.

Pests and diseases

Canadian cercis are rather resistant. However, a few small caterpillars may nibble on a few leaves, but nothing to worry about.

Advantages of the Canadian cercis

  • A beautiful colored foliage from April to October / November, depending on the region;
  • An interesting flowering range, from the beginning to the end of April, depending on the region. Most often purplish pink, the flowers can also be white (Cercis Canadensis 'Vanilla Twist' with a weeping habit, very floriferous), single or double.

Pruning Cercis Canadensis

Cercis are pruned after flowering.
  • Weeping cercis can be pruned to encourage branching, but this is not mandatory.
  • The erect cercis are pruned to promote branching or to maintain the tree at a 'reasonable' size, knowing that they are, in any case, small trees that reach, at 10 or 15 years, a height of 3 to 4 meters.

Hornbeam, Carpinus betulus : botanical card

Botanical sheet about hornbeam, Carpinus betulus

The hornbeam is the most widespread tree in France, especially in the plains and plateaus of the north and east of the country. It is often confused with the beech, which it differs by its toothed leaves and its fluted trunk.

Description of the hornbeam

The hornbeam is a forest tree that can live between 100 and 150 years. It grows slowly and can sometimes reach 20 to 25 meters in height. It is a species that appreciates semi-shaded exposures and tolerates well the cover of large trees.

The dense deciduous foliage of the hornbeam falls late in the winter. The male and female flowers (catkins) are distinct and grow on the same tree (monoecious plant). They bloom during the months of April and May and it is the wind that ensures the pollination, as well as being responsible, thereafter, for the dispersion of the seeds.

Fruiting is regular and abundant.

Enemies of the Hornbeam

The hornbeam is a very sensitive tree to wounds. These wounds are entry points for bacteria and pathogenic fungi responsible for the development of rots.

The thin bark of the hornbeam makes it vulnerable to the "heat strokes" that can be caused by possible burns at its foot.

The qualities of hornbeam

The hornbeam is a tree rather resistant to diseases.

It is a light wood that does not keep well outdoors. Hard and heavy, it is however resistant to shocks. This quality makes it ideal for the manufacture of tool and umbrella handles, billiard sticks and mallets. In the past, it was also used to make most butcher's stalls.

Hornbeam provides a famous firewood that burns slowly, with a bright flame. It also produces a very good charcoal.

Tip

If you want to plant a hornbeam in your garden, do so in the fall. Give it generous waterings in dry, warm weather and mulch the base of new plantings for two to three years with a bed of fibrous compost.

Common chestnut, Castanea sativa : botanical card

Botanical card dedicated to the common chestnut tree, Castanea sativa

The chestnut zone

Native to the Mediterranean basin, the chestnut tree is present in many French regions. However, it remains rare in the north and north-east, although relatively abundant in the northern Vosges.

It was introduced by the Romans in the first century of our era. Until recently, it was mainly cultivated for food purposes, for chestnut flour, and for the wood which was used for multiple purposes.

Portrait of the chestnut tree

The chestnut is a tree that can live more than 500 years. Its growth is vigorous, and it can reach heights between 25 and 30 meters.

Its deciduous foliage forms a fairly dense canopy.

The male and female flowers are distinct, but are borne by the same individual.

Although it is a sun tree, the chestnut tolerates a light shade during its first years.

Chestnut's enemies

The chestnut tree is susceptible to two microscopic fungi:
  • ink disease, which can decimate it when grown on inappropriate land;
  • the canker; a very contagious parasite, currently in full expansion.
The chestnut tree can also be affected by rust, a detachment of the growth rings which strongly depreciates its wood. This defect, which increases with age, is linked to the growing conditions.

Finally, the chestnut tree is also sensitive to browsing, rubbing and debarking caused by deer.

The qualities of chestnut wood

Chestnut wood is rich in tannins. It is therefore very well preserved, which makes it suitable for specific uses: posts, frameworks, external frames...

Its ability to split is used for the manufacture of cladding.

Its timber is much sought after for furniture (parquet, stairs, furniture), while its very flexible strands are used in basketry and for strapping barrels.

The chestnut tree can also be used as firewood, in closed fireplaces (the wood bursts under the action of heat).

Planting advice

Plant the chestnut tree between November and March.

It can be planted in the sun or under a light shade, and in a non chalky, rather fresh and draining soil.

Growing a wisteria tree

Fabulous, fragrant, graphic, wisteria is generally planted along a façade or used as a climber to decorate arbors and pergolas to which it brings an undeniable charm. As a tree, in the center of a lawn or in the background of a bed, it takes on a whole new dimension. Try it, you won't be disappointed!

The choice of wisteria

If you are adventurous, you can start a wisteria tree from a simple seedling, which will allow you to intervene throughout the plant's growth. However, don't expect to get flowers before ten years or so!

It is therefore preferable to choose a grafted plant, from a garden center or nursery, which will ensure a quicker flowering.

Choose a healthy plant, without any trace of injury or disease, and ask the seller for advice on the variety best suited to your region.

Planting location

Choose a location well sheltered from the wind so that your wisteria does not break. This plant appreciates full sun and a non-calcareous soil. You can add compost, heather soil and humus before planting.
  • Dig a 40 cm hole in all directions and plant it with an iron or rot-proof wooden stake of 2.5 m which you will drive at least 60 cm into the ground with a sledgehammer.
  • Plant your wisteria at the foot of the stake and fill in the hole.
  • Pack the neck of the plant well.
  • Water abundantly.
  • Hang the wisteria on its stake by making loose cross ties.

The essential pruning gestures to lead the wisteria into a tree

To obtain a beautiful wisteria tree, you just need to prune your plant regularly. Keep only the main stem and cut the small stems and the vegetation starts flush with the main stem. The plant should not branch out. As the plant grows, check that the ties that connect it to the stake are not too tight.

Wait until your main stem reaches a height of about 1.8 m to start keeping three or four stems in its upper part. These will be the carpenter branches. Prune them to 3 eyes, then the secondary shoots they will form, also to 3 eyes.

You will continue to remove all new shoots on the trunk throughout the growth. Do the same on the frames to give a nice shape to your tree.

In a few years you will have a subject that will capture all the eyes!

Tips for planting a tree

The introduction of a new tree in a garden is always an event. It will grow over time, seeing generations succeed one another, unchanging and proud. To succeed in planting a tree, a few basic precautions should be taken to increase the chances of your new protégé's recovery.

The soil: an important criterion

Before choosing a tree, it is imperative to know the various aspects of the soil. First of all, the pH level will determine whether the soil is acidic, calcareous or neutral. You will choose the species according to this criterion rather than modifying the soil, because the results may not be as good as you expect. The nature of the soil also comes into play; a heavy, clayey and humid soil will have to be well drained because few trees enjoy growing in constantly wet soil.

Choosing the variety

Always choose a tree adapted to the climatic conditions of your garden. Avoid tropical species in the North or in the mountains which would have little chance of surviving the first winter. Take inspiration from your direct environment to introduce plants adapted to your region. This way, you will put all the chances on your side and limit the use of phytosanitary products.

Then, it's all a matter of taste: colorful foliage, majestic bearing, sumptuous flowers are all criteria to take into account when choosing your tree.

Anticipating the future

When you buy a tree in a nursery, it is sometimes difficult to imagine its future development. Find out beforehand so that you can plan a location that is large enough for it to develop perfectly. Keep large trees away from the house so that the roots do not cause damage and so that too much shade does not darken your home.

Also consider the regulations and distances to be respected with the neighborhood: trees that will reach a height of more than two meters when mature must be planted at least two meters from the property line.

Planting advice

The planting of a tree should preferably be done in autumn and this, until the month of February, except during periods of heavy frost, when the plant is in its vegetative rest period. This will give the roots time to establish themselves and take advantage of the natural rainfall to grow well the following spring. A spring plantation is also possible for containerized trees, but it will be necessary to water very often during the summer. Choose a tree that is still young, its chances of recovery will be much better.

The planting hole should be prepared about fifteen days before planting.
  • To do this, dig a hole twice the size of the root ball in all directions.
  • Plant a strong stake facing the prevailing wind.
  • Drain the bottom with a bed of gravel or clay balls so that water does not stagnate.
  • Prepare your tree by "dressing" its roots, i.e., by cutting off those that are dead or injured and by trimming the tips of the healthy roots to induce the development of new rootlets.
  • Then brush them with a praline made of soil, water and cow dung.
  • Place a bed of soil at the bottom of the hole and install the tree so that its collar is flush with the soil.
  • Top it off with soil to which you have added ground horn.
  • Pack the base well and dig a trough with well-decomposed compost at the bottom.
  • Water abundantly and fix with specific ties (eight ties) to the stake.

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