Vertaaltypen Tekstvertaling Brontekst 3.133 / 5.000 Vertaalresultaten Due to the persistent drought, many farmers are forced to irrigate to limit crop damage. The usually good freshwater supply will come under pressure during this period, which led to the issue of code orange by the LCW Water Distribution Committee last week: there is a water shortage. The call to use water economically is not only reaching households, but also farms. Underground drip irrigation Within the Spaarwater project, techniques are being tested that promote the economical use of freshwater. Water made available through an underground storage system is delivered to the plant via underground drip irrigation. In this way, an effective alternative can be offered to conventional irrigation systems such as sprinklers and water cannons, where loss of water through soil evaporation, interception, deep percolation and drift is large (see figure). With drip irrigation, hoses with drippers are used to dose water and fertilizers to the plant. This can be done by installing the hoses above ground or underground in the field. In the case of underground drip irrigation, the hoses are located under the construction furrow, whereby a combination of capillary rise and a sufficiently deep rooted crop determine the functioning of the system. The optimal location (depth and distance) of the dripper hoses is related to: the rooting depth, yield and sensitivity to wet and drought damage of a crop; -the permeability, soil moisture tension (pF) curve and capillary rise of the soil. Watering effectiveness To monitor how much water has to be given, sensors are used that measure, among other things, soil moisture levels, soil moisture tension (pF), groundwater levels and the outflow through the drains. Taking into account the needs of the plant with regard to growth stages, rooting and absorption of moisture and nutrients is crucial here. By giving many small gifts, it is possible to keep the soil moisture content within the easily absorbable range for the plant (see picture). This increases water effectiveness, a measure of the amount of water supplied by rain and irrigation that benefits crop growth. Irrigation on wet soils should be prevented from the point of view of water effectiveness, because this leads to a strong downward flow to the drains and thus loss of water and leaching of nutrients to the surface water system. By targeting soil moisture, a water effectiveness of 78% was achieved in 2017 with underground drip irrigation on the trial plot in Borgsweer, Groningen. This is 30 to 50% higher than with conventional irrigation systems. Future for drip irrigation The current drought will become more frequent in the future. Future summers may even be drier than expected. Increasing water availability and using freshwater economically is of increasing importance in this regard. Installing an underground drip irrigation can contribute to this and help bridge dry periods.
![2 days in Page, Arizona | antelope canyon, horseshoe bend, monument valley [arizona travel vlog]](http://i.ytimg.com/vi/mkr02-Qvr2U/mqdefault.jpg)
Another fun adventure! Arizona looks so nice and warm as it rains today here in Utah... Thanks for the video tour full of sunshine!
Thanks for stopping by, I’m glad it’s raining in UT, it needs it 😎
Nice tour of Arizona 😎
Thank you!
It’s not a tour of Arizona it’s a tour of Page
Klass
Siba
Looks hot there
Always hot 🥵
No never hot
@♥︎Stan_Kyle♥︎ it snows in the winter. Its high desert so it doesn't get super hot like the valley
Sleepy Brown Cleo clea Cleo thous Brown Laird Lyons Lord Lourdes lourd lours Louis Louisiana lounger lounge hours journey lou
The only way I could see the picture of you in a dress was to see your hair in a ponytail or a dress that was too short for your hair
Bad choice of music for this kind of video!!!
Ok
Vertaaltypen
Tekstvertaling
Brontekst
3.133 / 5.000
Vertaalresultaten
Due to the persistent drought, many farmers are forced to irrigate to limit crop damage. The usually good freshwater supply will come under pressure during this period, which led to the issue of code orange by the LCW Water Distribution Committee last week: there is a water shortage. The call to use water economically is not only reaching households, but also farms.
Underground drip irrigation Within the Spaarwater project, techniques are being tested that promote the economical use of freshwater. Water made available through an underground storage system is delivered to the plant via underground drip irrigation. In this way, an effective alternative can be offered to conventional irrigation systems such as sprinklers and water cannons, where loss of water through soil evaporation, interception, deep percolation and drift is large (see figure).
With drip irrigation, hoses with drippers are used to dose water and fertilizers to the plant. This can be done by installing the hoses above ground or underground in the field. In the case of underground drip irrigation, the hoses are located under the construction furrow, whereby a combination of capillary rise and a sufficiently deep rooted crop determine the functioning of the system.
The optimal location (depth and distance) of the dripper hoses is related to:
the rooting depth, yield and sensitivity to wet and drought damage of a crop;
-the permeability, soil moisture tension (pF) curve and capillary rise of the soil.
Watering effectiveness
To monitor how much water has to be given, sensors are used that measure, among other things, soil moisture levels, soil moisture tension (pF), groundwater levels and the outflow through the drains. Taking into account the needs of the plant with regard to growth stages, rooting and absorption of moisture and nutrients is crucial here. By giving many small gifts, it is possible to keep the soil moisture content within the easily absorbable range for the plant (see picture). This increases water effectiveness, a measure of the amount of water supplied by rain and irrigation that benefits crop growth.
Irrigation on wet soils should be prevented from the point of view of water effectiveness, because this leads to a strong downward flow to the drains and thus loss of water and leaching of nutrients to the surface water system. By targeting soil moisture, a water effectiveness of 78% was achieved in 2017 with underground drip irrigation on the trial plot in Borgsweer, Groningen. This is 30 to 50% higher than with conventional irrigation systems.
Future for drip irrigation
The current drought will become more frequent in the future. Future summers may even be drier than expected. Increasing water availability and using freshwater economically is of increasing importance in this regard. Installing an underground drip irrigation can contribute to this and help bridge dry periods.