Add to ORKGIrrigation programing determines when and how much water apply to fulfill the plant water requirements depending of its phenology stage and location, and soil water content. Thus, the amount of water, the irrigation time and the irrigation frequency are variables that must be estimated. Likewise, irrigation programing has been based in approaches such as: the determination of plant evapotranspiration and the maintenance of soil water status between a given interval or soil matrix potential
As the demand for water and the cost of irrigation continue to increase, agriculture must increase i...
Understanding the spatial and temporal dynamics of soil water within a field is critical for effecti...
In irrigated systems, soil water content is a major factor determining plant growth. Irrigation sche...
Two criteria for deciding when a crop should be irrigated are: (1) the depletion of water in the roo...
Irrigation scheduling is rapidly gaining acceptance as a valuable tool for developing an on-farm wat...
Center pivor systems are widely used to suppress the irrigation needs of agricultural fields. In thi...
Forage irrigation scheduling is affected by soil-water-plant relationships and harvest operations. I...
The maximum effect of irrigation depends on the timing of the irrigation’s start. The design irrigat...
Developments in applied methods for estimating crop water use (evapotranspiration) have made it poss...
Using evapotranspiration (ET) data for scheduling irrigations on vegetable farms is challenging due ...
Precision irrigation scheduling is one approach that can conserve water by supplying crops with the ...
Crop production in South Texas is at continual risk due to frequent droughts. When water resources a...
Center pivot systems are widely used to overcome the irrigation needs of agricultural fields. In thi...
This publication was conceived as a first reference point for individuals who are new to plant based...
Two criteria for deciding when a crop should be irrigated are: (1) the depletion of water in the roo...
As the demand for water and the cost of irrigation continue to increase, agriculture must increase i...
Understanding the spatial and temporal dynamics of soil water within a field is critical for effecti...
In irrigated systems, soil water content is a major factor determining plant growth. Irrigation sche...
Two criteria for deciding when a crop should be irrigated are: (1) the depletion of water in the roo...
Irrigation scheduling is rapidly gaining acceptance as a valuable tool for developing an on-farm wat...
Center pivor systems are widely used to suppress the irrigation needs of agricultural fields. In thi...
Forage irrigation scheduling is affected by soil-water-plant relationships and harvest operations. I...
The maximum effect of irrigation depends on the timing of the irrigation’s start. The design irrigat...
Developments in applied methods for estimating crop water use (evapotranspiration) have made it poss...
Using evapotranspiration (ET) data for scheduling irrigations on vegetable farms is challenging due ...
Precision irrigation scheduling is one approach that can conserve water by supplying crops with the ...
Crop production in South Texas is at continual risk due to frequent droughts. When water resources a...
Center pivot systems are widely used to overcome the irrigation needs of agricultural fields. In thi...
This publication was conceived as a first reference point for individuals who are new to plant based...
Two criteria for deciding when a crop should be irrigated are: (1) the depletion of water in the roo...
As the demand for water and the cost of irrigation continue to increase, agriculture must increase i...
Understanding the spatial and temporal dynamics of soil water within a field is critical for effecti...
In irrigated systems, soil water content is a major factor determining plant growth. Irrigation sche...