In arid and semi-arid regions, water harvesting systems can augment water supply for crop production purposes. The functioning of this type of system is controlled by three major factors: weather, crop and soil characteristics. In particular, the weather factors vary stochastiscally and thus, need to be predicted on the basis of their probability of occurrence. Furthermore, long-term historical data is scarce in the arid regions. Consequently, the simulation approach is a good alternative for designing the system. This study developed a micro-computer based model, SSWHS89.BAS, for design of small scale water harvesting systems for perennial crops. The model uses elements of a simulation computer program, CLIMATE.BAS (Woolhiser, 1988), to ge...
New Zealand Agricultural Engineering InstituteAlso published as: Agricultural Engineering Thesis no....
Water requirements for different crop types according to soil type and climate conditions play not o...
Abstract – In this study a simple simulation model for the design of microcatchment water harvesting...
In arid regions, where water-harvesting techniques can be applied to use surface runoff for agricult...
A mathematical model for personal computers was prepared as a planning tool for development of micro...
A Compartmented Reservoir Operation Program, CROP84, is a computer program developed, by C. B. Cluff...
Deciding whether irrigation is necessary, and how often to irrigate, is not an easy problem in semi-...
In semi-arid regions limited rainfall is received and so the water use in crop production needs to b...
Agricultural development projects in arid regions are hampered by lack of knowledge surrounding the ...
Figure 2-2 was removed for copyright reasons but is accessible on p.13 of the publication available ...
Here we have developed a new model to simulate supplemental irrigation and the hydro-economic potent...
Today, the uncontrolled abstraction of surface water and groundwater resources has created adverse c...
Rainwater harvesting (RWH) is perhaps the most ancient practice to meet water supply needs. It has r...
Rainwater harvesting (RWH) is perhaps the most ancient practice to meet water supply needs. It has r...
Savu Island is a semiarid region with few rainfalls. The meager annual rainfall of about 1,000-1,500...
New Zealand Agricultural Engineering InstituteAlso published as: Agricultural Engineering Thesis no....
Water requirements for different crop types according to soil type and climate conditions play not o...
Abstract – In this study a simple simulation model for the design of microcatchment water harvesting...
In arid regions, where water-harvesting techniques can be applied to use surface runoff for agricult...
A mathematical model for personal computers was prepared as a planning tool for development of micro...
A Compartmented Reservoir Operation Program, CROP84, is a computer program developed, by C. B. Cluff...
Deciding whether irrigation is necessary, and how often to irrigate, is not an easy problem in semi-...
In semi-arid regions limited rainfall is received and so the water use in crop production needs to b...
Agricultural development projects in arid regions are hampered by lack of knowledge surrounding the ...
Figure 2-2 was removed for copyright reasons but is accessible on p.13 of the publication available ...
Here we have developed a new model to simulate supplemental irrigation and the hydro-economic potent...
Today, the uncontrolled abstraction of surface water and groundwater resources has created adverse c...
Rainwater harvesting (RWH) is perhaps the most ancient practice to meet water supply needs. It has r...
Rainwater harvesting (RWH) is perhaps the most ancient practice to meet water supply needs. It has r...
Savu Island is a semiarid region with few rainfalls. The meager annual rainfall of about 1,000-1,500...
New Zealand Agricultural Engineering InstituteAlso published as: Agricultural Engineering Thesis no....
Water requirements for different crop types according to soil type and climate conditions play not o...
Abstract – In this study a simple simulation model for the design of microcatchment water harvesting...