Add to ORKGThere are benefits in aerating irrigation water as it is delivered to root system through subsurface drip irrigation (SDI). It represents a potentially big step towards increasing yields, water use efficiency and grower acceptance of SDI. Irrigated agriculture accounts for about 70% of total water usage (about 40,000 gigalitres in Australia with 13% being used in horticulture and viticulture (HAL 2003))
Inadequate oxygen concentration in the root zone is a constraint to plant performance particularly i...
Irrigation of heavy soils can result in temporary anoxic conditions in the rhizosphere. The aeration...
Due to water scarcity and increasing food demand, nonconventional water sources (e.g., human and ani...
There are benefits in aerating irrigation water as it is delivered to root system through subsurface...
Increasing competition on supply of fresh water for irrigation by agricultural, domestic, sports and...
Subsurface drip irrigation (SDI) offers well‐documented potential for improving water use efficiency...
Subsurface drip irrigation (SDI) compares favourably with other irrigation protocols interms of wate...
This article presents data on the global and Australian fruit industries, their water usage, and a n...
Furrow is the dominant irrigation method for agriculture throughout the world. However, due to water...
Subsurface drip irrigation (SDI) is known as one of the most effective irrigation methods capable of...
The socio-economic pressure for improvements in irrigation efficiencies is increasing due to intense...
Australian cotton (Gossypium hirsutum L.) is predominantly grown on heavy clay soils (Vertosols). Co...
Most trickle irrigation in the world is surface drip yet subsurface drip irrigation (SDI) can substa...
Soil aeration is one of the critical determinants of plant production. This research investigated th...
Oxygation refers to irrigation of crops with aerated water, through air injection using the venturi ...
Inadequate oxygen concentration in the root zone is a constraint to plant performance particularly i...
Irrigation of heavy soils can result in temporary anoxic conditions in the rhizosphere. The aeration...
Due to water scarcity and increasing food demand, nonconventional water sources (e.g., human and ani...
There are benefits in aerating irrigation water as it is delivered to root system through subsurface...
Increasing competition on supply of fresh water for irrigation by agricultural, domestic, sports and...
Subsurface drip irrigation (SDI) offers well‐documented potential for improving water use efficiency...
Subsurface drip irrigation (SDI) compares favourably with other irrigation protocols interms of wate...
This article presents data on the global and Australian fruit industries, their water usage, and a n...
Furrow is the dominant irrigation method for agriculture throughout the world. However, due to water...
Subsurface drip irrigation (SDI) is known as one of the most effective irrigation methods capable of...
The socio-economic pressure for improvements in irrigation efficiencies is increasing due to intense...
Australian cotton (Gossypium hirsutum L.) is predominantly grown on heavy clay soils (Vertosols). Co...
Most trickle irrigation in the world is surface drip yet subsurface drip irrigation (SDI) can substa...
Soil aeration is one of the critical determinants of plant production. This research investigated th...
Oxygation refers to irrigation of crops with aerated water, through air injection using the venturi ...
Inadequate oxygen concentration in the root zone is a constraint to plant performance particularly i...
Irrigation of heavy soils can result in temporary anoxic conditions in the rhizosphere. The aeration...
Due to water scarcity and increasing food demand, nonconventional water sources (e.g., human and ani...