Agriculture is vulnerable to drought indicating that the increasing climate crisis requires the
necessity of sustainable crop production. In this study, we developed the Irrigation Schedule …

Subsurface drip irrigation as a source that provides the water directly to the root zone
develops a saturated wetted front in the rhizosphere, particularly when the irrigation is close …

The growing global food security crisis is complicated by the need for increased crop
production with less arable land and limited water resources. Reuse of treated wastewater …

Evaluating the impact of air via subsurface drip irrigation (SDI) system through the
incorporation of high efficiency venturi injectors, referred to as AirJection® Irrigation, has …

Drip irrigation may be used to deliver water and air to plant root systems, although uniformity
of air bubble delivery along the irrigation line is an issue. Use of 1.2 ppm of a nonionic …

In Korea, irrigation technology using subsurface drip irrigation (SDI) is new in agriculture
system. Many limitations of SDI are not well known. SDI can damage crops from …

Nitrogen (N) use efficiency (NUE) is an important factor to consider for the improvement of
crop yield and the minimization of nitrate leaching potential (NLP). AirJection® Irrigation is …

Evaluating the addition of ambient air via subsurface drip irrigation system, referred to as
AirJection® Irrigation, has been the focus of our research over the past seven years. In the …

The concept of aerating the irrigation water increases the potential for the air to travel with
water movement within the root zone. Physical, chemical, and biological soil characteristics …

Due to water scarcity and increasing food demand, nonconventional water sources (eg,
human and animal wastewater) represent a valuable alternative to traditional water …