greenhouse experiment was conducted at Japan International Research Center for
Agriculture Science (JIRCAS), Okinawa Subtropical Station, Ishigaki, Japan with three multiple
water application and two single water applications to study the effects of them on
tomato yield, soil water content and water use efficiency. Multiple water application is a
technique use to add the required amount of water during irrigation in multiple equal parts
a day instead of one complete set (single water application) during the irrigation event. The
multiple water application treatments were the day time (DT), day–night time (DNT) and
night time (NT) while the single water application treatments were morning time (MT) and
evening time (ET). In multiple water irrigation treatments the water was added to the soil
into three equal parts. The supplied irrigation water was the same for all treatments and
gradually increased with plant age to cover the crop water requirement during the growing
season.
The results revealed that multiple water application increased tomato yield by 5% over
the highest yield of single water application. The DT treatment increased tomato yield by 5%
and 15% compared to ET and MT treatments, respectively. For multiple water application,
the DT was the best irrigation timing because it increases the tomato yield by 8% and 12%
compared to DNT and NT, respectively. ET irrigation was better than MT irrigation for single
water application. Multiple water application led to an increased in soil water content
compared to single water application. By applying the same amount of water for all
treatments, the DT treatment increased water use efficiency by 5–15% compared to ET
and MT treatments of single water application. In conclusion, multiple water application is
better than single water application and by choosing the proper irrigation timing, higher
tomato yield resulting from efficient water management can be obtained.
Research Abstract
Research Department
Research Journal
Agricultural Water Management
Research Member
Research Publisher
Elsiver
Research Rank
1
Research Vol
Vol 95
Research Website
NULL
Research Year
2008
Research Pages
116-122.