Your search found 6 records
1 Kuroda, M.; Nakano, Y.. 1993. Salts and soil water interactions in greenhouse culture. ICID Bulletin, 42(2):73-89.
(Location: IWMI-HQ Call no: PER Record No: H014500)
Salt accumulation in cultivated soils usually do not occur in natural conditions of high humidity and rainfall. However, salt has appeared in crops grown under greenhouse culture, which has become a major problem in Japan. The injuries in greenhouse are mostly caused by increasing of salt concentrations in soils due to intensive application of chemical fertilizers and the lack of adequate salt leaching. Greenhouse culture prevents the natural rainfall leaching. This paper summarizes research on salt accumulation in greenhouse culture between 1979 to 1989 in Japan, describes plant physiological, chemical, physical, and management approaches to solving salt accumulation problems, and discusses general procedures for selection and design of micro irrigation systems.
2 Nakano, Y.; Kuroda, M. 1995. Microirrigation and water consumption in a rain-shielding vinyl film greenhouse. In Lamm, F. R. (Ed.), Microirrigation for a changing world: Conserving resources/preserving the environment: Proceedings of the Fifth International Microirrigation Congress, Hyatt Regency Orlando, Orlando, Florida, April 2-6, 1995. St. Joseph, MI, USA: ASAE. pp.694-700.
Irrigation systems ; Small scale systems ; Evapotranspiration ; Vegetables ; Crop production / Japan
(Location: IWMI-HQ Call no: 631.7 G000 LAM Record No: H018927)
3 Nakano, Y.; Kuroda, M. 1991. Crop canopy models for estimating evapotranspiration from row planted field. In Ritter, W. F. (Ed.), Irrigation and drainage: Proceedings of the 1991 National Conference sponsored by the Irrigation and Drainage Division of the American Society of Civil Engineers and the Hawaii Section, ASCE, Honolulu, Hawaii, July 22-26, 1991. New York, NY, USA: ASCE. pp.366-372.
Soil-water-plant-relationships ; Mathematical models ; Evapotranspiration ; Irrigation water ; Water use efficiency ; Crop production ; Soyabeans
(Location: IWMI-HQ Call no: 631.7 G430 RIT Record No: H019899)
To evaluate the consumptive use efficiency of irrigated water, it is of interest to estimate the soil surface evaporation component separately from transpiration component. Interception of radiation by foliage is one of the major factors influencing evaporation. Ellipsoidal, rectangular and prototype canopylike models were employed to assess the quantity of incoming radiation received by soil and foliage. With mathematical model developed to describe soil-plant energy exchange and water transport, we estimated uneven distribution of evaporation from soil surface between rows.
4 Kuroda, M.; Nakano, Y.; Kogo, S. 1998. Remarkable trend of farmers' interests in land improvement district of irrigation system due to urbanization and modernization in rural area. In ICID, The Tenth Afro-Asian Regional Conference Proceedings: Water and land resources development and management for sustainable use, Denpasar, Bali, Indonesia, 19-24 July 1998. Volume II - C. Jakarta, Indonesia: Indonesian National Committee on Irrigation and Drainage (INACID) pp.C9:1-6.
(Location: IWMI-HQ Call no: ICID 631.7 G570 ICI Record No: H022982)
5 Nakano, Y.; Kuroda, M. 1998. Crop canopy models for estimating transpiration and evaporation in greenhouses. ICID Journal, 47(1):47-59.
Evapotranspiration ; Simulation models ; Plant growth ; Soil moisture ; Small scale systems ; Flow ; Greenhouse effect / Japan
(Location: IWMI HQ Call no: PER Record No: H023166)
6 Nakano, Y.; Kuroda, M.; Inosako, K. 1999. Consumptive use of water in irrigated fields under an arid climate affected by advection. In ICID, 17th Congress on Irrigation and Drainage, Granada, Spain, 1999: Water for Agriculture in the Next Millennium - Transactions, Vol.1B, Q.48: Irrigation under conditions of water scarcity; Q.48.3: Conjunctive use of surface and groundwater; 48.4: Implication of water transfer schemes for agriculture; 48.5: Environmental implications of water scarcity conditions. New Delhi, India: ICID. pp.181-191.
Arid lands ; Climate ; Water use ; Mathematical models ; Simulation ; Irrigated farming ; Evapotranspiration ; Water demand / China / Yellow River / Tengkoli Desert
(Location: IWMI-HQ Call no: ICID 631.7 G000 ICI Record No: H025141)
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