TY - GEN
T1 - Use of GIS in prediction of soil electrical conductivity for water management against soil salinity
AU - Nakagawa, Tomoko
AU - Torii, Kiyoshi
AU - Akae, Takeo
AU - Kihara, Yasutaka
PY - 2005
Y1 - 2005
N2 - On Kawauchi Region on mouth of Yoshino River in Japan, which used to be a wetland, farm land has been developed by land reclamation. In this region, rice, lotus root and sweet potato are mainly cultivated. However because of the high salt concentration in groundwater due to seawater intrusion, crops are subjected to damage by salt. Especially in the paddy fields and lotus fields, salinity damage could be serious because of the fine texture of the soil and flooding surplus water for salt removal is practiced. To establish the most efficient management of irrigation water, water demand including water for salt removal has to be known. So in this study, we investigated the possibility of salinity damage in the fields by the measurement of electrical conductivity (EC) at a number of points that were considered to be critical for water quality management and the spatial distribution of EC was predicted with geostatistical analysis. The EC value in the groundwater was high in the area near the riparian and, in such areas surplus water for the salt removal was considered necessary. On the other hand, there were areas in paddy fields and lotus fields where the EC in the surface water was high regardless of the distance from the river. In such areas, irrigation water might contain salt and management of irrigation water had to be improved. By linking the prediction values of EC with the database of each plot, it is possible to propose methods for efficient water management and effective quality control of crops in a form that is easily understood by farmers.
AB - On Kawauchi Region on mouth of Yoshino River in Japan, which used to be a wetland, farm land has been developed by land reclamation. In this region, rice, lotus root and sweet potato are mainly cultivated. However because of the high salt concentration in groundwater due to seawater intrusion, crops are subjected to damage by salt. Especially in the paddy fields and lotus fields, salinity damage could be serious because of the fine texture of the soil and flooding surplus water for salt removal is practiced. To establish the most efficient management of irrigation water, water demand including water for salt removal has to be known. So in this study, we investigated the possibility of salinity damage in the fields by the measurement of electrical conductivity (EC) at a number of points that were considered to be critical for water quality management and the spatial distribution of EC was predicted with geostatistical analysis. The EC value in the groundwater was high in the area near the riparian and, in such areas surplus water for the salt removal was considered necessary. On the other hand, there were areas in paddy fields and lotus fields where the EC in the surface water was high regardless of the distance from the river. In such areas, irrigation water might contain salt and management of irrigation water had to be improved. By linking the prediction values of EC with the database of each plot, it is possible to propose methods for efficient water management and effective quality control of crops in a form that is easily understood by farmers.
KW - Deterioration of agriculture fields
KW - Geostatistical analysis
KW - Irrigation water
KW - Salinity
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M3 - Conference contribution
AN - SCOPUS:84866094622
SN - 9781604237511
T3 - Asian Association on Remote Sensing - 26th Asian Conference on Remote Sensing and 2nd Asian Space Conference, ACRS 2005
SP - 372
EP - 380
BT - Asian Association on Remote Sensing - 26th Asian Conference on Remote Sensing and 2nd Asian Space Conference, ACRS 2005
T2 - 26th Asian Conference on Remote Sensing, ACRS 2005 and 2nd Asian Space Conference, ASC
Y2 - 7 November 2005 through 11 November 2005
ER -
