The role of paddy rice in recharging urban groundwater in the Shira River Basin

Agricultural fields in the middle Shira River basin play an important role as a source of groundwater recharge; however, the water balance between the agricultural water and river water is unclear. This study was conducted to investigate the water balance in the fields by measuring the stream flow o...

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Published in	Paddy and water environment Vol. 8; no. 3; pp. 217 - 226
Main Authors	Tanaka, Kenji, Funakoshi, Yoshitaka, Hokamura, Takaomi, Yamada, Fumihiko
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer-Verlag 01.09.2010 Springer Nature B.V
Subjects	Agricultural land Agriculture Biomedical and Life Sciences Ecotoxicology Flow rates Freshwater Geoecology/Natural Processes Groundwater Groundwater recharge Hydrogeology Hydrology/Water Resources Infiltration rate Life Sciences Oryza sativa Rice Rice fields River basins River flow Rivers Soil Science & Conservation Stream discharge Stream flow Summer Urban areas Water balance Water budget Shira River Kumamoto Shira River Groundwater recharge Water balance Agricultural water
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Abstract	Agricultural fields in the middle Shira River basin play an important role as a source of groundwater recharge; however, the water balance between the agricultural water and river water is unclear. This study was conducted to investigate the water balance in the fields by measuring the stream flow of agricultural water channels, which draw water from the Shira River. The flow rate of water channels was found to increase in the beginning of May, which corresponded to the cultivation of paddy rice fields. During summer, the total agricultural intake was comparable to the river flow observed in the middle Shira River Basin. Determination of the water budget for the targeted area revealed that most of the recharged water was dependent on agricultural irrigation from the river. The annual recharge of the overall target area was estimated to be as high as 15,300 mm. In addition, the infiltration rate was as high as 170 mm/day in the paddy fields during summer, and as high as 30 mm/day in the upland fields during winter. In order to recover the groundwater recharge in this region, it is necessary to extend the submerged period to include periods in which the stream water in the Shira River is not subject to heavy rainfall as well.
AbstractList	Agricultural fields in the middle Shira River basin play an important role as a source of groundwater recharge; however, the water balance between the agricultural water and river water is unclear. This study was conducted to investigate the water balance in the fields by measuring the stream flow of agricultural water channels, which draw water from the Shira River. The flow rate of water channels was found to increase in the beginning of May, which corresponded to the cultivation of paddy rice fields. During summer, the total agricultural intake was comparable to the river flow observed in the middle Shira River Basin. Determination of the water budget for the targeted area revealed that most of the recharged water was dependent on agricultural irrigation from the river. The annual recharge of the overall target area was estimated to be as high as 15,300 mm. In addition, the infiltration rate was as high as 170 mm/day in the paddy fields during summer, and as high as 30 mm/day in the upland fields during winter. In order to recover the groundwater recharge in this region, it is necessary to extend the submerged period to include periods in which the stream water in the Shira River is not subject to heavy rainfall as well. Agricultural fields in the middle Shira River basin play an important role as a source of groundwater recharge; however, the water balance between the agricultural water and river water is unclear. This study was conducted to investigate the water balance in the fields by measuring the stream flow of agricultural water channels, which draw water from the Shira River. The flow rate of water channels was found to increase in the beginning of May, which corresponded to the cultivation of paddy rice fields. During summer, the total agricultural intake was comparable to the river flow observed in the middle Shira River Basin. Determination of the water budget for the targeted area revealed that most of the recharged water was dependent on agricultural irrigation from the river. The annual recharge of the overall target area was estimated to be as high as 15,300mm. In addition, the infiltration rate was as high as 170mm/day in the paddy fields during summer, and as high as 30mm/day in the upland fields during winter. In order to recover the groundwater recharge in this region, it is necessary to extend the submerged period to include periods in which the stream water in the Shira River is not subject to heavy rainfall as well. Agricultural fields in the middle Shira River basin play an important role as a source of groundwater recharge; however, the water balance between the agricultural water and river water is unclear. This study was conducted to investigate the water balance in the fields by measuring the stream flow of agricultural water channels, which draw water from the Shira River. The flow rate of water channels was found to increase in the beginning of May, which corresponded to the cultivation of paddy rice fields. During summer, the total agricultural intake was comparable to the river flow observed in the middle Shira River Basin. Determination of the water budget for the targeted area revealed that most of the recharged water was dependent on agricultural irrigation from the river. The annual recharge of the overall target area was estimated to be as high as 15,300 mm. In addition, the infiltration rate was as high as 170 mm/day in the paddy fields during summer, and as high as 30 mm/day in the upland fields during winter. In order to recover the groundwater recharge in this region, it is necessary to extend the submerged period to include periods in which the stream water in the Shira River is not subject to heavy rainfall as well.[PUBLICATION ABSTRACT]
Author	Tanaka, Kenji Funakoshi, Yoshitaka Hokamura, Takaomi Yamada, Fumihiko
Author_xml	– sequence: 1 givenname: Kenji surname: Tanaka fullname: Tanaka, Kenji email: ktanaka@gpo.kumamoto-u.ac.jp organization: Department of Civil and Environmental Engineering, Graduate School of Science and Technology, Kumamoto University – sequence: 2 givenname: Yoshitaka surname: Funakoshi fullname: Funakoshi, Yoshitaka organization: Department of Civil and Environmental Engineering, Graduate School of Science and Technology, Kumamoto University – sequence: 3 givenname: Takaomi surname: Hokamura fullname: Hokamura, Takaomi organization: Department of Civil and Environmental Engineering, Graduate School of Science and Technology, Kumamoto University – sequence: 4 givenname: Fumihiko surname: Yamada fullname: Yamada, Fumihiko organization: Department of Civil and Environmental Engineering, Graduate School of Science and Technology, Kumamoto University
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References	InoueKEvaluation of Bowen ratio and the climate-moderating index on agricultural land in clear summer dayJ Agric Meteorol20086415716610.2480/agrmet.64.3.1 Kumamoto Prefecture (2009) 1st Implementation plan for groundwater resource management, http://www.pref.kumamoto.jp/soshiki/48/dai1ki-koudoukeikaku.html (in Japanese). Last updated on 23 Feb 2009, last viewed on 28 Sep 2009 HashimotoSEvaluation of water quality and/or tasty drinking water and its application to Japanese watersJ Soc Heat Air-Cond Sanit Eng Jpn198963463468 Kondo J (ed) (1994) Hydrometeorology. Asakura Shoten, Tokyo, 368 pp Arai T (2004) Hydrology for regional analysis. Kokon Shoin Publishers, Tokyo, 309 pp Yabusaki S, Tase N, Haginoya S (2005) Consideration for the estimation methods of evapotranspiration at Terrestrial Environment Research Center, vol 6. Bulletin of the Terrestrial Environmental Research Center (TERC) University of Tsukuba, Japan, pp 45–51. HuangCCTsaiMHLinWTHoYFTanCHSungYLExperiences of water transfer from the agricultural to the non-agricultural sector in TaiwanPaddy Water Environ2007527127710.1007/s10333-007-0093-7 SuekaneAKayaneIResponse of groundwater table to rainfall in Kumamoto PlainGeogr Rev Jpn198053666671 TomiieKIwasaYMaedaKOtuzukiMYunoueTKakimotoRKawagoshiYPresent status and feature of groundwater contamination by nitrate-nitrogen in Kumamoto CityJ Water Environ Technol20097192910.2965/jwet.2009.19 RevineGBarkerRHuangCCWater transfer from agriculture to urban uses: lesson learned, with policy considerationsPaddy Water Environ2007521322210.1007/s10333-007-0092-8 Tsuru N, Akiyoshi H, Miyamoto H (2006) Groundwater pollution by nitrate-nitrogen in Kumamoto city, vol 14. Annual Report of Kumamoto City Environmental Research Institute, pp 59–67 MatsunoYHatchoNShindoSWater transfer from agriculture to urban domestic users: a case study of the Tone River Basin, JapanPaddy Water Environ2007523924610.1007/s10333-007-0087-5 Ministry of Land Infrastructure and Transportation (MLIT) (2002) River development project for Shira-River system, 61 pp Schilling KE, Jha MK, Zhang Y-K, Gassman PW, Wolter CF (2008) Impact of land use and land cover change on the water balance of a large agricultural watershed: historical effects and future directions. Water Resour Res 44 W00A09. doi: 10.1029/2007WR006644 TamuraTHashinoMTachibanaDParameter identification of runoff model using rainfall and water-level dataAnnu J Hydraul Eng JSCE200650355360 KiriyamaTIchikawaTPreservation of ground water basin recharging by paddy fieldAnnu J Hydraul Eng JSCE200448373378 YenBCTsaiCW-SOn noninertia wave versus diffusion wave in flood routingJ Hydrol20012469710410.1016/S0022-1694(00)00422-4 Van Liew MW, Schneider JM, Garbrecht JD (2003) Streamflow response of an agricultural watershed to seasonal changes in precipitation. In: Proceedings of the 1st interagency conference on research in the watersheds (ICRW), Oct. 27–30, 2003, United States Department of Agriculture (USDA) Takemori Y, Ichikawa T (2007) On effect of groundwater evaluation by keeping water in no use paddy field in the middle Shira-River Area, vol 34. Bulletin of School of Engineering, Kyushu Tokai University, Japan, pp 1–8 ShimotsuMGroundwater circulation system over west outer rim of Mt AsoJ Jpn Assoc Groundw Hydrol198729161170 Kumamoto Prefecture and Kumamoto City (2005) The investigation report on the mechanism of groundwater contamination by nitrate, Kumamoto, Japan 201_CR12 201_CR7 201_CR8 T Tamura (201_CR17) 2006; 50 201_CR20 201_CR6 201_CR10 201_CR21 201_CR1 T Kiriyama (201_CR5) 2004; 48 G Revine (201_CR11) 2007; 5 A Suekane (201_CR15) 1980; 53 K Tomiie (201_CR18) 2009; 7 S Hashimoto (201_CR2) 1989; 63 M Shimotsu (201_CR13) 1987; 29 K Inoue (201_CR4) 2008; 64 CC Huang (201_CR3) 2007; 5 201_CR16 BC Yen (201_CR22) 2001; 246 201_CR19 Y Matsuno (201_CR9) 2007; 5
References_xml	– reference: Arai T (2004) Hydrology for regional analysis. Kokon Shoin Publishers, Tokyo, 309 pp – reference: HashimotoSEvaluation of water quality and/or tasty drinking water and its application to Japanese watersJ Soc Heat Air-Cond Sanit Eng Jpn198963463468 – reference: MatsunoYHatchoNShindoSWater transfer from agriculture to urban domestic users: a case study of the Tone River Basin, JapanPaddy Water Environ2007523924610.1007/s10333-007-0087-5 – reference: TamuraTHashinoMTachibanaDParameter identification of runoff model using rainfall and water-level dataAnnu J Hydraul Eng JSCE200650355360 – reference: YenBCTsaiCW-SOn noninertia wave versus diffusion wave in flood routingJ Hydrol20012469710410.1016/S0022-1694(00)00422-4 – reference: Kumamoto Prefecture and Kumamoto City (2005) The investigation report on the mechanism of groundwater contamination by nitrate, Kumamoto, Japan – reference: Tsuru N, Akiyoshi H, Miyamoto H (2006) Groundwater pollution by nitrate-nitrogen in Kumamoto city, vol 14. Annual Report of Kumamoto City Environmental Research Institute, pp 59–67 – reference: ShimotsuMGroundwater circulation system over west outer rim of Mt AsoJ Jpn Assoc Groundw Hydrol198729161170 – reference: RevineGBarkerRHuangCCWater transfer from agriculture to urban uses: lesson learned, with policy considerationsPaddy Water Environ2007521322210.1007/s10333-007-0092-8 – reference: KiriyamaTIchikawaTPreservation of ground water basin recharging by paddy fieldAnnu J Hydraul Eng JSCE200448373378 – reference: Van Liew MW, Schneider JM, Garbrecht JD (2003) Streamflow response of an agricultural watershed to seasonal changes in precipitation. In: Proceedings of the 1st interagency conference on research in the watersheds (ICRW), Oct. 27–30, 2003, United States Department of Agriculture (USDA) – reference: SuekaneAKayaneIResponse of groundwater table to rainfall in Kumamoto PlainGeogr Rev Jpn198053666671 – reference: HuangCCTsaiMHLinWTHoYFTanCHSungYLExperiences of water transfer from the agricultural to the non-agricultural sector in TaiwanPaddy Water Environ2007527127710.1007/s10333-007-0093-7 – reference: Kumamoto Prefecture (2009) 1st Implementation plan for groundwater resource management, http://www.pref.kumamoto.jp/soshiki/48/dai1ki-koudoukeikaku.html (in Japanese). Last updated on 23 Feb 2009, last viewed on 28 Sep 2009 – reference: Yabusaki S, Tase N, Haginoya S (2005) Consideration for the estimation methods of evapotranspiration at Terrestrial Environment Research Center, vol 6. Bulletin of the Terrestrial Environmental Research Center (TERC) University of Tsukuba, Japan, pp 45–51. – reference: Takemori Y, Ichikawa T (2007) On effect of groundwater evaluation by keeping water in no use paddy field in the middle Shira-River Area, vol 34. Bulletin of School of Engineering, Kyushu Tokai University, Japan, pp 1–8 – reference: TomiieKIwasaYMaedaKOtuzukiMYunoueTKakimotoRKawagoshiYPresent status and feature of groundwater contamination by nitrate-nitrogen in Kumamoto CityJ Water Environ Technol20097192910.2965/jwet.2009.19 – reference: InoueKEvaluation of Bowen ratio and the climate-moderating index on agricultural land in clear summer dayJ Agric Meteorol20086415716610.2480/agrmet.64.3.1 – reference: Kondo J (ed) (1994) Hydrometeorology. Asakura Shoten, Tokyo, 368 pp – reference: Ministry of Land Infrastructure and Transportation (MLIT) (2002) River development project for Shira-River system, 61 pp – reference: Schilling KE, Jha MK, Zhang Y-K, Gassman PW, Wolter CF (2008) Impact of land use and land cover change on the water balance of a large agricultural watershed: historical effects and future directions. Water Resour Res 44 W00A09. doi: 10.1029/2007WR006644 – volume: 63 start-page: 463 year: 1989 ident: 201_CR2 publication-title: J Soc Heat Air-Cond Sanit Eng Jpn – ident: 201_CR12 doi: 10.1029/2007WR006644 – volume: 29 start-page: 161 year: 1987 ident: 201_CR13 publication-title: J Jpn Assoc Groundw Hydrol doi: 10.5917/jagh1987.29.161 – ident: 201_CR10 – volume: 53 start-page: 666 year: 1980 ident: 201_CR15 publication-title: Geogr Rev Jpn doi: 10.4157/grj.53.666 – volume: 5 start-page: 271 year: 2007 ident: 201_CR3 publication-title: Paddy Water Environ doi: 10.1007/s10333-007-0093-7 – volume: 64 start-page: 157 year: 2008 ident: 201_CR4 publication-title: J Agric Meteorol doi: 10.2480/agrmet.64.3.1 – volume: 5 start-page: 239 year: 2007 ident: 201_CR9 publication-title: Paddy Water Environ doi: 10.1007/s10333-007-0087-5 – volume: 5 start-page: 213 year: 2007 ident: 201_CR11 publication-title: Paddy Water Environ doi: 10.1007/s10333-007-0092-8 – ident: 201_CR16 – volume: 50 start-page: 355 year: 2006 ident: 201_CR17 publication-title: Annu J Hydraul Eng JSCE doi: 10.2208/prohe.50.355 – volume: 7 start-page: 19 year: 2009 ident: 201_CR18 publication-title: J Water Environ Technol doi: 10.2965/jwet.2009.19 – ident: 201_CR1 – ident: 201_CR7 – volume: 48 start-page: 373 year: 2004 ident: 201_CR5 publication-title: Annu J Hydraul Eng JSCE doi: 10.2208/prohe.48.373 – ident: 201_CR19 – ident: 201_CR8 – volume: 246 start-page: 97 year: 2001 ident: 201_CR22 publication-title: J Hydrol doi: 10.1016/S0022-1694(00)00422-4 – ident: 201_CR6 – ident: 201_CR21 – ident: 201_CR20
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SubjectTerms	Agricultural land Agriculture Biomedical and Life Sciences Ecotoxicology Flow rates Freshwater Geoecology/Natural Processes Groundwater Groundwater recharge Hydrogeology Hydrology/Water Resources Infiltration rate Life Sciences Oryza sativa Rice Rice fields River basins River flow Rivers Soil Science & Conservation Stream discharge Stream flow Summer Urban areas Water balance Water budget
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Title	The role of paddy rice in recharging urban groundwater in the Shira River Basin
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