著者

飯尾 恒 吉田 繁樹 北村 立実 松本 俊一 黒田 久雄

出版者

公益社団法人 日本水環境学会

雑誌

水環境学会誌 (ISSN:09168958)

巻号頁・発行日

vol.42, no.4, pp.171-176, 2019 (Released:2019-07-10)

参考文献数

16

被引用文献数

1

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茨城県のレンコン出荷量は全国一位であり, 全国のレンコン収穫量, 出荷量の半分近くを占めている。茨城県土浦市手野地区はレンコン専作地帯で, 1995年から2015年にかけて日本で初めてハス田群で基盤整備を実施し, コンクリート畦畔整備や用排分離等を行った。本研究では基盤整備された手野地区において流出負荷量調査を行い, 基盤整備による流出負荷量の影響を調査した。ハス田群からの排出負荷量を検討した結果, SS, COD, TNは3月から4月にかけて最大の値を示し, その要因として石灰窒素施用, 基肥施肥の影響が考えられた。TPは土壌が嫌気状態になりやすい7月から8月にかけて最大の値を示した。一年間の差引負荷量は基盤整備前と比べ, SS, COD, TN, TP全てで増加し, その要因として用排分離を整備したことにより, 田越灌漑の沈殿効果が消失した影響が考えられた。

著者

黒田 久雄 神宮司 早織 林 暁嵐

出版者

一般社団法人 日本土壌肥料学会

雑誌

日本土壌肥料学会講演要旨集 63 (ISSN:02885840)

巻号頁・発行日

pp.132, 2017-09-05 (Released:2018-05-28)

著者

山本 富久 中曽根 英雄 黒田 久雄 加藤 亮

出版者

公益社団法人 日本水環境学会

雑誌

水環境学会誌 (ISSN:09168958)

巻号頁・発行日

vol.29, no.9, pp.561-564, 2006 (Released:2010-01-09)

参考文献数

31

被引用文献数

1

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We surveyed the water quality of irrigation reservoirs in a tea field catchment. The study area was located in Shizuoka Prefecture, Japan. Water in some of the reservoirs showed alkalinity because of the photosynthesis of aquatic plants. On the other hand, water in one irrigation reservoir showed acidity because of nitrogen fertilizer. The NO3-N concentration increased how many times owing to large runoff from a watershed when rainfall was strong and heavy accumulation. The Changes in NO3-N concentration were small throughout the season when was light rainfall. The average of NO3-N concentration in the irrigation reservoirs was about 5 mg·l-1.

著者

中曽根 英雄 山下 泉 黒田 久雄 加藤 亮

出版者

Japan Society on Water Environment

雑誌

水環境学会誌 = Journal of Japan Society on Water Environment (ISSN:09168958)

巻号頁・発行日

vol.23, no.6, pp.374-377, 2000-06-10

被引用文献数

10 16

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We found a special irrigation reservoir in which there are no algae, insects, or fish. Therefore, we have surveyed the water quality of an irrigation reservoir to find the reason for no living creatures. As the results of the survey, we found three factors such as high nitrate concentration, high aluminum concentration, and low pH value which will affect the lives of creatures in this irrigation reservoir. Among these three factors, the most important one is low pH in this irrigation reservoir. This low pH of the irrigation reservoir is derived from the overuse of nitrogen fertilizer at tea yards. About 1,000kg · ha^-1 · y^-1 of nitrogen fertilizer has been used to the tea yards for a long time. The remained nitrogen fertilizer which was not taken up by tea crop infiltrates through soils and enters into the ground water. This causes an over the Cation Exchange Capacity of soil and high aluminum concentration of this irrigation reservoir. To prevent this phenomenon from occurring, dozing lime under the root zone and reducing use of nitrogen fertilizer might be effective.

著者

山本 富久 中曽根 英雄 松沢 康宏 黒田 久雄 加藤 亮

出版者

公益社団法人 日本水環境学会

雑誌

水環境学会誌 (ISSN:09168958)

巻号頁・発行日

vol.27, no.5, pp.329-336, 2004-05-10 (Released:2008-01-22)

参考文献数

27

被引用文献数

1 1

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The water quality and discharge from a tea field area in Shizuoka were measured daily and the outflow loads of fertilizer components in runoff water estimated. The results are as follows: The amount of nitrogen fertilizer applied was about 1000kg·ha-1·yr-1 in the tea field. The annual of T-N effluent load from the tea field was 531kg·ha-1·yr-1 and it was 49% of the amount nitrogen fertilizer applied. 97% of the T-N load was composed of the NO3-N load. Its outflow load, which consisted of storm water, was 51%. The outflow NO2-N and NH4-N loads were small in the first half of the investigation period. The T-P outflow load from the tea field was 0.18kg·ha-1·yr-1 and the leaching rate was very low, at 0.05%. Most of the phosphate fertilizer was absorbed by the red-yellow soil in the tea field. The average T-P concentration was as low as 0.01 mg·l-1. However, the T-P concentration was very high after heavy rain in June and September of 2000. Storm water had a T-P outflow load concentration of 64%. The K+ outflow load was estimated to be 89kg·ha-1 for the year. The leaching rate was 14%. The percentage was very low because K+ was absorbed by surface soil containing clay minerals. The annual Mg2+ and Ca2+ outflow loads were 292kg·ha-1·yr-1 and 266kg·ha-1·yr-1, respectively. Their leaching rates were 63% and 26%, respectively.

著者

山本 富久 中曽根 英雄 松沢 康宏 黒田 久雄 加藤 亮

出版者

公益社団法人 日本水環境学会

雑誌

水環境学会誌 (ISSN:09168958)

巻号頁・発行日

vol.28, no.6, pp.399-404, 2005-04-10 (Released:2008-01-22)

参考文献数

51

被引用文献数

1 1

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The study area was located in the Makinohara collective tea fields in Shizuoka, Japan. There are flourishing tea industries in this area. The quality and level of the groundwater were observed from Jun. 2002 to Sept. 2003 and examined on the basis of hydrogeology. The Makinohara plateau comprises of clay layers between gravel beds. It yielded discontinuous water qualities caused by perched water in a geological structure. The average concentrations of T-N and NO3-N in the surface water were 26.4 mg·l-1, 23.8mg·l-1, respectively. In contrast, for the groundwater, these concentrations were 17.2 mg·l-1 and 12.6 mg·l-1, respectively. The average concentrations of T-P were 0.012 mg·l-1 in the surface water and 0.022 mg·l-1 in the groundwater. This difference is caused by the dilution effect and release of phosphorus from on aquifer. The annual groundwater effluent loads of nitrogen and phosphorus from the catchments of the Makinohara plateau were 406 t·y-1 and 0.7 t·y-1, respectively.

著者

中曽根 英雄 山下 泉 黒田 久雄 加藤 亮

出版者

公益社団法人 日本水環境学会

雑誌

水環境学会誌 (ISSN:09168958)

巻号頁・発行日

vol.23, no.6, pp.374-377, 2000 (Released:2006-12-01)

参考文献数

10

被引用文献数

15 16

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We found a special irrigation reservoir in which there are no algae, insects, or fish. Therefore, we have surveyed the water quality of an irrigation reservoir to find the reason for no living creatures. As the results of the survey, we found three factors such as high nitrate concentration, high aluminum concentration, and low pH value which will affect the lives of creatures in this irrigation reservoir. Among these three factors, the most important one is low pH in this irrigation reservoir. This low pH of the irrigation reservoir is derived from the overuse of nitrogen fertilizer at tea yards. About 1,000kg · ha-1 · y-1 of nitrogen fertilizer has been used to the tea yards for a long time. The remained nitrogen fertilizer which was not taken up by tea crop infiltrates through soils and enters into the ground water. This causes an over the Cation Exchange Capacity of soil and high aluminum concentration of this irrigation reservoir. To prevent this phenomenon from occurring, dozing lime under the root zone and reducing use of nitrogen fertilizer might be effective.