Chinami Jikumaru scite author profile

Chinami Jikumaru

3Publications

4Citation Statements Received

45Citation Statements Given

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Affiliations

Kumamoto University

Publications

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Nitrogen Release from Sediments in Agricultural Drainage Canals

Jikumaru

Hama

Nagai

et al. 2015

J. of Wat. & Envir. Tech.

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Many water quality conservation measures have been implemented in agricultural areas to reduce pollutant loading. We investigated agricultural drainage canals in three paddy-field districts around Lake Biwa. In this paper, we focus on nitrogen (N) and organic carbon (C) released from the sediments in the drainage canals. We collected sediment cores and conducted an incubation experiment. We measured temporal change in concentrations of N and organic C in the overlying water of the sediments. As a result, we found that the nitrogen is released mainly as inorganic nitrogen (ammonium N). Ammonium N flux for each sediment sampled from St. 1, St. 2 and St. 3 was 24, 13, and 41 mg N/m 2 /d, respectively. Nitrogen was released from the sediments mainly in an inorganic state. The C/N ratio of the sediments was about 10 and almost constant during the incubation period. It is suggested that the fraction of organic decomposed in the sediments was small during the incubation experiment.

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Assessment of Phosphorus Buffering Capacity of Drainage Canal Sediments in Paddy-Field Districts

Hama

Iwasaki

Jikumaru

et al. 2015

J. of Wat. & Envir. Tech.

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Paddy-field areas are among the major non-point sources of phosphorus (P). Drainage canals can influence P concentration in drainage water because the sediments can absorb P and have large P buffering capacity. Assessment of the P buffering capacity and management of drainage canal sediments are important to reduce P effluent loadings from paddy-field areas. In this study, we investigated three paddy-field districts around Lake Biwa. Using adsorption and incubation experiments, we clarified the P adsorption and release characteristics of the sediments. The concentrations of total sedimentary P were highest in the surface layer of the sediments. The zero-equilibrium P concentrations of the sediments, estimated from the P adsorption experiment, varied widely among sites, and were similar to the peak concentrations of P released from the incubated sediments and the mean P concentrations in the drainage water (0.021 to 0.068 mgP/L). These results suggest that the sediments determine the concentrations of P in the overlying drainage water. Adsorption isotherms for dry sediments were described by a linear model with higher slope than wet sediments, indicating that drying drainage canals might enhance the P buffering capacity of sediments.

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Role of Organic Nitrogen and Carbon in Canal Sediments on Drainage Water in Paddy Fields

Hama

Nagai

Jikumaru

et al. 2016

J. of Wat. & Envir. Tech.

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In paddy fields, the drainage canal sediments can act as a pollutant source without proper management. The objective of this study is to evaluate the role of the sediments on the nitrogen (N) and organic carbon (C) concentrations in drainage water in paddy fields. Drainage canal sediments were sampled at three paddy-field districts around Lake Biwa and incubated for 28 days. Results of the experiments confirmed that the drainage canal sediments had enough potential as N and C sources. The sedimentary total N and C concentrations were 1.95 -3.38 and 21.1 -32.8 mg/kg, respectively. Nitrogen in the sediments existed mainly in the organic state. During the incubation experiment, large amounts of NH 4 -N were released from the sediments. Fluorescence peaks of humic-like substance had strong correlation with dissolved organic N and C in the overlying water on the incubated sediments. It can be concluded that large amounts of organic N in the sediments can be a long-term NH 4 -N source for the overlying drainage water through decomposition and release.

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