Minimalizing Non-point Source Pollution Using a Cooperative Ion-Selective Electrode System for Estimating Nitrate Nitrogen in Soil

Rui Su; Junfeng Wu; Jiandong Hu; Liuzheng Ma; Shakeel Ahmed; Yanyan Zhang; Mukhtar Iderawumi Abdulraheem; Zephania Birech; Linze Li; Can Li; Wentao Wei

doi:10.3389/fpls.2021.810214

Minimalizing Non-point Source Pollution Using a Cooperative Ion-Selective Electrode System for Estimating Nitrate Nitrogen in Soil

Front Plant Sci. 2022 Jan 12:12:810214. doi: 10.3389/fpls.2021.810214. eCollection 2021.

Authors

Rui Su^{1

2

3}, Junfeng Wu¹, Jiandong Hu^{1

2

3}, Liuzheng Ma^{1

2

3}, Shakeel Ahmed^{1

2

3}, Yanyan Zhang^{1

2

3}, Mukhtar Iderawumi Abdulraheem^{1

2

3

4}, Zephania Birech⁵, Linze Li^{1

2

3}, Can Li^{1

2

3}, Wentao Wei^{1

2

3}

Affiliations

¹ Department of Electrical Engineering, Henan Agricultural University, Zhengzhou, China.
² Henan International Joint Laboratory of Laser Technology in Agriculture Sciences, Zhengzhou, China.
³ State Key Laboratory of Wheat and Maize Crop Science, Zhengzhou, China.
⁴ Department of Agricultural Science Education, Oyo State College of Education, Lanlate, Nigeria.
⁵ Department of Physics, University of Nairobi, Nairobi, Kenya.

Abstract

Nitrate nitrogen ( ${NO}_{3}^{-}$ -N) in the soil is one of the important nutrients for growing crops. During the period of precipitation or irrigation, an excessive ${NO}_{3}^{-}$ -N readily causes its leaching or runoff from the soil surface to rivers due to inaccurate fertilization and water management, leading to non-point source pollution. In general, the measurement of the ${NO}_{3}^{-}$ -N relies upon the laboratory-based absorbance, which is often time-consuming, therefore not suitable for the rapid measurements in the field directly. Ion-selective electrodes (ISEs) support the possibility of ${NO}_{3}^{-}$ -N measurement by measuring the nitrate ( ${NO}_{3}^{-}$ ) ions in soil quickly and accurately due to the high water solubility and mobility of ${NO}_{3}^{-}$ ions. However, such a method suffers from a complicated calibration to remove the influences caused by both temperature and other ions in the measured solution, thus limiting field use. In this study, a kind of all-solid ISE system combined with a temperature sensor and a pH electrode is proposed to automatically measure the concentrations of the ${NO}_{3}^{-}$ -N. In this study, a soil water content calibration function was established, which significantly reduces a relative error (RE) by 13.09%. The experimental results showed that the stabilization time of this electrode system was less than 15 s with a slope of -51.63 mV/decade in the linear range of 10^-5-10^-2.2 mol/L. Both the limit of detection of 0.5 ppm of the ${NO}_{3}^{-}$ -N and a relative SD of less than 3% were obtained together with the recovery rate of 90-110%. Compared with the UV-Vis spectroscopy method, a correlation coefficient (R ²) of 0.9952 was obtained. The performances of this all-solid ISE system are satisfied for measuring the ${NO}_{3}^{-}$ -N in the field.

Keywords: all-solid nitrate ion-selective electrodes; nitrate nitrogen; non-point source pollution; recovery rate; water content calibration function.