Monitoring of soil EC for the prediction of soil nutrient regime under different soil water and organic matter contents

IF 2.3 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY Applied Biological Chemistry Pub Date : 2024-01-03 DOI:10.1186/s13765-023-00849-4
Han Na Kim, Jin Hee Park
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Abstract

Smart farms and precision agriculture require automatic monitoring and supply of water and nutrients for crops, but sensors to monitor plant available nutrients in soil are not available. Soil electrical conductivity (EC) is related to nutrients in soil solution, which can be affected by soil organic matter, soil texture, temperature, and water content. Therefore, the objective of this study is to evaluate factors influencing soil EC sensor values by monitoring EC under different soil organic matter and water contents. Ten soil samples with various sand and clay contents, EC, pH, and organic matter contents were selected and saturated with water. Volumetric water content and EC of the soil were monitored while drying the soil. Humic acid and manure were added to soils in order to evaluate the effect of organic matter on soil EC. Soil EC values linearly increased with increasing water content at 10–25% which is favorable water content for plant growth. The EC increased when organic matter was added to soils, which was related to ions released from the organic matter. Soil EC calibration factor for soil water content increased when EC of the soil was high and organic matter was added. The sensor EC values in sandy loam and loam soils was related to the ion contents in pore water, and exchangeable ions in soil, respectively. Sensor EC values were highly correlated with organic matter and K contents in soil and can be used as an indicator for plant available nutrients in soil. Therefore, the sensor EC at optimal soil water content for plant growth can be used to monitor changes in plant available nutrients in soil.

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监测土壤导电率以预测不同土壤水分和有机质含量下的土壤养分状况
智能农场和精准农业需要自动监测和供应作物所需的水分和养分,但目前还没有监测土壤中植物可用养分的传感器。土壤导电率(EC)与土壤溶液中的养分有关,会受到土壤有机质、土壤质地、温度和含水量的影响。因此,本研究旨在通过监测不同土壤有机质和含水量下的导电率,评估影响土壤导电率传感器值的因素。研究人员选取了 10 个具有不同沙粒和粘土含量、导电率、pH 值和有机质含量的土壤样本,并将其加水至饱和状态。在干燥土壤的同时监测土壤的体积含水量和导电率。为了评估有机质对土壤导电率的影响,在土壤中添加了腐殖酸和粪肥。土壤导电率值随着含水量的增加而线性增加,在 10-25% 的含水量时,导电率值呈线性增加,而这一含水量对植物生长是有利的。土壤中添加有机物后,导电率增加,这与有机物释放的离子有关。当土壤导电率较高并添加有机物时,土壤含水量的土壤导电率校准因子会增加。沙壤土和壤土的传感器导电率值分别与孔隙水中的离子含量和土壤中的可交换离子有关。传感器导电率值与土壤中的有机质和钾含量高度相关,可作为土壤中植物可利用养分的指标。因此,植物生长所需的最佳土壤含水量下的传感器导电率可用来监测土壤中植物可利用养分的变化。
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来源期刊
Applied Biological Chemistry
Applied Biological Chemistry Chemistry-Organic Chemistry
CiteScore
5.40
自引率
6.20%
发文量
70
审稿时长
20 weeks
期刊介绍: Applied Biological Chemistry aims to promote the interchange and dissemination of scientific data among researchers in the field of agricultural and biological chemistry. The journal covers biochemistry and molecular biology, medical and biomaterial science, food science, and environmental science as applied to multidisciplinary agriculture.
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