COMPATIBILITY ANALYSIS OF THE SOIL CALCIUM CONTENT BY MULTIFREQUENCY EC SENSORS

János Horváth, L. Kátai, István Szabó
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Abstract

Nowadays in precision agriculture, the on-the-go measurement of soil nutrients is an important research topic in the sustainable nutrient management practices. Determining the nutrient content of soils and the judicious and site-specific replacement of missing mineral compounds of soil has a major impact on production costs in terms of current fertilizer prices. Soil sensors currently on the market can only determine total soil salinity. Therefore, selective soil salinity testing is only possible using laboratory methods. However, these methods are rather expensive, slow, and cumbersome. Growers often need faster and cheaper soil sampling process and immediate results. We believe that by developing measurement models of soil sensors, the data delivery process could be significantly shortened, so that measurement results could be processed and used even in real time. In this paper, we prove that electrical conductivity measurements can be a suitable tool for the determination of the selective salinity of soil. In our experiments, the calcium cation content of soil was measured by conductometry in laboratory conditions. In our model, we investigated the effect of a reasonable and well-considered variation of the measuring current frequency on the measurement output variable, i.e. the electrical conductivity (often abbreviated as EC) value. Our experiments have shown that with multi-frequency, solutions containing predetermined concentrations of Ca2+ ions, the EC obtained as an output parameter follows different functions.
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利用多频ec传感器对土壤钙含量进行兼容性分析
如今,在精准农业中,对土壤养分的即时测量是可持续养分管理实践中的一个重要研究课题。从目前的化肥价格来看,确定土壤中的养分含量,并根据具体地点对土壤中缺失的矿物质化合物进行合理补充,对生产成本有着重大影响。目前市场上的土壤传感器只能确定土壤的总盐分。因此,选择性土壤盐分检测只能通过实验室方法进行。然而,这些方法相当昂贵、缓慢且繁琐。种植者通常需要更快、更便宜的土壤采样过程和即时结果。我们相信,通过开发土壤传感器测量模型,可以大大缩短数据传输过程,甚至可以实时处理和使用测量结果。在本文中,我们证明电导率测量可以作为测定土壤选择性盐度的合适工具。在实验中,我们在实验室条件下通过电导测量法测量了土壤中的阳离子钙含量。在我们的模型中,我们研究了测量电流频率的合理变化对测量输出变量(即电导率(通常缩写为 EC)值)的影响。我们的实验表明,在多频率、含有预定浓度 Ca2+ 离子的溶液中,作为输出参数的导电率会遵循不同的函数。
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