Abstract
Phosphate is a key element affecting plant growth. Therefore, the accurate determination of phosphate concentration in hydroponic nutrient solutions is essential for providing a balanced set of nutrients to plants within a suitable range. This study aimed to develop a data fusion approach for determining phosphate concentrations in a paprika nutrient solution. As a conventional multivariate analysis approach using spectral data, partial least squares regression (PLSR) and principal components regression (PCR) models were developed using 56 samples for calibration and 24 samples for evaluation. The R2 values of estimation models using PCR and PLSR ranged from 0.44 to 0.64. Furthermore, an estimation model using raw electromotive force (EMF) data from cobalt electrodes gave R2 values of 0.58–0.71. To improve the model performance, a data fusion method was developed to estimate phosphate concentration using near infrared (NIR) spectral and cobalt electrochemical data. Raw EMF data from cobalt electrodes and principle component values from the spectral data were combined. Results of calibration and evaluation tests using an artificial neural network estimation model showed that R2 = 0.90 and 0.89 and root mean square error (RMSE) = 96.70 and 119.50 mg/L, respectively. These values are sufficiently high for application to measuring phosphate concentration in hydroponic solutions.
Highlights
Hydroponic cultivation is a method for growing plants in which nutrients can be efficiently supplied to crops in the form of mineral nutrient solutions
A calibration plot was created in the form of the Nikolsky–Eisenman equation, which shows the logarithmic relationship between the concentration and electrode electromotive force (EMF)
Around one minute was required for the sample measurement and five minutes were taken to clean the electrodes between samples
Summary
Hydroponic cultivation is a method for growing plants in which nutrients can be efficiently supplied to crops in the form of mineral nutrient solutions. This type of agriculture produces waste water containing large amounts of point source pollutants that are highly enriched in nitrate (400–1500 mg/L) and phosphorus (60–500 mg/L) [1,2]. The nutritional management of hydroponic solutions used for greenhouse cultivation is conducted on the basis of monitoring a solution’s pH and electrical conductivity (EC) [3,4,5]. One of the weakest aspects of Sensors 2019, 19, 2596; doi:10.3390/s19112596 www.mdpi.com/journal/sensors
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