Abstract
A rapid analysis ion-selective electrode (ISE) system for measurement of [NO3−] in nutrient solution (NS), soil solution (SS) and petiole sap (PS) was evaluated. For each material, there were 797–2010 samples from 5 to 6 different crops, and from 2 to 4 different species. Accuracy was evaluated by linear regression (LR) with laboratory analysis (automated colorimetry, Cd reduction), and by relative error (RE), the average percentage deviation from laboratory analysis. For NS, the LR was y = 0.982x + 0.76, R² = 0.962 (n = 2010), for combined data from 5 crops (3 pepper, 2 cucumber). For SS, the LR was y = 0.975x + 1.13, R² = 0.965 (n = 797), for combined data from 5 crops (3 pepper, 2 cucumber). For undiluted PS, the LR relationship was y = 0.742x + 168.02, R² = 0.892 (n = 1425), for combined data from 6 crops (3 pepper, 2 cucumber, 1 melon). The underestimation was most pronounced at [NO3−] of >1500 mg NO3−–N L−1. For diluted petiole sap (dilution by 10 for pepper and melon, 5 for other species), the LR relationship was y = 1.010x + 99.26, R² = 0.927 (n = 1182), for combined data from 6 crops (2 pepper, 2 cucumber, 1 melon, 1 tomato). RE values for all measurements in composite datasets were 14%, 22%, 24% and 25% for NS, SS, undiluted PS and diluted PS respectively, and they were lower in concentrations most likely to be measured in practical on-farm work. The ISE system measured [NO3−] in NS, SS and diluted PS with sufficient accuracy to effectively guide on-farm decision making.
Highlights
In recent decades, there has been a large rapid growth in the surface area of greenhouses and large plastic tunnels in regions such as the Mediterranean Basin and east Asia [1,2]
Soil solution and petioles sap were collected throughout various vegetable crops grown in soil, in greenhouses similar to those used for commercial vegetable production in southeast (SE) Spain, during the period 2010–2020
Accurate measurement of [NO3−] in soil solution was consistent with two studies using similar rapid analysis ion-selective electrode (ISE) systems. Both [32,33] reported linear regressions close to the one to one line with R2 values of 0.96 and 0.91 for 161 and 100 samples, respectively. The results of these and the current study demonstrate that these rapid analysis ISE systems can provide accurate measurement of the [NO3−] of soil solution extracted with ceramic cup suction samplers
Summary
There has been a large rapid growth in the surface area of greenhouses and large plastic tunnels in regions such as the Mediterranean Basin and east Asia [1,2]. The vast majority of these greenhouses crop in soil [2,3,6]. A low and variable percentage have free-draining substrate systems, and generally
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