How well could one predict the growth of a leafy crop from reflectance spectra from the soil and how might a grower manage the crop in the light of those predictions? Topsoil from two fields was sampled and analysed for various nutrients, particle-size distribution and organic carbon concentration. Crop measurements (lettuce diameter) were derived from aerial-imagery. Reflectance spectra were obtained in the laboratory from the soil in the near- and mid-infrared ranges, and these were used to predict crop performance by partial least squares regression (PLSR). Individual soil properties were also predicted from the spectra by PLSR. These estimated soil properties were used to predict lettuce diameter with a linear model (LM) and a linear mixed model (LMM): considering differences between lettuce varieties and the spatial correlation between data points. The PLSR predictions of the soil properties and lettuce diameter were close to observed values. Prediction of lettuce diameter from the estimated soil properties with the LMs gave somewhat poorer results than PLSR that used the soil spectra as predictor variables. Predictions from LMMs were more precise than those from the PLSR using soil spectra. All model predictions improved when the effects of variety were considered. Predictions from the reflectance spectra, via the estimation of soil properties, can enable growers to decide what treatments to apply to grow lettuce and how to vary their treatments within their fields to maximize the net profit from the crop.
How well could one predict the growth of a leafy crop from reflectance spectra from the soil and how might a grower manage the crop in the light of those predictions? Topsoil from two fields was sampled and analysed for various nutrients, particle-size distribution and pan class="Chemical">organic carbon concentration. Cropn> measurements (lettuce diameter) were derived from aerial-imagery. Reflectance spn>ectra were obtained in the laboratory from the soil in the near- and mid-infrared ranges, and these were used to predict cropn> performance by partial least squares regression (PLSR). Individual soil propn>erties were also predicted from the spn>ectra by PLSR. These estimated soil propn>erties were used to predict lettuce diameter with a linear model (LM) and a linear mixed model (LMM): considering differences between lettuce varieties and the spn>atial correlation between data points. The PLSR predictions of the soil propn>erties and lettuce diameter were close to observed values. Prediction of lettuce diameter from the estimated soil propn>erties with the LMs gave somewhat poorer results than PLSR that used the soil spn>ectra as predictor variables. Predictions from LMMs were more precise than those from the PLSR using soil spn>ectra. All model predictions impn>roved when the effects of variety were considered. Predictions from the reflectance spn>ectra, via the estimation of soil propn>erties, can enable growers to decide what treatments to apply to grow lettuce and how to vary their treatments within their fields to maximize the net profit from the cropn>.
Authors: Alan Bauer; Aaron George Bostrom; Joshua Ball; Christopher Applegate; Tao Cheng; Stephen Laycock; Sergio Moreno Rojas; Jacob Kirwan; Ji Zhou Journal: Hortic Res Date: 2019-06-01 Impact factor: 6.793
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