Journal
SOIL SYSTEMS
Volume 6, Issue 4, Pages -Publisher
MDPI
DOI: 10.3390/soilsystems6040089
Keywords
precision horticulture; proximal soil sensors; apparent soil electrical conductivity; SPOT satellite image; management zone; sensor combinations
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This study examines the within-field variations in wild blueberries and explores the potential of site-specific management (SSM) of nutrients. The results show that soil attributes and apparent soil electrical conductivity (ECa) have moderate to strong spatial dependence. Combining proximal and multispectral data can predict within-field variations of yield-determining soil properties and offer scenarios for SSM.
Wild blueberries (Vaccinium angustifolium Ait.) are often cultivated uniformly despite significant within-field variations in topography and crop density. This study was conducted to relate apparent soil electrical conductivity (ECa), topographic attributes, and multi-spectral satellite imagery to fruit yield and soil attributes and evaluate the potential of site-specific management (SSM) of nutrients. Elevation and ECa at multiple depths were collected from two experimental fields (referred as Field(Und), Field(Flat)) in Normandin, Quebec, Canada. Soil samples were collected at two depths (0-0.05 m and 0.05-0.15 m) and analyzed for a range of soil properties. Statistical analyses of fruit yield, soil, and sensor data were used to characterize within-field variability. Fruit yield showed large variability in both fields (CVUnd = 54.4%, CVFlat = 56.5%), but no spatial dependence. However, several soil attributes showed considerable variability and moderate to strong spatial dependence. Elevation and the shallowest depths of both the Veris (0.3 m) and DUALEM (0.54 m) ECa sensors showed moderate to strong spatial dependence and correlated significantly to most soil properties in both study sites, indicating the feasibility of SSM. In place of management zone delineation, a quadrant analysis of the shallowest ECa depth vs. elevation provided four sensor combinations (scenarios) for theoretical field conditions. ANOVA and Tukey-Kramer's post hoc test showed that the greatest differentiation of soil properties in both fields occurred between the combinations of high ECa/low elevation versus low ECa/high elevation. Vegetation indices (VIs) obtained from satellite data showed promise as a biomass indicator, and bare spots classified with satellite imagery in Field(Und) revealed significantly distinct soil properties. Combining proximal and multispectral data predicted within-field variations of yield-determining soil properties and offered three theoretical scenarios (high ECa/low elevation; low ECa/high elevation; bare spots) on which to base SSM. Future studies should investigate crop response to fertilization between the identified scenarios.
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