2.10.10: Remote Sensing

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Ongoing research is investigating remote sensing as a possible method to determine θ_v for irrigation management. Generally speaking, this could include satellite remote sensing, airborne remote sensing (manned or unmanned aircraft), and proximal remote sensing (sensor placed near the crop). For above-ground, moving irrigation systems, proximal remote sensing can include sensors mounted on the irrigation system itself (e.g., mounted on the lateral of a center pivot). The primary advantage provided by remote sensing is the spatial dataset, allowing the user to quantify spatial patterns in soil water. The primary limitation is that measurement of θ_v with remote sensing is typically restricted to a shallow layer of soil at the soil surface (i.e., top 10 to 25 cm), which can be problematic if using irrigation to manage the entire root zone for deep-rooted crops (e.g., 100 cm). One proximal technology is the cosmicray neutron probe (Franz et al., 2015); ongoing research is estimating root zone θ_v based on shallow θ_v from the cosmic-ray neutron probe (Franz et al., 2020). Microwave remote sensing can also be used to estimate θ_v, with sensors mounted on a center pivot (Qiao et al., 2016). The Soil Moisture Active Passive (SMAP) satellite (U.S. National Aeronautics and Space Administration) and the Soil Moisture and Ocean Salinity (SMOS) satellite (European Space Agency) are examples of satellites which are used to produce soil water data products (AlYaari et al., 2019).

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