Determination of Soil Physical Properties and Pre-Sowing Irrigation Depth from Electrical Resistivity, Moisture, and Salinity Measurements

Determination of Soil Physical Properties and Pre-Sowing Irrigation Depth from Electrical Resistivity, Moisture, and Salinity Measurements

Seeds require adequate soil moisture prior to planting, and pre-sowing irrigation depth (PSID) represents the optimum seed moisture level. This work proposes a new methodology to obtain soil physical properties and PSID, that includes the application of the electromagnetic profiling method (EMP) as...

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Bibliographic Details
Published in:Land (Basel) Vol. 12; no. 4; p. 877
Main Authors: Cordero-Vázquez, Christian Y., Delgado-Rodríguez, Omar, Cisneros-Almazán, Rodolfo, Peinado-Guevara, Héctor J.
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-04-2023
Subjects:
Agricultural land
Agriculture
Electrical resistivity
electromagnetic profiling
Environmental aspects
Field capacity
Fines
Irrigation
Irrigation water
Laboratories
Magnetic fields
Methods
Moisture effects
Physical properties
Planting
Porosity
pre-sowing irrigation depth
Properties
Ryjov’s theoretical model
Salinity
Salinity effects
Seeds
soil electrical resistivity
Soil moisture
Soil physical properties
Soil porosity
Soil properties
Soil salinity
Soils
Sowing
Sustainable use
Tomography
Transmitters
Variation
Mexico
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Summary:Seeds require adequate soil moisture prior to planting, and pre-sowing irrigation depth (PSID) represents the optimum seed moisture level. This work proposes a new methodology to obtain soil physical properties and PSID, that includes the application of the electromagnetic profiling method (EMP) as a fast and non-invasive technique. Soil electrical resistivity measurements obtained from an EMP survey are combined with soil moisture and salinity information as experimental input for the PetroWin program. The PetroWin program uses Ryjov’s theoretical model to determine fines content and porosity, and then, PSID values are determined. At the study site, variations in soil resistivity were controlled by variations in fines content and soil moisture, and not by variations in soil salinity. The rooting depth of the crops was limited by a soil thickness of 0.6 m. A PSID between 8 and 9 cm was determined for the site, resulting in a total water volume required of 5313 m3 to ensure that soil moisture reaches the field capacity. The proposed methodology constitutes an effective and efficient tool for the determination of the physical properties and irrigation parameters of agricultural soils and, consequently, for the sustainable use of irrigation water.
ISSN:2073-445X
2073-445X
DOI:10.3390/land12040877