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- Title
The measurement, prediction, and development of soil management zones in low-relief sodic soils.
- Authors
He, Yangbo; DeSutter, Thomas; Norland, Jack; Chatterjee, Amitava; Casey, Frank; Clay, David
- Abstract
Inexpensive, accurate, and rapid measurements of sodicity are required to identify the restoration options for degraded sites. This study determined the spatial variability of the percent of ammonium acetate extractable Na (%Na), apparent electrical conductivity (ECa), pH1:1, elevation and topographic wetness index, and used this information to create %Na management zones. In an 8.1 ha North Dakota field that contained Natraquolls and Calciaquolls, 1088 soil samples from the 0-0.3 and 0.3-0.6 m were collected from a 12.2 by 12.2 m geo-referenced grid. At each grid point, the elevation and ECa was determined using a differential corrected global positioning system and EM38m, respectively. Soil samples were analyzed for the %Na, EC1:1, pH1:1, and soil dispersion. Exponential semi-variogram models explained 96.7% of the ln-transformed %Na data in the 0-0.3 m soil depth, and %Na was correlated to EC1:1 (r = 0.54), pH1:1 (r = 0.68), clay dispersion (r = 0.68), ECav (r = 0.49), and ECah (r = 0.57). Forward stepwise regression models based on elevation, EC1:1, pH1:1, and ECah explained 64 and 74% of the %Na variability in the surface 0.3 m and subsurface 0.3-0.6 m, respectively. Management zones were identified that reduced the %Na variability up to 82%.
- Subjects
SOIL management; SPATIAL variation; ELECTRIC conductivity; SODIUM in soils; PERCENTAGE depth dose
- Publication
Precision Agriculture, 2018, Vol 19, Issue 5, p858
- ISSN
1385-2256
- Publication type
Article
- DOI
10.1007/s11119-018-9561-x