Agrosystems, Geosciences & Environment (Jan 2022)

Soil moisture variability on golf course fairways across the United States: An opportunity for water conservation with precision irrigation

  • Chase Straw,
  • Connor Bolton,
  • Joseph Young,
  • Reagan Hejl,
  • Joshua Friell,
  • Eric Watkins

DOI
https://doi.org/10.1002/agg2.20323
Journal volume & issue
Vol. 5, no. 4
pp. n/a – n/a

Abstract

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Abstract Conventional golf course fairway irrigation relies on visual observation of the turfgrass, followed by secondary considerations of short‐term weather forecasts, which oftentimes lead to ‘blanket’ applications to an entire area. Precision irrigation may achieve water use reductions by irrigating only where, when, and in the amount needed. Technology can further enhance its application; for example, using global navigation satellite system (GNSS)‐equipped soil moisture sensors for creating fairway soil moisture maps to identify variability. However, research regarding soil moisture variability on fairways at golf courses that differ by climatic region and course characteristics is limited. The objective of this case study was to report fairway soil moisture variability findings from nine golf courses in eight states in the United States that completed a soil moisture mapping protocol during 2019–2022. Each course used a handheld GNSS‐equipped soil moisture device to collect georeferenced soil moisture (percentage volumetric water content [VWC]) data from seven to 14 of their fairways. Soil moisture variability was assessed through summary statistics, box and whisker plots, and spatial maps. The mean soil moisture on fairways across courses was 22.4–48.8% VWC, the range was 27.6–43.7% VWC, and the CV was 7.5–39.4%. Box and whisker plots and spatial maps of soil moisture aided in visualizing variability within and between fairways at all courses. Results suggest that golf course fairway soil moisture variability is inevitable regardless of climatic region and course characteristics, which further reiterates the need for advanced irrigation practices and technologies for water conservation via precision irrigation.