2017
DOI: 10.2134/cftm2017.04.0025
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Irrigation Water Management Practices that Reduce Water Requirements for Mid‐South Furrow‐Irrigated Soybean

Abstract: Withdrawal for agricultural uses has decreased water levels in the Mississippi Alluvial River Valley aquifer (MARVA), and Mississippi state regulators have responded by requiring withdrawal permits, establishing permitted withdrawal limits, and instituting required minimum levels of irrigation water use efficiency (IWUE) practices. The objective of this research was to determine the effect of integrating irrigation water management (IWM) practices-including computerized hole selection (CHS), surge flow irrigat… Show more

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Cited by 50 publications
(100 citation statements)
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“…Across the Mid‐Southern USA, furrow irrigators do not utilize computerized hole selection (CHS), a free computer program that improves irrigation application efficiency (Bryant et al, 2017). Traditionally, a single hole size is punctured in the poly‐tubing at every furrow for the entire length of the irrigation set.…”
Section: Useful Conversionsmentioning
confidence: 99%
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“…Across the Mid‐Southern USA, furrow irrigators do not utilize computerized hole selection (CHS), a free computer program that improves irrigation application efficiency (Bryant et al, 2017). Traditionally, a single hole size is punctured in the poly‐tubing at every furrow for the entire length of the irrigation set.…”
Section: Useful Conversionsmentioning
confidence: 99%
“…Uneven furrow advancement reduces irrigation application efficiency, which is compounded on irregularly shaped fields. Computerized hole selection improves irrigation application efficiency by considering the shape of the field, length of poly‐tubing, and elevation changes along the field crown (Bryant et al, 2017). Hole sizes are computed for each furrow to ensure partitioned furrow delivery based on head pressure, creating a more uniform advance pattern.…”
Section: Useful Conversionsmentioning
confidence: 99%
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“…There are no reports of soil moisture sensor‐based scheduling of peanuts in the literature. However, there is evidence that sensor‐based scheduling for crops other than peanuts, i.e., soybean and rice, improves yield, net returns above irrigation costs, and/or IWUE up to 2.6‐fold in the mid‐southern USA (Bryant et al, 2017; Atwill et al, 2018; Wood et al, 2017).…”
Section: Site Descriptionmentioning
confidence: 99%
“…Soil water tension was monitored by installing four Watermark 200SS soil moisture sensors (The Irrometer Co., Inc., Riverside, CA) in the second replication of the study in each treatment at depths of 6, 12, 24, and 36 inches. Furrow irrigation was applied through 15 inches by 9-mil lay-flat polyethylene tubing (Delta Plastics, Little Rock, AR) when the weighted average of the soil water tension over the 36-inch depth was at threshold (Bryant et al, 2017). As rooting depth would vary throughout the growing season, soil water tension values were averaged depending on the active rooting depth (Krutz, 2016 Washington, DC) (Kebede et al, 2014;Bryant et al, 2017) while the flow rate and application volumes were determined at the field inlet with an 8-inch McCrometer flow tube with attached McCrometer bolt-on saddle flowmeter (McCrometer Inc., Hemet, CA).…”
Section: Irrigation Managementmentioning
confidence: 99%