Skip to main content

Evaluation of canopy temperature based crop water stress index for deficit irrigation management of sugaar beet in semi-arid climate

King, B.A. and Tarkalson, D.D. and Bjorneberg, D.L. (2024) Evaluation of canopy temperature based crop water stress index for deficit irrigation management of sugaar beet in semi-arid climate. Applied Engineering in Agriculture. 40(1):95-110. 20 February 2024.

[img] Text
1772.pdf

Download (448kB)

Abstract

Sugar beet is an economically important crop in the semi-arid Intermountain Western U.S with seasonal water use ranging from 500 to 900 mm. Sugar beet is a deep-rooted crop in unrestricted soil profiles that can readily utilize stored soil water to reduce seasonal irrigation requirements. Effective use of stored soil water below 0.6 m requires precise irrigation scheduling and knowledge of soil water availability below 0.6 m, which is usually unavailable due to the labor and expense of soil water monitoring at deeper depths and uncertainty in effective rooting depth and soil water holding capacity. Deficit irrigation (DI) management of sugar beet using thermal-based crop water stress index (CWSI) has the potential to overcome soil water monitoring limitations and facilitate utilization of stored soil water to reduce seasonal irrigation requirements. The objective of the research summarized in this paper was to implement and evaluate the effect of automated DI scheduling of sugar beet, using three daily average CWSI thresholds (0.2, 0.35 and 0.55) on seasonal irrigation requirement, crop evapotranspiration, seasonal soil water depletion, root yield, estimated recoverable sugar (ERS) yield and water use efficiency compared to full irrigation. There were no significant differences in root and ERS yield between full irrigation and 0.2 CWSI DI treatment while seasonal ET was significantly decreased, seasonal soil water extraction was significantly increased, and seasonal irrigation depths were reduced 133 to 185 mm. Root and ERS yield water production functions were curvilinear with a downward concave. Root and ERS yield water use efficiencies were constant or increased slightly for crop evapotranspiration reductions up 85% of full irrigation evapotranspiration. The results indicate that irrigating when average daily CWSI sugar beet exceeds 0.2 is an effective means for mild deficit irrigation scheduling to reduce seasonal irrigation requirements with no significant effect on root and ERS yield.

Item Type: Article
NWISRL Publication Number: 1772
Subjects: Irrigation > Irrigation scheduling
Irrigated crops > Sugarbeet
Soil > Soil water (soil moisture)
Water > Evapotranspiration
Depositing User: Users 11 not found.
Date Deposited: 22 Feb 2024 16:38
Last Modified: 22 Feb 2024 16:38
Item ID: 1813
URI: https://eprints.nwisrl.ars.usda.gov/id/eprint/1813