Evapotranspiration and Quantitative Partitioning of Spring Maize with Drip Irrigation under Mulch in an Arid Region of Northwestern China

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Evapotranspiration and Quantitative Partitioning of Spring Maize with Drip Irrigation under Mulch in an Arid Region of Northwestern China

To examine evapotranspiration (ET<sub>c</sub>), soil evaporation (E<sub>s</sub>), and transpiration (T<sub>r</sub>), and partitioning of ET<sub>c</sub>, a two-year field experiment was carried out in a maize field with drip irrigation under mulch in an...

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Bibliographic Details
Main Authors:	Chenggong Xuan, Risheng Ding, Jie Shao, Yanshuo Liu
Format:	article
Language:	EN
Published:	MDPI AG 2021
Subjects:	evapotranspiration transpiration maize drip irrigation under mulch strategic deficit irrigation Hydraulic engineering TC1-978 Water supply for domestic and industrial purposes TD201-500
Online Access:	https://doaj.org/article/d16fefc008004477be6b3a4cf104b0e7
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Summary:	To examine evapotranspiration (ET<sub>c</sub>), soil evaporation (E<sub>s</sub>), and transpiration (T<sub>r</sub>), and partitioning of ET<sub>c</sub>, a two-year field experiment was carried out in a maize field with drip irrigation under mulch in an arid region of northwestern China in 2017 and 2018. In the experiment we designed two treatments with full irrigation (T1) and growth stage-based strategic regulated deficit irrigation (T2). The applied irrigation of T2 was 40% of the T1 during both late vegetative and reproductive growth stages. Based on the measurements of soil water content (SWC) and T<sub>r</sub>, a dual crop coefficient model (SIMDualK<sub>c</sub>) was calibrated and validated, and daily ET<sub>c</sub>, E<sub>s</sub>, and T<sub>r</sub> were estimated. The model can simulate well the dynamic variations of SWC and T<sub>r</sub>. The calibrated basic crop coefficient at the initial, mid-season, and end growth stages was 0.2, 1.15, and 0.75, respectively. The ET<sub>c</sub> was 507.9 and 519.1 mm for the T1 treatment, and 428.9 and 430.9 mm for the T2 treatment. The ratios of T<sub>r</sub> to ET<sub>c</sub> were higher for the two treatments, ~90%, for two years. Collectively, both drip irrigation under mulch and strategic deficit irrigation after canopy covering of the ground can significantly reduce the ineffective proportion of ET<sub>c</sub> and E<sub>s</sub>.