Effect of acute shade on the canopy morphology and evapotranspiration rates of three turfgrasses

Duan, Huanyun; Fontanier, Charles

doi:10.1002/its2.110

Intl Turfgrass Soc Res J

2022

DOI: 10.1002/its2.110

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Effect of acute shade on the canopy morphology and evapotranspiration rates of three turfgrasses

Huanyun Duan

Charles Fontanier

Abstract: Understanding the comparative evapotranspiration (ET) rates of commonly used turfgrass species in a shaded environment would improve irrigation scheduling recommendations and contribute towards urban water conservation. The objectives of this study were (a) to compare the ET rates of selected turfgrasses under two irradiance levels and (b) to determine if shade-induced changes in ET rates were related to changes in leaf morphology. An 8-wk greenhouse experiment was conducted in fall 2017 with 'Latitude 36 Turf… Show more

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2024

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Cited by 1 publication

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Effect of reduced irradiance on drought resistance of three turfgrasses

Duan,

Xiang,

Fontanier

2024

Intl Turfgrass Soc Res J

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Irrigation management of turfgrass under reduced irradiance can be complicated by interactions between reduced evaporative demand, shade tolerance, and competition for soil water from tree roots. A greenhouse study was conducted to understand how reduced irradiance influences the drought resistance of three turfgrasses. The turfgrasses used in this study were Falcon IV tall fescue [Schedonorus arundinaceus (Schreb.) Dumort., nom. cons.], OKC1119 (Latitude 36®) hybrid bermudagrass [Cynodon dactylon (L.) Pers. × Cynodon transvaalensis Burtt Davy], and Meyer Japanese lawngrass (Zoysia japonica Steud.). Plants were established in 15‐cm diameter lysimeters and subjected to two irradiance levels: shaded (55% nominal shade fabric) and non‐shaded (ambient greenhouse conditions with supplemental lights). Within each irradiance level, plants were subjected to either well‐watered conditions (daily replacement of evapotranspiration) or drought stress (no irrigation). Plants were assessed for leaf relative water content, visual leaf firing, water use rate, and dry root mass. The fraction of transpirable soil water (FTSW) was used to compare the break point where transpiration began to decline due to soil water stress. Transpiration began to decline at 48%–53% of FTSW under the non‐shaded environment. Irradiance intensity had no effect on the transpiration break point for tall fescue or Japanese lawngrass, while the break point was delayed (soil became drier) for hybrid bermudagrass. Results suggest reduced irradiance affects bulk surface resistances to transpiration (e.g., stomatal regulation) of turfgrasses under declining soil water differently for shade‐tolerant species and shade‐sensitive species.

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Effect of reduced irradiance on drought resistance of three turfgrasses

Duan,

Xiang,

Fontanier

2024

Intl Turfgrass Soc Res J

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Effect of acute shade on the canopy morphology and evapotranspiration rates of three turfgrasses

Cited by 1 publication

References 13 publications

Effect of reduced irradiance on drought resistance of three turfgrasses

Effect of reduced irradiance on drought resistance of three turfgrasses

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