2020
DOI: 10.1016/j.ufug.2020.126800
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Nocturnal sap flow is mainly caused by stem refilling rather than nocturnal transpiration for Acer truncatum in urban environment

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Cited by 15 publications
(43 citation statements)
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“…Wind speed affected the moisture movement around plant canopy (Fricke 2019 ) and thus influenced on nocturnal water loss (Chen et al 2020), which also could not be ignored. In this study, we found that wind speed was not a driving force in sap flow, whether during the daytime or nighttime, which is consistent with the result that wind speed had little effects on the nocturnal water loss by Wang et al 2018and Wu et al 2020. Rosado et al (2012 found strong positive relationships between VPD andQ n in woody species in rain forest and indicated that the E n was driven by atmospheric demand for water.…”
Section: Driving Force Of Nocturnal Sap Flow In Mangrovessupporting
confidence: 86%
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“…Wind speed affected the moisture movement around plant canopy (Fricke 2019 ) and thus influenced on nocturnal water loss (Chen et al 2020), which also could not be ignored. In this study, we found that wind speed was not a driving force in sap flow, whether during the daytime or nighttime, which is consistent with the result that wind speed had little effects on the nocturnal water loss by Wang et al 2018and Wu et al 2020. Rosado et al (2012 found strong positive relationships between VPD andQ n in woody species in rain forest and indicated that the E n was driven by atmospheric demand for water.…”
Section: Driving Force Of Nocturnal Sap Flow In Mangrovessupporting
confidence: 86%
“…Growing evidence has suggested that in some plants the stomata remained open or partially open at night (Gindel, 1970;Caird et al, 2007;Fisher et al, 2007;Zhao et al, 2017), and that incomplete stomata closure provides the structure basic for nocturnal transpiration. Vapor pressure deficit (VPD) has been identified in some studies as the most crucial environmental driver of nocturnal transpiration (Fisher et al, 2007;Dawson et al, 2007;Wu et al, 2020;Zeppel et al, 2014). Other studies reported negative (Bucci et al, 2004) or negligible effects (Barbour et al, 2005) of VPD on nocturnal stomata.…”
Section: Introductionmentioning
confidence: 99%
“…The xylem water column generates tension and a large amount of water enters the roots; the water enters the tree in a passive way. The sap flow at night was caused by root water potential, and water was actively absorbed into the tree to replace the water lost by daytime transpiration ( Wu et al, 2020 ). In addition, the sap flow is more active in the first half of the night than that in the second half of the night.…”
Section: Discussionmentioning
confidence: 99%
“…However, studies on daytime sap flow in trees have mainly been carried out in plantations. The lack of information and studies on the diurnal sap flow of urban landscape trees has led to the underestimation of plant water consumption and subsequent decline in their growth and longevity ( Wu et al, 2020 ). Therefore, the common green tree species of F. pennsylvanica found in North China is used as the research object of this study to investigate diurnal sap flow change patterns.…”
Section: Introductionmentioning
confidence: 99%
“…There were no significant interactive effects on sap flow rates for trees exposed to both elevated temperatures and elevated CO 2 levels, suggesting that temperature plays a dominant role on sap flow 18 . Finally, it has been reported that stem-stored water can provide for sap flow following over-night re-filling 20 , 21 . This phenomenon could potentially affect the influence of RH on sap flow during the hours of early morning such that there could be a time-lag between sap flow and effects of RH.…”
Section: Introductionmentioning
confidence: 99%