2019
DOI: 10.1002/hyp.13560
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Using stable isotopes to quantify water sources for trees and shrubs in a riparian cottonwood ecosystem in flood and drought years

Abstract: Riparian cottonwood forests in dry regions of western North America do not typically receive sufficient growing season precipitation to completely support their relatively high transpiration requirements. Water used in transpiration by riparian ecosystems must include alluvial groundwater or water stored in the potentially large reservoir of the unsaturated soil zone. We used the stable oxygen and hydrogen isotope composition of stem xylem water to evaluate water sources used by the dominant riparian cottonwoo… Show more

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Cited by 26 publications
(24 citation statements)
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References 57 publications
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“…The overarching contrast between the two is that, by definition, an obligate phreatophyte must remain in contact with groundwater at all times, whereas a facultative phreatophyte can extract water from both phreatic and vadose zones of the soil profile. Unlike obligate phreatophytes, the groundwater dependency of facultative phreatophytes may vary dramatically in both time and space (Snyder & Williams, ; Flanagan, Orchard, Tremel, & Rood, ). Some facultative phreatophytes are connected to groundwater throughout their life span but may only acquire a relatively small percentage of their water through groundwater sources.…”
Section: An Updated Definition Of a Phreatophytementioning
confidence: 99%
“…The overarching contrast between the two is that, by definition, an obligate phreatophyte must remain in contact with groundwater at all times, whereas a facultative phreatophyte can extract water from both phreatic and vadose zones of the soil profile. Unlike obligate phreatophytes, the groundwater dependency of facultative phreatophytes may vary dramatically in both time and space (Snyder & Williams, ; Flanagan, Orchard, Tremel, & Rood, ). Some facultative phreatophytes are connected to groundwater throughout their life span but may only acquire a relatively small percentage of their water through groundwater sources.…”
Section: An Updated Definition Of a Phreatophytementioning
confidence: 99%
“…For example, cottonwood trees were included among the first studies that demonstrated methane production in stem heartwood (Bushong, 1907; Zeikus & Ward, 1974; Wang et al ., 2016; Yip et al ., 2019). In addition, cottonwood trees rely on alluvial groundwater to supply a significant fraction of water for their transpiration requirements in these semi‐arid regions (Flanagan et al ., 2017, 2019; Yang et al ., 2019), and the alluvial groundwater may contain dissolved methane that could be released to the atmosphere during transpiration (Nesbit et al ., 2009; Covey & Megonigal, 2019). Finally, methane production and emission from a river (Stanley et al ., 2016) may interact with and influence ecosystem–atmosphere exchange processes in the adjacent riparian forest ecosystem, a topic considered in this study.…”
Section: Introductionmentioning
confidence: 99%
“…Flows of the LBR fell substantially through the 1920 summer but the exceptionally heavy spring rains would have saturated the river valley, reducing drought stress through that first growth season (Flanagan, Orchard, Tremel, & Rood, 2019). Flows of the LBR were generally around 1 m 3 /s throughout the 1921 growth season (not shown) and…”
Section: Woodland Colonization: Flood Eventsmentioning
confidence: 96%