Deuterium excess and 17O-excess variability in meteoric water across the Pacific Northwest, USA. Issue 1 (1st January 2020)
- Record Type:
- Journal Article
- Title:
- Deuterium excess and 17O-excess variability in meteoric water across the Pacific Northwest, USA. Issue 1 (1st January 2020)
- Main Title:
- Deuterium excess and 17O-excess variability in meteoric water across the Pacific Northwest, USA
- Authors:
- Bershaw, John
Hansen, Dougal D.
Schauer, Andrew J. - Abstract:
- Abstract: High-precision triple oxygen isotope analysis of water has given rise to a novel second-order parameter, 17 O-excess (often denoted as Δ 17 O), which describes the deviation from a reference relationship between δ 18 O and δ 17 O. This tracer, like deuterium excess (d-excess), is affected by kinetic fractionation (diffusion) during phase changes within the hydrologic cycle. However, unlike d-excess, 17 O-excess is present in paleowater proxy minerals and is not thought to vary significantly with temperature. This makes it a promising tool in paleoclimate research, particularly in relatively arid continental regions where traditional approaches have produced equivocal results. We present new δ 18 O, δ 17 O, and δ 2 H data from stream waters along two east–west transects in the Pacific Northwest to explore the sensitivity of 17 O-excess to topography, climate, and moisture source. We find that discrepancies in d-excess and 17 O-excess between the Olympic Mountains and Coast Range are consistent with distinct moisture source meteorology, inferred from air-mass back trajectory analysis. We suggest that vapor d-excess is affected by relative humidity and temperature at its oceanic source, whereas 17 O-excess vapor is controlled by relative humidity at its oceanic source. Like d-excess, 17 O-excess is significantly affected by evaporation in the rain shadow of the Cascade Mountains, supporting its utility as an aridity indicator in paleoclimate studies where δ 2 H dataAbstract: High-precision triple oxygen isotope analysis of water has given rise to a novel second-order parameter, 17 O-excess (often denoted as Δ 17 O), which describes the deviation from a reference relationship between δ 18 O and δ 17 O. This tracer, like deuterium excess (d-excess), is affected by kinetic fractionation (diffusion) during phase changes within the hydrologic cycle. However, unlike d-excess, 17 O-excess is present in paleowater proxy minerals and is not thought to vary significantly with temperature. This makes it a promising tool in paleoclimate research, particularly in relatively arid continental regions where traditional approaches have produced equivocal results. We present new δ 18 O, δ 17 O, and δ 2 H data from stream waters along two east–west transects in the Pacific Northwest to explore the sensitivity of 17 O-excess to topography, climate, and moisture source. We find that discrepancies in d-excess and 17 O-excess between the Olympic Mountains and Coast Range are consistent with distinct moisture source meteorology, inferred from air-mass back trajectory analysis. We suggest that vapor d-excess is affected by relative humidity and temperature at its oceanic source, whereas 17 O-excess vapor is controlled by relative humidity at its oceanic source. Like d-excess, 17 O-excess is significantly affected by evaporation in the rain shadow of the Cascade Mountains, supporting its utility as an aridity indicator in paleoclimate studies where δ 2 H data are unavailable. We use a raindrop evaporation model and local meteorology to investigate the effects of subcloud evaporation on d-excess and 17 O-excess along altitudinal transects. We find that subcloud evaporation explains much, but not all of observed increases in d-excess with elevation and a minor amount of 17 O-excess variation in the Olympic Mountains and Coast Range of Oregon. Key Points: 17 O-excess correlates spatially with relative humidity across the Pacific Northwest, supporting its use as an aridity indicator in paleoclimate studies. Discrepancies in d-excess and 17 O-excess between the Olympic Mountains and Oregon Coast Range suggest that their moisture source is different. Subcloud evaporation explains most of observed increases in d-excess with elevation, and a minor amount of 17 O-excess variation in the Olympic Mountains and Oregon Coast Range. … (more)
- Is Part Of:
- Tellus. Volume 72:Issue 1(2020)
- Journal:
- Tellus
- Issue:
- Volume 72:Issue 1(2020)
- Issue Display:
- Volume 72, Issue 1 (2020)
- Year:
- 2020
- Volume:
- 72
- Issue:
- 1
- Issue Sort Value:
- 2020-0072-0001-0000
- Page Start:
- 1
- Page End:
- 17
- Publication Date:
- 2020-01-01
- Subjects:
- stable isotopes -- meteoric water -- Pacific Northwest -- climate -- atmospheric circulation -- hydrologic cycle
Atmospheric chemistry -- Periodicals
Atmospheric physics -- Periodicals
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Air -- Pollution -- Meteorological aspects -- Periodicals
Chimie de l'atmosphère -- Périodiques
Météorologie physique -- Périodiques
Météorologie -- Périodiques
Air -- Pollution -- Meteorological aspects
Atmospheric chemistry
Atmospheric physics
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Chimie de l'atmosphère
Météorologie physique
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551.505 - Journal URLs:
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http://www.ingenta.com/journals/browse/mksg/teb ↗
http://firstsearch.oclc.org ↗
http://firstsearch.oclc.org/journal=0280-6509;screen=info;ECOIP ↗
http://search.ebscohost.com/login.aspx?direct=true&db=a9h&jid=HYW&site=ehost-live ↗
http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1600-0889 ↗
https://www.tandfonline.com/toc/zelb20/current ↗
http://onlinelibrary.wiley.com/ ↗ - DOI:
- 10.1080/16000889.2020.1773722 ↗
- Languages:
- English
- ISSNs:
- 0280-6509
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- Legaldeposit
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