| Authors: |
Dettman, D. L. (Author)
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Flessa, K. W. (Author)
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Roopnarine, P. D. (Author)
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Schöne, Bernd Reinhard (Author)
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Goodwin, D. H. (Author)
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Title: |
The use of oxygen isotope variation in shells of estuarine mollusks as a quantitative record of seasonal and annual Colorado river discharge
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Source: |
Geochimica et cosmochimica acta. Bd. 68. H. 6. S. 1253 - 1263 |
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Year of publication: |
2004 |
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ISBN / ISSN: |
0016-7037 |
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DOI / URN: |
doi:10.1016/j.gca.2003.09.008
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Document type: |
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Journal article |  |
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Language: |
English |
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Open Access: |
— |
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Staff member: |
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Universität Mainz |
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Institution: |
Institut für Geowissenschaften |
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DDC subject area: |
Paleontology Paleozoology |
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DFG subject area: |
Geology and Palaeontology |
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ID: |
6217  |
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Abstract: |
We describe a new method for the calculation of river flow that uses the oxygen isotope composition of bivalve mollusk shells that grew in the river-water/seawater mixing zone of the Colorado River estuary. Sclerochronological techniques are used to identify tidally-induced, fortnight-scale bundles of daily growth increments within shell cross-sections. These fortnightly markers are used to establish a chronology for samples taken for delta(18)O analysis. A composite seasonal delta(18)O profile derived from five shells that grew in the absence of river-water flow is used as a baseline against which profiles of river-influenced shells are compared. Because this comparison is between matched fortnights within a year, the temperature of shell growth is likely to be very similar. The difference in delta(18)O between the river-influenced shell and the "no-flow" composite shell therefore represents the change in the delta(18)O of the water due to the presence of river water in the mixing zone. The river water end-member is also determined within a fortnightly context so that the change in the delta(18)O of mixing-zone water can be used to calculate the relative proportions of seawater and fresh-water. The fresh-water end-member is calculated from the delta(18)O of bivalves alive prior to the emplacement of dams and water diversions on the Colorado River. The marine end-member is based on direct measurements of the delta(18)O of northern Gulf of California water during times of no Colorado River flow. The system has been calibrated to absolute flow amounts using recent releases of known volume and rate. |
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Check availability: |
UB Online Catalogue: 0016-7037
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Mainz Cataloge Portal (includes FB 06): 0016-7037 |
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Electronic Journals Library (EZB): 0016-7037
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DOI / URN (doi:10.1016/j.gca.2003.09.008)
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