Stable isotope compositions of waters in the Great Basin, United States 2. Modern precipitation

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Subscriber Access to Full Article (Nonsubscribers may purchase for $9.00, Includes print PDF, file size: 1409524 bytes) JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 107, NO. D19, 4401, doi:10.1029/2001JD000566, 2002 Stable isotope compositions of waters in the Great Basin, United States 2. Modern precipitation Irving Friedman U.S. Geological Survey, Denver, Colorado, USA George I. Smith U.S. Geological Survey, Menlo Park, California, USA Craig A. Johnson U.S. Geological Survey, Denver, Colorado, USA Richard J. Moscati U.S. Geological Survey, Denver, Colorado, USA Abstract Precipitation was collected between 1991 and 1997 at 41 locations within and adjacent to parts of the Great Basin lying in California, Oregon, Nevada, and Utah. These samples were analyzed for their deuterium (δD) and oxygen-18 (δ¹⁸O) contents. Separate collections were made of summer and winter season precipitation at stations ranging in elevation from –65 m to 3246 m. The δD per mil values of stations that were closely spaced but at different elevations showed an average δD decrease of approximately 10‰/km rise in elevation. Data for all samples representing winter precipitation, when plotted on a δD versus δ¹⁸O plot, fall close to the Meteoric Water Line (δD = 8 δ¹⁸O + 10); samples representing summer precipitation define a line of slightly lower slope due to evaporation of the raindrops during their passage from cloud to ground. Comparison of our 1991–1997 δD data with those from the same three stations reported by an earlier study in the southeastern California shows seasonal differences ranging from 0 per mil to 19‰ (average: 15) and annual differences ranging from 0 to 13 per mil (average: 2), illustrating the degree of annual and seasonal variability in this region. When contoured, the δD values display gradients indicating a north to northwest decrease in deuterium, with values ranging from −60 to −125‰ in winter precipitation and from −40 to −110‰ in summer precipitation. These gradient trends can be explained by the predominance of air mass trajectories originating in the tropical Pacific, the Gulf of California, and (in summer) the Gulf of Mexico. Published 12 October 2002. Index Terms: 0368 Atmospheric Composition and Structure: Troposphere—constituent transport and chemistry; 1040 Geochemistry: Isotopic composition/chemistry; 1854 Hydrology: Precipitation (3354). Subscriber Access to Full Article (Nonsubscribers may purchase for $9.00, Includes print PDF, file size: 1409524 bytes) Citation: Friedman, I., G. I. Smith, C. A. Johnson, and R. J. Moscati (2002), Stable isotope compositions of waters in the Great Basin, United States 2. Modern precipitation, J. Geophys. Res., 107(D19), 4401, doi:10.1029/2001JD000566. This paper is not subject to U.S. copyright. Published in 2002 by the American Geophysical Union.

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