Atmospheric distribution of 85 Kr simulated with a general circulation model

A three-dimensional chemical tracer model for the troposphere is used to simulate the global distribution of 85Kr, a long-lived radioisotope released at northern mid-latitudes by nuclear industry. Simulated distributions for the period 1980–1983 are in excellent agreement with data from six latitudi...

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Bibliographic Details
Published in:Journal of Geophysical Research
Main Authors: Jacob, Daniel J, Prather, Michael J, Wofsy, Steven C, McElroy, Michael B
Format: Article in Journal/Newspaper
Language:English
Published: eScholarship, University of California 1987
Subjects:
Physical Sciences and Mathematics
krypton
atmosphere
geochemical cycles
meteorology and atmospheric dynamics
general circulation
Arctic
Pacific
Online Access:http://www.escholarship.org/uc/item/7bh4q444
Description
Summary:A three-dimensional chemical tracer model for the troposphere is used to simulate the global distribution of 85Kr, a long-lived radioisotope released at northern mid-latitudes by nuclear industry. Simulated distributions for the period 1980–1983 are in excellent agreement with data from six latitudinal profiles measured over the Atlantic. High concentrations of 85Kr are predicted over the Arctic in winter, advected from European sources, and somewhat smaller enhancements arising from the same sources are predicted over the tropical Atlantic in summer. Latitudinal gradients are steepest in the northern tropics, with distinctly different seasonal variations over the Pacific, as compared to the Atlantic. The global inventory of 85Kr is reconstructed for the period 1980–1983 by combining the concentrations measured over the Atlantic with the global distributions predicted by the model. The magnitude of the Soviet source is derived. The interhemispheric exchange time is calculated as 1.1 years, with little seasonal dependence.

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