A Simple Procedure for Evaluating Global Cosmogenic 14C Production in the Atmosphere Using Neutron Monitor Data

Abstract

Radiocarbon (¹⁴C) produced by cosmogenic processes in the atmosphere reacts rapidly with atomic oxygen to form ¹⁴CO. The primary sink for this species is oxidation by the OH radical, the single most important oxidation mechanism for pollutants in the atmosphere. Hence, knowledge of the spatial and temporal distribution of ¹⁴CO allows important inferences to be made about atmospheric transport processes and the distribution of OH. Because the chemical lifetime of ¹⁴CO against OH attack is relatively short, 1–3 months, its distribution in the atmosphere should show modulations due to changes in ¹⁴C production caused by variations in the solar cycle. In this work we present a simple methodology to provide a time series of global ¹⁴C production to help interpret time series of atmospheric ¹⁴CO measurements covering the whole of solar cycle 23. We use data from neutron monitors, a readily available proxy for global ¹⁴C production, and show that an existing 6-year time series of ¹⁴CO data from Baring Head, New Zealand, tracks changes in global ¹⁴C production at the onset of solar cycle 23.