Correction of in situ cosmogenic nuclide production rates for geomagnetic field intensity variations during the past 800,000 years

We present integrated relative production rates for cosmogenic nuclides in rock surfaces, which take into account reported variations of the geomagnet ic field intensity during the past 800,000 yr. The calculations are based o n the model simulating cosmic ray particle interactions with the Earth's at mosphere given by Masarik and Beer ["Simulation of particle fluxes and cosm ogenic nuclide production in the Earth's atmosphere," J. Geophys. Res. 104( D10), 12099-12111, 1999]. Corrections are nearly independent on altitude be tween sea level and at least 5000 m. The correction factors are essentially identical for all stable and radioactive cosmogenic nuclides with half-liv es longer thane a few hundred thousand years. At the equator, integrated pr oduction rates for exposure ages between similar to 40,000 to 800,000 yr ar e 10 to 12% higher than the present-day values, whereas at latitudes > 40 d egrees, geomagnetic, field intensity variations have hardly influenced in s itu cosmogenic nuclide production. Correction factors for in situ C-14 prod uction rates differ from those of longer-lived nuclides. They are always sm aller than similar to2% because the magnetic field intensity remained rathe r constant during, the past similar to 10 kyr, when the major fraction of t he C-14 extant today was produced. Copyright (C) 2001 Elsevier Science Ltd.