The geomagnetic excursion recorded in the sediments of Lac St.Front (M
assif Central, France) is characterized by shallow and negative inclin
ations followed by a younger steep inclination interval (Vlag et al.,
1996). In the corresponding interval of the nearby Lac du Bouchet only
steep inclinations are found. Sedimentary records of the Mono Lake ex
cursion show similar inclination patterns; 'complete' records of this
excursion show a succession of a shallow by a steep inclination interv
al, while 'incomplete' records only show only steep inclinations (Coe
and Liddicoat, 1994). Due to a non-instantaneous acquisition of the re
manence, sedimentary records reflect only a smoothed geomagnetic signa
l. It will be shown that smoothing of a small low-intensity 'reversed'
interval embedded in a non-antipodal normal field interval may result
in records of a shallow inclination interval followed by a steep incl
ination interval, while further smoothing results in only steep inclin
ations. Realignment of magnetic grains by the stronger normal field ca
n also produce such records and may explain why such an unusual large
lock-in depth is required by the conventional smoothing model. Whateve
r the mechanism, the similarities between these synthetic records and
the excursional records of Lac St. Front-Lac du Bouchet and Mono Lake
suggest that the latter are more or less affected by vector addition o
f two non-antipodal directions.