Obliquity-driven mountain permafrost-related fluvial magnetic susceptibility cycles
in the Quaternary mid-latitude long-term (2.5 Ma) fluvial Maros Fan in the Pannonian
Basin
Magnetic susceptibility (MS) of the Quaternary long-term mid-latitude Maros fluvial
fan (Pannonian Basin) was
recorded to understand the stratigraphical features of source-proximal fluvial depositional
settings. Three fully cored
500-m-deep boreholes were sampled at 0.5-m intervals; low-field and frequency dependent
MS were measured, and
complementary hysteresis and SEM-EDAX investigationswere performed on selected samples.
Logged susceptibility
data were also used to log correlations established by a simultaneous comparison of
wireline log and laboratory
measurements. Time-series analyses of the susceptibility records reveal a ∼41-ka and
∼100-ka cyclicity. Towards the
source-distal sections the intensity of the ∼41-ka cycles decreases, while that of
the ∼100-ka cycles remains strong.
Stratigraphical and spectral similarities were observed between the Maros fluvial
fan and Chinese loess records;
however, based on complementary magnetic data, the magnetic phase of the Maros Fan
sections is related to the
detrital magnetite that originates from the catchment during early postglacial permafrost
degradations. The
amplification of the ∼41-ka cycles can be attributed to the very high susceptibility
values in source-proximal settings
and to the special stratigraphical feature of the distributive fluvial systems. This
comprises the increased avulsion
frequency on the fluvial fans in ‘glacial recession periods’, in concert with the
‘early postglacial’ occurrence of the
permafrost-related magnetite originating from the catchment. As a local phenomenon,
this is significant since it
records the obliquity-driven variations in permafrost development in a catchment.
However, fluvial and alluvial fans
are widespread depositional landforms within the Eurasian mountain range and were
possibly the same during the
Quaternary deglaciations. Thus, obliquity-driven magnetic susceptibility variations
in source-proximal fan deposits
attached or adjacent to regions of loess deposition should also be considered when
scanning for potential source
material of aeolian deposits.