TY - JOUR
T1 - How environmental magnetism can enhance the interpretational value of grain-size analysis: A time-slice study on sediment export to the NW African margin in Heinrich Stadial 1 and Mid Holocene
AU - Razik, S.
AU - Dekkers, M.J.
AU - Von Dobeneck, T.
PY - 2014
Y1 - 2014
N2 - Sediment dynamics in limnic, fluvial and marine environments can be assessed by granulometric and rock-magnetic methodologies. While classical grain-size analysis by sieving or settling mainly bears information on composition and transport, the magnetic mineral assemblages reflect to a larger extent the petrology and weathering conditions in the sediment source areas. Here, we combine both methods to investigate Late Quaternary marine sediments from five cores along a transect across the continental slope off Senegal. This region near the modern summer Intertropical Convergence Zone is particularly sensitive to climate change and receives sediments from several aeolian, fluvial and marine sources. From each of the investigated five GeoB sediment cores (494-2956. m water depth) two time slices were processed which represent contrasting climatic conditions: the arid Heinrich Stadial 1 (~. 15 kyr BP) and the humid Mid Holocene (~. 6 kyr BP). Each sediment sample was split into 16 grain-size fractions ranging from 1.6 to 500. μm. Concentration and grain-size indicative magnetic parameters (susceptibility, SIRM, HIRM, ARM and ARM/IRM) were determined at room temperature for each of these fractions. The joint consideration of whole sediment and magnetic mineral grain-size distributions allows to address several important issues: (i) distinction of two aeolian sediment fractions, one carried by the north-easterly trade winds (40-63. μm) and the other by the overlying easterly Harmattan wind (10-20. μm) as well as a fluvial fraction assigned to the Senegal River (
AB - Sediment dynamics in limnic, fluvial and marine environments can be assessed by granulometric and rock-magnetic methodologies. While classical grain-size analysis by sieving or settling mainly bears information on composition and transport, the magnetic mineral assemblages reflect to a larger extent the petrology and weathering conditions in the sediment source areas. Here, we combine both methods to investigate Late Quaternary marine sediments from five cores along a transect across the continental slope off Senegal. This region near the modern summer Intertropical Convergence Zone is particularly sensitive to climate change and receives sediments from several aeolian, fluvial and marine sources. From each of the investigated five GeoB sediment cores (494-2956. m water depth) two time slices were processed which represent contrasting climatic conditions: the arid Heinrich Stadial 1 (~. 15 kyr BP) and the humid Mid Holocene (~. 6 kyr BP). Each sediment sample was split into 16 grain-size fractions ranging from 1.6 to 500. μm. Concentration and grain-size indicative magnetic parameters (susceptibility, SIRM, HIRM, ARM and ARM/IRM) were determined at room temperature for each of these fractions. The joint consideration of whole sediment and magnetic mineral grain-size distributions allows to address several important issues: (i) distinction of two aeolian sediment fractions, one carried by the north-easterly trade winds (40-63. μm) and the other by the overlying easterly Harmattan wind (10-20. μm) as well as a fluvial fraction assigned to the Senegal River (
KW - Environmental magnetism
KW - Grain-size analysis
KW - Aeolian sediment transport
KW - Senegal River
KW - Provenance
KW - Northwest Africa
U2 - 10.1016/j.palaeo.2014.04.009
DO - 10.1016/j.palaeo.2014.04.009
M3 - Article
SN - 0031-0182
VL - 406
SP - 33
EP - 48
JO - Palaeogeography, Palaeoclimatology, Palaeoecology
JF - Palaeogeography, Palaeoclimatology, Palaeoecology
ER -