Diester-Haass, Lieselotte; Müller, Peter J (1979): Sedimentology and geochemistry of the sand fraction in surface sediments off West Africa [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.548466, Supplement to: Diester-Haass, L; Müller, PJ (1979): Processes influencing sand fraction composition and organic matter content in surface sediments off W Africa (12-19°N). Meteor Forschungsergebnisse, Deutsche Forschungsgemeinschaft, Reihe C Geologie und Geophysik, Gebrüder Bornträger, Berlin, Stuttgart, C31, 21-48
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Abstract:
Surface sediments from 5 profiles between 30 and 3000 m water depth off W Africa (12-19° N) have been studied for their sand fraction composition and their total calcium carbonate and organic matter contents to evaluate the effect of climatic and hydrographic factors on actual sedimentation.
On the shelf and upper slope (< 500 m), currents prevent the deposition of significant amounts of fine-grained material. The sediments forming here are characterized by high sand contents (> 60 %; in most samples > 89 %), low organic carbon contents (in most samples < 0.8 %), high median diameters of the sand fraction (120-500 µm), and by a predominance of quartz and biogenic relict shells (most abundant: molluscs and bryozoans) in the sand fraction.
Median diameters of total sand fraction and of major biogenic sand fraction components (biogenic relict material, benthonic molluscs, benthonic and planktonic foraminifers) co-vary to some extent and show maximum values in 100-300 m water depth, reflectingthe sorting effect of currents (perhaps the northward flowing undercurrent). In this water depth, biogenic relict material is considerably enriched relative to wuartz, the second dominating sand fraction component on the shelf and upper slope, resulting in distinct calcium carbonate maxima of the bulk sediments. The influence of the undercurrent is also reflected in a northward transport of fine grained river load and perhaps in the distribution of the red stained, coarse silt and sand-size clay aggregates, which show maxima in 300-500 m water depth. They probably originate from tropical soils.
Abundant coarse red-stained quartz on the shelf off Cape Roxo (12-130° N) suggests a southward extension of last glacial dune fields to this latitude.
Below about 500 m water depth, current influence becomes negligible – as indicated by a strong decrease in sand content, a concomitant increase in sedimentary organic carbon contents (up to 2.5-3.5 %), and the occurence of high mica/quartz ratios in the sand fraction.
Downslope transport, presumably due to the bioturbation mechanism, is indicated by the presence of coarse shelf-borne particles (glauconite, relict shells) down to about 1000 m water depth.
The fine/coarse ratio (clay + silt/sand) of the sediments from water deoth > 500 m never exceed a value of 11 in northern latitudes (19° - 26° N), but shows distinct maxima, ranging from 50 to 120, at latitudes 18°, 17° 15°30', and 14° N in about 2000 m water depth. This distribution is attributed to the deposition of fine-grained river load at the continental slope between 18° and 14° N, brought into the sea by the Senegal and souther rivers and transported northward ny the undercurrent.
Strong calcium carbonate dissolution is indicated by the complete disappearance of pteropodes (aragonite) and high fragmentation of the planktoic foraminifers (calcite) in sediments from water depth > 300-600 m. Fragmentation ratios of planktonic foraminifers were found to depend on the organic carbon/carbonate ratios of the sediment suggesting that calcite dissolution at the sea bottom may also be significant in shelf and continental slope water depths if the organic matter/carbonate ratio of the surface sediment is high and the test remain long enough within the oxidizing layer on the top of the sulfate reduction zone.
The fact that in the region under study intensity and anual duration of upwelling decrease from north to south is neither reflected in the composition on the sand fraction (i.e. radiolarian and fish debris contents, radiolarian/planktonic foraminiferal ratios, benthos/plankton ratios of foraminifers), nor in the sedimentary organic carbon distribution. On the contrary, these parameters even show in comparable water depths a tendency for highest values in the south, partly because primary production rates remain high in the whole region, particularly on the shelf, due to the nutrient input by rivers in the south. In addition, several hydrographic, sedimentological and climatic factors severely affect their distribution – for example currents, dissolution, grain size composition, deposition of river load, and bulk sedimentation rats.
Project(s):
Coverage:
Median Latitude: 16.215806 * Median Longitude: -17.112362 * South-bound Latitude: 12.271167 * West-bound Longitude: -18.312667 * North-bound Latitude: 18.915833 * East-bound Longitude: -16.209167
Date/Time Start: 1975-01-01T00:00:00 * Date/Time End: 1977-02-18T00:00:00
Event(s):
GIK13213-1 * Latitude: 13.051667 * Longitude: -17.383000 * Date/Time: 1975-01-01T00:00:00 * Elevation: -48.0 m * Location: Atlantic Ocean * Campaign: VA-10/3 * Basis: Valdivia (1961) * Method/Device: Box corer (Reineck) (BCR)
GIK13214-1 * Latitude: 12.851000 * Longitude: -17.383167 * Date/Time: 1975-01-01T00:00:00 * Elevation: -40.0 m * Location: Atlantic Ocean * Campaign: VA-10/3 * Basis: Valdivia (1961) * Method/Device: Box corer (Reineck) (BCR)
GIK13215-1 * Latitude: 12.567667 * Longitude: -17.383667 * Date/Time: 1975-07-25T04:32:00 * Elevation: -32.0 m * Recovery: 0.23 m * Location: off West Africa * Campaign: VA-10/3 * Basis: Valdivia (1961) * Method/Device: Box corer (Reineck) (BCR)
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Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
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Datasets listed in this publication series
- Diester-Haass, L; Müller, PJ (1979): Calcium carbonate, organic carbon, and total nitrogen contents of surface sediments off West Africa (Table 2). https://doi.org/10.1594/PANGAEA.536209
- Diester-Haass, L; Müller, PJ (1979): Sand content and composition of sand fraction in surface sediments off West Africa (Table 1). https://doi.org/10.1594/PANGAEA.536207