Controls of sediment dynamics on the Galician slope reconstructed from three sediment cores (GeoB11035-1, GeoB130206-1, GeoB13071-1)


Autoria(s): Bender, Vera Barbara; Hanebuth, Till J J; Mena, Anxo; Baumann, Karl-Heinz; Francés, Guillermo; von Dobeneck, Tilo
Cobertura

MEDIAN LATITUDE: 42.462135 * MEDIAN LONGITUDE: -9.705149 * SOUTH-BOUND LATITUDE: 42.171611 * WEST-BOUND LONGITUDE: -9.842500 * NORTH-BOUND LATITUDE: 42.808167 * EAST-BOUND LONGITUDE: -9.619833 * DATE/TIME START: 2006-08-31T14:31:00 * DATE/TIME END: 2008-06-14T15:47:00

Data(s)

05/06/2012

Resumo

Controls of sediment dynamics at the Galician continental slope (NW Iberia) during the past 30 ka were reconstructed from three new gravity cores (GeoB11035-1, 130206-1, 13071-1) based on sedimentological (e.g. sortable silt, IRD), micropalaeontological (e.g. coccoliths), geochemical (AMS 14C, XRF) and geophysical (e.g. magnetic susceptibility) diagnostics. The data are consistent with existing regional knowledge that, during marine isotope stages 3-1, variations in detrital input, marine productivity and sea level were the essential drivers of sediment availability on the slope, whereas deep-water current velocities controlled sediment deposition: (1) the period prior to 30 cal ka BP is characterized by minor but systematic variations in various proxies which can be associated with D-O cycles; (2) between 30 and 18 cal ka BP, high detrital input and steady slope-parallel currents led to constant sedimentation; (3) from the LGM until 10 cal ka BP, the shelf-transgressive sea-level rise increased the detrital particle flux; sedimentation was influenced by significantly enhanced deep-water circulation during the Bølling/Allerød, and subsequent slowing during the Younger Dryas; (4) an abrupt and lasting change to hemipelagic sedimentation at ca. 10 cal ka BP was probably due to Holocene warming and decelerated transgression; (5) after 5 cal ka BP, additional input of detrital material to the slope is plausibly linked to the evolution of fine-grained depocentres on the Galician shelf, this being the first report of this close shelf-slope sedimentary linkage off NW Iberia. Furthermore, there is novel evidence of the nowadays strong outer shelf Iberian Poleward Current becoming established at about 15.5 cal ka BP. The data also demonstrate that small-scale morphologic features and local pathways of sediment export from the neighbouring shelf play an important role for sediment distribution on the NW Iberian slope, including a hitherto unknown sediment conduit off the Ría de Arousa. By implication, the impact of local morphology on along- and down-slope sediment dynamics is more complex than commonly considered, and deserves future attention.

Formato

application/zip, 14 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.783579

doi:10.1594/PANGAEA.783579

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Bender, Vera Barbara; Hanebuth, Till J J; Mena, Anxo; Baumann, Karl-Heinz; Francés, Guillermo; von Dobeneck, Tilo (2012): Control of sediment supply, palaeoceanography and morphology on late Quaternary sediment dynamics at the Galician continental slope. Geo-Marine Letters, 32(4), 313-335, doi:10.1007/s00367-012-0282-2

Palavras-Chave #(63-10 µm) mean grain size; [cps/cps]; <4 µm; <63 µm; >150 µm; >1 mm; >63 µm; 0.729-0.688 µm; 0.772-0.729 µm; 0.818-0.772 µm; 0.866-0.818 µm; 0.917-0.866 µm; 0.972-0.917 µm; 1.029-0.972 µm; 1.090-1.029 µm; 1.155-1.090 µm; 1.223-1.155 µm; 1.296-1.223 µm; 1.372-1.296 µm; 1.454-1.372 µm; 1.540-1.454 µm; 1.631-1.540 µm; 1.728-1.631 µm; 1.830-1.728 µm; 1.939-1.830 µm; 10.292-9.716 µm; 1-0.5 mm; 10.902-10.292 µm; 102.92-97.163 µm; 11.548-10.902 µm; 12.232-11.548 µm; 12.957-12.232 µm; 125-63 µm; 13.725-12.957 µm; 14.538-13.725 µm; 15.399-14.538 µm; 150-63 µm; 16.312-15.399 µm; 17.278-16.312 µm; 18.302-17.278 µm; 19.387-18.302 µm; 1 sigma calibrated; 2.054-1.939 µm; 2.175-2.054 µm; 2.304-2.175 µm; 2.441-2.304 µm; 2.585-2.441 µm; 2.738-2.585 µm; 2.901-2.738 µm; 20.535-19.387 µm; 206-1; 21.752-20.535 µm; 23.041-21.752 µm; 24.406-23.041 µm; 25.852-24.406 µm; 250-125 µm; 27.384-25.852 µm; 29.007-27.384 µm; 3.073-2.901 µm; 3.255-3.073 µm; 3.447-3.255 µm; 3.652-3.447 µm; 3.868-3.652 µm; 30.726-29.007 µm; 32.546-30.726 µm; 34.475-32.546 µm; 36.517-34.475 µm; 38.681-36.517 µm; 4.097-3.868 µm; 4.340-4.097 µm; 4.597-4.340 µm; 4.870-4.597 µm; 40.973-38.681 µm; 43.401-40.973 µm; 45.973-43.401 µm; 48.697-45.973 µm; 5.158-4.870 µm; 5.464-5.158 µm; 5.788-5.464 µm; 500-250 µm; 51.582-48.697 µm; 54.639-51.582 µm; 57.876-54.639 µm; 6.131-5.788 µm; 6.494-6.131 µm; 6.879-6.494 µm; 61.306-57.876 µm; 63-10 µm sort silt; 63-4 µm; 64.938-61.306 µm; 68.786-64.938 µm; 7.286-6.879 µm; 7.718-7.286 µm; 72.862-68.786 µm; 77.179-72.862 µm; 8.175-7.718 µm; 8.660-8.175 µm; 81.752-77.179 µm; 86.596-81.752 µm; 9.173-8.660 µm; 9.716-9.173 µm; 91.728-86.596 µm; 97.163-91.728 µm; Age; AGE; Age, 14C AMS; Age, calibrated; Age, dated; Age, dated standard deviation; Age dated; Age model; Age std dev; Assigned age; Bartington MS2F spot sensor; C. braarudii; C. leptoporus; C. pelagicus; Ca/Fe; CaCO3; Calcidiscus leptoporus; Calcidiscus leptoporus sl; Calcium/Iron ratio; Calcium carbonate; Calculated; Center for Marine Environmental Sciences; Coccoliths; Coccoliths, other; Coccolith total abundance; Coccolithus braarudii; Coccolithus pelagicus; Cocco oth; Conventional; Counting; Counting, coccoliths; Depth; DEPTH, sediment/rock; E. huxleyi; Emiliania huxleyi; Event; F. profunda; Florisphaera profunda; Fritsch Analysette Sonic Sifter; G. ericsonii; G. flabellatus; G. muellerae; G. oceanica; GC; GeoB11035-1; GeoB130206-1; GeoB13071-1; Gephyrocapsa ericsonii; Gephyrocapsa muellerae; Gephyrocapsa oceanica; Gladiolithus flabellatus; Grain size, SEDIGRAPH 5100; Gravity corer; Helicosphaera spp.; Ice rafted debris; Intercept; IRD; kappa; Label; linear; MARUM; Mean silt s; N. pachyderma s; Neogloboquadrina pachyderma sinistral; Oolithotus spp.; POS342; POS366/3; Poseidon; Reference; Reference/source; Sample code/label; Sedimentation rate; Sed rate; Si/Ti; Silicon/Titanium ratio; Silt-Mean, sortable; Size fraction < 0.004 mm, clay; Size fraction < 0.063 mm, mud, pelite, silt+clay; Size fraction > 0.063 mm, sand; Size fraction > 0.150 mm; Size fraction > 1 mm, gravel; Size fraction 0.063-0.004 mm, silt; Size fraction 0.063-0.010 mm, sortable silt; Size fraction 0.125-0.063 mm, 3.0-4.0 phi, very fine sand; Size fraction 0.150-0.063 mm; Size fraction 0.250-0.125 mm, 2.0-3.0 phi, fine sand; Size fraction 0.500-0.250 mm, 1.0-2.0 phi, medium sand; Size fraction 0.729-0.688 µm; Size fraction 0.772-0.729 µm; Size fraction 0.818-0.772 µm; Size fraction 0.866-0.818 µm; Size fraction 0.917-0.866 µm; Size fraction 0.972-0.917 µm; Size fraction 1.000-0.500 mm, 0.0-1.0 phi, coarse sand; Size fraction 1.029-0.972 µm; Size fraction 1.090-1.029 µm; Size fraction 1.155-1.090 µm; Size fraction 1.223-1.155 µm; Size fraction 1.296-1.223 µm; Size fraction 1.372-1.296 µm; Size fraction 1.454-1.372 µm; Size fraction 1.540-1.454 µm; Size fraction 1.631-1.540 µm; Size fraction 1.728-1.631 µm; Size fraction 1.830-1.728 µm; Size fraction 1.939-1.830 µm; Size fraction 10.292-9.716 µm; Size fraction 10.902-10.292 µm; Size fraction 102.92-97.163 µm; Size fraction 11.548-10.902 µm; Size fraction 12.232-11.548 µm; Size fraction 12.957-12.232 µm; Size fraction 13.725-12.957 µm; Size fraction 14.538-13.725 µm; Size fraction 15.399-14.538 µm; Size fraction 16.312-15.399 µm; Size fraction 17.278-16.312 µm; Size fraction 18.302-17.278 µm; Size fraction 19.387-18.302 µm; Size fraction 2.054-1.939 µm; Size fraction 2.175-2.054 µm; Size fraction 2.304-2.175 µm; Size fraction 2.441-2.304 µm; Size fraction 2.585-2.441 µm; Size fraction 2.738-2.585 µm; Size fraction 2.901-2.738 µm; Size fraction 20.535-19.387 µm; Size fraction 21.752-20.535 µm; Size fraction 23.041-21.752 µm; Size fraction 24.406-23.041 µm; Size fraction 25.852-24.406 µm; Size fraction 27.384-25.852 µm; Size fraction 29.007-27.384 µm; Size fraction 3.073-2.901 µm; Size fraction 3.255-3.073 µm; Size fraction 3.447-3.255 µm; Size fraction 3.652-3.447 µm; Size fraction 3.868-3.652 µm; Size fraction 30.726-29.007 µm; Size fraction 32.546-30.726 µm; Size fraction 34.475-32.546 µm; Size fraction 36.517-34.475 µm; Size fraction 38.681-36.517 µm; Size fraction 4.097-3.868 µm; Size fraction 4.340-4.097 µm; Size fraction 4.597-4.340 µm; Size fraction 4.870-4.597 µm; Size fraction 40.973-38.681 µm; Size fraction 43.401-40.973 µm; Size fraction 45.973-43.401 µm; Size fraction 48.697-45.973 µm; Size fraction 5.158-4.870 µm; Size fraction 5.464-5.158 µm; Size fraction 5.788-5.464 µm; Size fraction 51.582-48.697 µm; Size fraction 54.639-51.582 µm; Size fraction 57.876-54.639 µm; Size fraction 6.131-5.788 µm; Size fraction 6.494-6.131 µm; Size fraction 6.879-6.494 µm; Size fraction 61.306-57.876 µm; Size fraction 64.938-61.306 µm; Size fraction 68.786-64.938 µm; Size fraction 7.286-6.879 µm; Size fraction 7.718-7.286 µm; Size fraction 72.862-68.786 µm; Size fraction 77.179-72.862 µm; Size fraction 8.175-7.718 µm; Size fraction 8.660-8.175 µm; Size fraction 81.752-77.179 µm; Size fraction 86.596-81.752 µm; Size fraction 9.173-8.660 µm; Size fraction 9.716-9.173 µm; Size fraction 91.728-86.596 µm; Size fraction 97.163-91.728 µm; Susceptibility, volume; Syracosphaera spp.; Ti/K; Tie point type/lab. Code; Titanium/Potassium ratio; Umbellosphaera spp.
Tipo

Dataset