Sedimentology on cores from the Peru Basin


Autoria(s): Weber, Michael E; von Stackelberg, Ulrich; Marchig, Vesna; Wiedicke-Hombach, Michael; Grupe, B
Cobertura

MEDIAN LATITUDE: -6.806648 * MEDIAN LONGITUDE: -89.001653 * SOUTH-BOUND LATITUDE: -7.140167 * WEST-BOUND LONGITUDE: -90.518333 * NORTH-BOUND LATITUDE: -5.108333 * EAST-BOUND LONGITUDE: -85.372833 * DATE/TIME START: 1996-01-01T00:00:00 * DATE/TIME END: 1996-03-01T00:00:00

Data(s)

16/08/2000

Resumo

We investigated surficial sediments for physico-chemical composition from numerous sites of seven study areas in the manganese nodule field of the northern Peru Basin as part of a deep-sea environmental study. Major results from this study are strong variability with respect to water depth, productivity in surface waters, locality, bottom water flow, and seafloor topography. Sediment sites are located mostly in 3900 to 4300 m water depth between the lysocline and the carbonate compensation depth (CCD). Large fluctuations in carbonate content (0% to 80%) determine sediment density and compressional-wave velocity, and, by dilution, contents of opal and non-biogenic material. Mass accumulation rates of biogenic components as well as geochemical proxies (barium and phosphorus) distinguish areas of higher productivity in the northwest near equatorial upwelling and in the northeast close to coastal upwelling, from areas of lower productivity in the west and south. Comparisons between the central Peru Basin area (Discol) and western Peru Basin area (Sediperu) reveals, for the Sediperu area, a shallower CCD, more carbonate but less opal, organic carbon, and non-biogenic material in sediments at the same water depth as well as larger down-core fluctuations of organic carbon and MnO2. Bottom water flow in the abyssal hill topography causes winnowing of material from summits of seamounts and ridges, where organic carbon preservation is poor, to basins where organic carbon preservation is better. Down-core measurements in box cores indicate a three-fold division in the upper 50 cm of the sediment column. An uppermost semi-liquid top layer is dark brown, 5-15 cm thick and contains most of the ferro-manganese nodules. A 5-15 cm thick transition zone of light sediment color has increasing shear strength, lowest opal contents and compressional-wave velocities, but highest carbonate contents and sediment densities. The lowermost layer contains stiffer light gray sediments.

Formato

application/zip, 200 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.761568

doi:10.1594/PANGAEA.761568

Idioma(s)

en

Publicador

PANGAEA

Relação

Weber, Michael E (1998): Estimation of biogenic carbonate and opal by continuous non-destructive measurements in deep-sea sediments from the eastern equatorial Pacific. Deep Sea Research Part I: Oceanographic Research Papers, 45(11), 1955-1975, doi:10.1016/S0967-0637(98)00028-4

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Weber, Michael E; von Stackelberg, Ulrich; Marchig, Vesna; Wiedicke-Hombach, Michael; Grupe, B (2000): Variability of surface sediments in the Peru Basin: dependence on water depth, productivity, bottom water flow, and seafloor topography. Marine Geology, 163(1-4), 169-184, doi:10.1016/S0025-3227(99)00103-6

Palavras-Chave #178KG; 179KG; 183KG; 185KG; 186KG; 188KG; 190KG; 193KG; 194KG; 197KG; 201MX; 202KG; 204KG; 207KG; 209KG; 210MX; 212KG; 215KG; 216KG; 220KG; 221KG; 223MX; 226KG; 227KG; 230KG; 231KG; 234KG; 236KG; 237KG; 242KG; 246KG; 247KG; 248KG; 252KG; 255KG; 260KG; 262KG; 264KG; 265KG; 277KG; 287KG; 290KG; 292KG; a*; ATESEPP; b*; Bartington MS2C coil sensor; BCR; Box corer (Reineck); CaCO3; Calcium carbonate; Calculated from weight/volume; Carbon, organic, total; Color, a*; Color, b*; Color, L*, lightness; Density, grain; Density grain; Depth; DEPTH, sediment/rock; Element analyser CHN, LECO; Element analysis (Klosa, 1994); kappa; L*; MAXC; MaxiCorer; Multi-Sensor Core Logger/colorscan/scion image; SO106/1; SO106/1_1516KG; SO106/1_1518KG; SO106/1_16KG; SO106/1_178KG; SO106/1_178KG2; SO106/1_179KG; SO106/1_183KG; SO106/1_183KG2; SO106/1_185KG; SO106/1_186KG; SO106/1_188KG; SO106/1_190KG; SO106/1_193KG; SO106/1_194KG; SO106/1_197KG; SO106/1_201MX; SO106/1_202KG; SO106/1_204KG; SO106/1_207KG; SO106/1_209KG; SO106/1_210MX; SO106/1_212KG; SO106/1_215KG; SO106/1_216KG; SO106/1_220KG; SO106/1_221KG; SO106/1_223KG; SO106/1_223MX; SO106/1_226KG; SO106/1_227KG; SO106/1_230KG; SO106/1_231KG; SO106/1_234KG; SO106/1_236KG; SO106/1_237KG; SO106/1_242KG; SO106/1_53KG; SO106/1_88KG; SO106/2; SO106/2_246KG; SO106/2_247KG; SO106/2_248KG; SO106/2_252KG; SO106/2_255KG; SO106/2_260KG; SO106/2_262KG; SO106/2_264KG; SO106/2_265KG; SO106/2_277KG; SO106/2_287KG; SO106/2_290KG; SO106/2_292KG; SO106/2_515KG; SO106/2_537KG; SO106/2_556KG; SO106/2_558KG; SO106/2_563KG; Sonne; Spectrophotometer Minolta CR-300; Susceptibility, volume; TOC
Tipo

Dataset