Mineralogy of ODP Site 105-645


Autoria(s): Hiscott, Richard N; Aksu, Ali E; Nielsen, Ole Bjorslev
Cobertura

LATITUDE: 70.457550 * LONGITUDE: -64.654800 * DATE/TIME START: 1985-09-03T00:00:00 * DATE/TIME END: 1985-09-28T00:00:00

Data(s)

13/09/1989

Resumo

Cores from the upper 70 meters below seafloor (mbsf) (upper Pleistocene) at Ocean Drilling Program (ODP) Site 645 in Baffin Bay show dramatic meter-scale changes in color and mineralogy. Below this interval, mineralogical changes are more gradual to the top of the Miocene at about 550 mbsf. The Pliocene-Pleistocene section can be divided into five facies: Facies 1 - massive, poorly sorted, gravel-bearing muds; Facies 2 - gray silty clays and silty muds; Facies 3 - laminated detricarbonate silty muds; Facies 4 - silty sand and sandy silt; and Facies 5 - poorly sorted muddy sands and silty muds. Facies 4 and 5 are restricted to the Pliocene section below depths of about 275 mbsf. The mineralogical/color cycles in the upper 70 mbsf are the result of alternations between Facies 2 and three lithotypes of Facies 1: lithotype A - tan-colored, carbonate-rich, gravel-bearing mud; lithotype B - weak, red-colored, gravel-bearing mud rich in sedimentary rock fragments; and lithotype C - gray, gravel-bearing mud. A fourth lithotype, D, is restricted to depths of 168-275 mbsf and is dark gray, carbonate-poor, gravel-bearing mud. We believe that all lithotypes of Facies 1 and the sand and gravel fractions of Facies 2 and 3 were deposited by ice rafting. Depositional processes for Facies 4 and 5 probably include ice rafting and bottom- and turbidity-current transport. Data from petrographic analyses of light and heavy sand-sized grains and X-ray analyses of silt- and clay-size fractions suggest that tan-colored sediments (lithotype A of Facies 1; Facies 3) were derived mainly from Paleozoic carbonates of Ellesmere, Devon, and northern Baffin islands. Weak red sediments (lithotype B) contain significant red sedimentary clasts, reworked quartzarenite grains and clasts, and rounded colorless garnets, all derived from Proterozoic sequences of the Borden and Thule basins, and from minor Mesozoic red beds. Other sediments in the upper 335 mbsf at Site 645 contain detritus from a heterogeneous mixture of sources, including Precambrian shield terranes around Baffin Bay. Sediments from 335 to 550 mbsf (Facies 5) are rich in friable sedimentary clasts and detrital micas and contain glauconite and, in a few samples, reworked diatoms. These components suggest derivation from poorly consolidated Mesozoic-Tertiary sediments in coastal outcrops and beneath the modern shelves of northeastern Baffin Island and western Greenland. For the upper Pleistocene section (about 0-100 mbsf), marked mineralogical cyclicity is attributed to fluctuating glacial margins, calving rates, and iceberg melting rates, particularly around the northern end of Baffin Bay. Tan-colored, carbonate-rich units were derived at times of maximum advance of glaciers on Ellesmere and Devon islands, during relatively warm intervals induced by incursion of warm Atlantic surface water into the bay. At the beginning of these warmer episodes, most icebergs were contributed by glaciers near sea level around the Arctic channels, which resulted in deposition of weak red, ice-rafted units rich in Proterozoic sedimentary clasts.

Formato

application/zip, 5 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.745167

doi:10.1594/PANGAEA.745167

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Hiscott, Richard N; Aksu, Ali E; Nielsen, Ole Bjorslev (1989): Provenance and dispersal patterns, Pliocene-Pleistocene section at Site 645, Baffin Bay. In: Srivastava, SP; Arthur, M; Clement, B; et al. (eds.), Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 105, 31-52, doi:10.2973/odp.proc.sr.105.117.1989

Palavras-Chave #?Idocrase/Topaz; # = micas predominant in this component; + Staurolite; 105-645; Aeg; Aegirine; Ap; Apatite; Baffin Bay; Cal; Calcareous fragments; Calc fragm; Calcite; Chl; Chlorite; Clay min; Clay minerals; clay minerals = 100 %; Clinopyroxene; colorless, # = particular well rounded; COMPCORE; Composite Core; Counting 63-2000 µm fraction; Cpx; Dol; Dolomite; dolomite + calcite; En; Enstatite; Ep; Epidote; Epidote group; Feldspar; Fsp; Garnet; Glauconite; Glt; grains with abraded overgrowth; grains with roundness, p, less than 4 (very angular, angular, subangular, and subround grains on Folk's scale, 1955); Grt; Hbl; Heavy minerals; HM; Hornblende; Hyp; Hypersthene; Ill; Illite; iron oxides, except where marked # to indicate significant glauconite; Joides Resolution; Kalifeldspar; Kaolinite; Kfs; Kln; Ky; Kyanite; Label; Leg105; Lithologic unit/sequence; Metam fragm; Metamorphic fragments; nonclay minerals = 100 %; Ocean Drilling Program; ODP; ODP sample designation; of clay fraction; Ol; Olivine; others; Ox/hydrox; Oxides/hydroxides; pink; Pl; Plagioclase; Py; Pyrite, FeS2; Quartz; Quartz, angular; Quartz, fractionated; Quartz, rounded; Quartz, surface texture; Quartzarenite; Qz; Qz ang; Qz frac; Qz round; Qz texture; Ratio; red shale; red silt/sandstone; roundness, p, in excess of 4 (round and very round on Folk's scale, 1955); Sample code/label; Sed fragm; Sedimentary fragments; Sha; shale; Shale; significant; silt/sandstone; Siltstone; Sme; Smectite; Sphene; Spn; Texture: silt/(silt + clay); Topaz; Tourmaline; Tpz; Tur; Unit; Volcanic; Volcanic components; with igneous or coarsely crystalline metamorphic clasts; Xenotime; Xenotime/Zircon; X-ray diffractometry (Philips PW1710); Xtm
Tipo

Dataset