Mineralogy, lithology and stable isotope composition of diagenetic siliceous rocks from ODP Leg 129 sites


Autoria(s): Behl, Richard J; Smith, Brian M
Cobertura

MEDIAN LATITUDE: 18.498421 * MEDIAN LONGITUDE: 153.791724 * SOUTH-BOUND LATITUDE: 12.096300 * WEST-BOUND LONGITUDE: 152.322900 * NORTH-BOUND LATITUDE: 21.923000 * EAST-BOUND LONGITUDE: 156.359800 * DATE/TIME START: 1989-11-26T02:45:00 * DATE/TIME END: 1990-01-16T07:15:00

Data(s)

30/03/1992

Resumo

Ocean Drilling Program Leg 129 recovered chert, porcellanite, and radiolarite from Middle Jurassic to lower Miocene strata from the western Pacific that formed by different processes and within distinct host rocks. These cherts and porcellanites formed by (1) replacement of chalk or limestone, (2) silicification and in-situ silica phase-transformation of bedded clay-bearing biosiliceous deposits, (3) high-temperature silicification adjacent to volcanic flows or sills, and (4) silica phase-transformation of mixed biosiliceous-volcaniclastic sediments. Petrologic and O-isotopic studies highlight the key importance of permeability and time in controlling the formation of dense cherts and porcellanites. The formation of dense, vitreous cherts apparently requires the local addition and concentration of silica. The influence of permeability is shown by two examples, in which: (1) fragments of originally identical radiolarite that were differentially isolated from pore-water circulation by cement-filled fractures were silicified to different degrees, and (2) by the development of secondary porosity during the opal-CT to quartz inversion within conditions of negligible permeability. The importance of time is shown by the presence of quartz chert below, but not above, a Paleogene hiatus at Site 802, indicating that between 30 and 52 m.y. was required for the formation of quartz chert within calcareous-siliceous sediments. The oxygen-isotopic composition for all Leg 129 carbonate- and Fe/Mn-oxide-free whole-rock samples of chert and porcellanite range widely from d18O = 27.8 per mil to 39.8 per mil vs. V-SMOW. Opal-CT samples are consistently richer in 18O (34.1 per mil to 39.3 per mil) than quartz subsamples (27.8 per mil to 35.7 per mil). Using the O-isotopic fractionation expression for quartz-water of Knauth and Epstein (1976) and assuming d18Opore water = -1.0 per mil, model temperatures of formation are 7°-26°C for carbonate-replacement quartz cherts, 22°-25°C for bedded quartz cherts, and 32°-34°C for thermal quartz cherts. Large variations in O-isotopic composition exist at the same burial depth between co-existing silica phases in the same sample and within the same phase in adjacent lithologies. For example, quartz has a wide range of isotopic compositions within a single breccia sample; d18O = 33.4 per mil and 28.0 per mil for early and late stages of fracture-filling cementation, and 31.6 per mil and 30.2 per mil for microcrystalline quartz precipitation within enclosed chert and radiolarite fragments. Similarly, opal-CT d101 spacing varies across lithologic or diagenetic boundaries within single samples. Co-occurring opal-CT and chalcedonic quartz in shallowly buried chert and porcellanite from Sites 800 and 801 have an 8.7 per mil difference in d18O, suggesting that pore waters in the Pigafetta Basin underwent a Tertiary shift to strongly 18O-depleted values due to alteration of underlying Aptian to Albian-Cenomanian volcaniclastic deposits after opal-CT precipitation, but prior to precipitation of microfossil-filling chalcedony.

Formato

application/zip, 2 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.778526

doi:10.1594/PANGAEA.778526

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Behl, Richard J; Smith, Brian M (1992): Silicification of deep-sea sediments and the oxygen isotope composition of diagenetic siliceous rocks from the western Pacific, Pigafetta and East Mariana basins, Leg 129. In: Larson, RL; Lancelot, Y; et al. (eds.), Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 129, 81-117, doi:10.2973/odp.proc.sr.129.112.1992

Palavras-Chave ##1, siliceous rocks, may contain Opal; #2, siliceous rocks, may contain Opal; #3, siliceous rocks, may contain Opal; 129-800A; 129-801A; 129-801B; 129-801C; 129-802A; Amp; Amphibole; average; Cal; Calcite; Calculated (Knauth and Epstein, 1975); Clay min; Clay minerals; Clinoptilolite; Comment; Cpt; d18O Qz; d18O std dev; delta 18O, quartz; delta 18O, standard deviation; Depth; DEPTH, sediment/rock; Description; Dol; Dolomite; DRILL; Drilling/drill rig; Event; Goethite; Gth; Hem; Hematite, Fe2O3; Joides Resolution; Kalifeldspar; Kfs; Label; Leg129; Lithology; Lithology/composition/facies; Mass spectrometer VG Prism; North Pacific Ocean; Ocean Drilling Program; ODP; ODP sample designation; Opal-C; Opal-CT; Pl; Plagioclase; Quartz; Qz; Samp com; Sample code/label; Sample comment; T cal; Temperature, calculated; X-ray diffraction (XRD)
Tipo

Dataset