_version_ 1867169977946079232
author Knies, Jochen
Mann, Ute
author_facet Knies, Jochen
Mann, Ute
collection Datos científicos de ciencias marinas y ambientales
contents Organic-rich sediments were recognized in early Miocene strata from the Norwegian-Greenland Sea during ODP Leg 151. Three organic-geochemical subunits were distinguished in Hole 909C using detailed organic-geochemical and microscopic analyses. TOC (up to 3 wt%), HI (up to 200 mg HC/g TOC), and d13Corg values (~24–26 per mil) indicate the predominance of terrestrial type III organic matter in Subunit 3 (~18–16.2 Ma). Biomarker and vitrinite reflectance values (R0 ~0.5%) point to rather fresh immature terrestrial organic matter supplied by river discharge from adjacent vegetated coastal areas. Although the sediments of Subunit 3 have a fair (to good) source rock potential they are insufficiently mature to generate significant amounts of oil or gas. To test if the moderate generation potential and source rock quality of Subunit 3 are applicable to the entire area, the computer software OF-Mod was applied. Several modelling runs testing the most probable depositional scenarios result, even under conservative assumptions, in the formation of good to excellent source rocks towards the basin margins.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_746742
institution PANGAEA
language en
publishDate 2002
publisher PANGAEA
record_format pangaea
spellingShingle Organic carbon chemistry of ODP Hole 151-909C (Table 1)
Knies, Jochen
Mann, Ute
151-909C; Accumulation rate, marine organic matter; Accumulation rate, terrestrial organic matter; AGE; Alginite; Calculated; Carbon, organic, marine matter; Carbon, organic, terrestrial matter; Carbon, organic, total; Density, dry bulk; DEPTH, sediment/rock; DRILL; Drilling/drill rig; DSDP/ODP/IODP sample designation; Hydrogen index, mass HC, per unit mass total organic carbon; Joides Resolution; Leg151; Liptodetrinite; North Greenland Sea; Ocean Drilling Program; ODP; Paleoproductivity as carbon; Rock eval pyrolysis (Behar et al., 2001); Sample code/label; Sedimentation rate; Vitrinite
Organic-rich sediments were recognized in early Miocene strata from the Norwegian-Greenland Sea during ODP Leg 151. Three organic-geochemical subunits were distinguished in Hole 909C using detailed organic-geochemical and microscopic analyses. TOC (up to 3 wt%), HI (up to 200 mg HC/g TOC), and d13Corg values (~24–26 per mil) indicate the predominance of terrestrial type III organic matter in Subunit 3 (~18–16.2 Ma). Biomarker and vitrinite reflectance values (R0 ~0.5%) point to rather fresh immature terrestrial organic matter supplied by river discharge from adjacent vegetated coastal areas. Although the sediments of Subunit 3 have a fair (to good) source rock potential they are insufficiently mature to generate significant amounts of oil or gas. To test if the moderate generation potential and source rock quality of Subunit 3 are applicable to the entire area, the computer software OF-Mod was applied. Several modelling runs testing the most probable depositional scenarios result, even under conservative assumptions, in the formation of good to excellent source rocks towards the basin margins.
title Organic carbon chemistry of ODP Hole 151-909C (Table 1)
topic 151-909C; Accumulation rate, marine organic matter; Accumulation rate, terrestrial organic matter; AGE; Alginite; Calculated; Carbon, organic, marine matter; Carbon, organic, terrestrial matter; Carbon, organic, total; Density, dry bulk; DEPTH, sediment/rock; DRILL; Drilling/drill rig; DSDP/ODP/IODP sample designation; Hydrogen index, mass HC, per unit mass total organic carbon; Joides Resolution; Leg151; Liptodetrinite; North Greenland Sea; Ocean Drilling Program; ODP; Paleoproductivity as carbon; Rock eval pyrolysis (Behar et al., 2001); Sample code/label; Sedimentation rate; Vitrinite
url https://doi.org/10.1594/PANGAEA.746742