(Table 3) Gas hydrates collected within the Blake Ridge region, DSDP/ODP data

The Blake Ridge region lies on the passive margin of southeastern North America and contains a large amount of methane gas hydrate. The methane and methane gas hydrate are predominantly biogenic, apparently produced by CO2 reduction. Reflection seismics indicate that bottom-simulating reflectors (BS...

Full description

Bibliographic Details
Main Author: Borowski, Walter S
Format: Dataset
Language:English
Published: PANGAEA 2008
Subjects:
164-994
164-994B
164-996
164-997
76-533A
Carbon dioxide
COMPCORE
Composite Core
Deep Sea Drilling Project
DEPTH
sediment/rock
Description
DRILL
Drilling/drill rig
DSDP
DSDP/ODP/IODP sample designation
Ethane
Event label
Glomar Challenger
Joides Resolution
Latitude of event
Leg164
Leg76
Longitude of event
Methane
Nicaraguan Rise
North Atlantic Ocean
North Atlantic/RIDGE
Ocean Drilling Program
ODP
Propane
Sample code/label
δ13C
δ Deuterium
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.706208
https://doi.org/10.1594/PANGAEA.706208
Description
Summary:The Blake Ridge region lies on the passive margin of southeastern North America and contains a large amount of methane gas hydrate. The methane and methane gas hydrate are predominantly biogenic, apparently produced by CO2 reduction. Reflection seismics indicate that bottom-simulating reflectors (BSRs) enclose ~55,000 sq. km, with high-amplitude BSRs covering ~26,000 sq. km. Ocean Drilling Program (ODP) Leg 164 drilled three deep holes on a 10-km-long transect (Sites 994, 995, and 997; water depth 2770-2798 m). Based on sampling and geochemical, thermal, seismic, and borehole geophysical measurements, gas hydrates are most likely present between ~190 and 450 m in sediment column. Gas hydrate is most often disseminated throughout the sediment column, although concentrations occur within specific sedimentary horizons, within supposed fault zones, and at the base of gas hydrate stability (BGHS) where methane recycling produces more pervasive concentrations of gas hydrate. Estimates of gas hydrate inventory are based on a variety of methods including geochemical proxies, vertical seismic profiling, electric logging, and measurements of in situ methane. Over the entire sediment column, at least ~2-4% of pore space volume (1-2% sediment volume) is occupied by methane gas hydrates, but average and maximum estimates are 5.4% and 12%, respectively. Extrapolation of vertical gas hydrate and methane inventory over the area containing high-amplitude BSRs yields estimates of 67-406 Gt (gigatons, 10**15 g) of methane gas hydrate (or 9-52 Gt of methane) and 2.6-27 Gt of methane occurring as gas bubbles below the BGHS. Average values are 185 Gt of gas hydrate and 24 Gt of methane as gas hydrate. Any gas hydrate occurring outside the area underlain by BSRs (as suggested by geochemical evidence) or that associated with low-amplitude BSRs may increase these estimates by an unknown factor. Various data give conflicting pictures of mass transport with Blake Ridge sediments. The data can be reconciled by viewing the upper sedimentary ...

Similar Items