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Figure Captions
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Location information
about where  3-D seismic surveys have been shot is available from various
sources. The maps shown here were compiled from public records in
counties where survey locations must be reported as part of the
acquisition procedure and from the many companies who place their
proprietary surveys with seismic brokers for sale or trade. Although
these maps may not contain all of the surveys shot, they do represent
the general density of coverage in various areas -- and they reveal an
interesting and thought-provoking view of seismic activity and thus
exploration activity since the early 1980s, when 3-D seismic became
widely available.
Looking at 3-D
seismic coverage maps in Texas and Oklahoma (Figure
1) and over the Rocky Mountain basins (Figure
2), one sees a pattern of decreasing seismic coverage as you move
from offshore to onshore areas. Although one might think this pattern
shows the overall cost increase of acquisition, it primarily reflects
the economic success of 3-D seismic in finding hydrocarbon entrapments.
The exploration of
Gulf of Mexico offshore areas is mostly dependent on seismic (no
outcrops to map!), so the coverage is usually 100 percent of the area.
In fact, many offshore areas have more than 100 percent coverage since
there may be multiple surveys acquired by different companies over the
same area.
Moving onshore in
Texas, the coverage stays high at 60 to 70 percent. Early surveys were
acquired over fields and then spread along coastline parallel faults
looking for new traps.
One reason why
seismic is so widespread in the Gulf Coast is because of the enhanced
capability of seismic in "soft rock" settings. In Tertiary-and
Cretaceous-age clastic rocks, seismic contrasts often allow the direct
detection of hydrocarbons, or "bright spot" prospecting. New AVO
techniques have extended that capability by allowing more detailed
analysis of amplitude anomalies in pre-stack gathers.
In the Permian Basin,
seismic coverage spreads over about 50 percent of the basin. Easy land
access and large ranches encouraged widespread surveys. In the early
1990s we heard stories about the Permian of "shoot the 3-D and the
prospects will come," because of the multi-pay potential in stacked
carbonate reservoirs. Older, harder rocks meant geophysicists could not
rely on bright spots, and there was a push for higher frequency data to
resolve thin porosity zones in high velocity carbonate rocks.
In the deep Anadarko
Basin, seismic coverage continues to drop to about 20 percent. And in
the Rockies there is a noticeable lack of 3-D seismic, with overall
coverage down to only 5 to 10 percent of the basin areas. Why? Seismic
acquisition is more difficult in rough terrain, and federal lands
restrict access to a narrow time window of July 15 to November 15 in
many areas. These onshore areas also are dominated by independent
operators who have limited seismic budgets, and many proposed large
surveys were not shot due to lack of underwriting.
Based on area
coverage, 3-D seismic has been under-utilized in the Rocky Mountain
basins. New "Basin Centered Gas" plays, where widespread,
low-permeability, gas-saturated sandstones and shales hold large gas
reserves, are new targets for seismic evaluation.
Seismic techniques
for mapping reservoir-enhancing characteristics, like fractures and
over-pressured compartments, are developing rapidly. These "sweetspot"
properties can be derived by analyzing vertical and horizontal velocity
variations in 3-D data volumes.
The promise of new discoveries will fuel the
continued expansion of 3-D surveys in the Rockies and other areas.
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