- Email: [email protected]
The Motunau fault revisited
164
dips of < lo-2”
are typical
above sea level onshore
offshore.
compared
Mesozoic
with offshore
basement
is uplifted
up to 500 m
where the uplift rate is insufficient
to outpace wave erosion. On Fig. 1 we suggest an alternative
structural
which satisfies all the data. It involves
a zone of widespread
interpretation
to Carter
and Carter
dextral shear manifested
in many ways and on many scales and not as a single transcurrent
fault. Major shear
may be taken up on an inferred fault lying just offshore near the coast. Since the Motunau Fault does not exist, the southern limit of the Conway Microplate should be more appropriately called the Porters Pass fault system or Porters Pass deformation zone. REFERENCES
Australian
Gulf Oil Co., 1973. M.V. “Gulfrex”
cruises 94498. New Zealand
region, October
1972-January
1973. N.Z. Geol. Surv., Open File Pet. Rep., 614. B.P.. Shell and Todd Petroleum
Development
Ltd., 1963. Seismic survey of the Canterbury
Plains. N.Z.
Geol. Surv.. Open File Pet. Rep., 328. B.P.. Shell Aquitaine offshore
and Todd Petroleum
seismic
reconnaissance
Development
survey:
operation,
Ltd., 1966. New Zealand data
processing
South Island east coast
and interpretation
report.
N.Z.
Geol. Surv. Open File Pet. Rep., 286. B.P.. Shell Aquitaine
and Todd
Petroleum
Development
Ltd., 1969. Marine
seismic survey.
Canterbury
at the southern
edge of the
Bight. N.Z. Geol. Surv., Open File Pet. Rep., 292. Carter,
R.M. and Carter,
Australian-Pacific
L.. 1982. The Motunau
plate
boundary,
Fault and other structures
offshore
Marlborough,
Oil Co.. 1972. M.V. “Fred
H. Moore”,
New Zealand.
Tectonophysics.
88(1/2):
1333159. Mobil
International
New Zealand
offshore
regional
reconnais-
sance seismic survey. N.Z. Geol. Surv., Open File Pet. Rep.. 587. Mobil
International
Oil Co., 1979. Processed
lines from New Zealand
offshore
regional
reconnaissance
seismic survey. N.Z. Geol. Surv.. Open File Pet. Rep., 738.
THE MOTUNAU
R.M. CARTER
FAULT REVISITED
and L. CARTER
New Zealand Oceanographic Institute, Wellington (New Zealand) (Received
November
12, 1982)
Our paper included an interpretation of the tectonics of the continental shelf in Pegasus Bay. We examined the offshore seismic lines listed by Herzer and Bradshaw and generally agree with them that the poor quality of the lines makes interpretation difficult. In addition, none of the lines was initially planned with detection of the
165
Motunau details
Fault in mind, and their location
is, therefore.
far from ideal for providing
of that structure.
Herzer
and Bradshaw claim the Motunau Fault should cross eight industry to accurately map the seismic lines and therefore allow us “ample opportunity location and character of the fault”. While agreeing with this idealised sentiment it relates
little to the real situation.
As Herzer
and Bradshaw
note. three lines are of
very poor quality and limited use: lines 2 and A end in the vicinity of the fault (the precise location of which is, of course, unknown). and lines 1A and 5 were unavailable to us. Only line 72-5 definitely crosses the projected offshore line of the Motunau structure. The fact that line 72-5 reveals precisely
no major
fault along
why we showed a dotted and question-marked
the Motunau
path between
structure
is
the inner shelf
and slope parts of the structure on our fig. 2. We also pointed out in the text that “an alternative interpretation would be that the inner shelf and slope features represent discrete but broadly colinear faults” (p. 139). Further on in the paper this theme was developed in our discussion of the en echelon nature of other faults such as the Pegasus Bay structure, and the comment made that “the Motunau fault system is not as well developed as a single major dislocation as the more northerly Marlborough faults, suggesting its more recent origin” (p. 156). In sum, we agree completely with Herzer and Bradshaw’s comments regarding the presence of a zone of deep-seated
shear along
the Motunau
structure,
and regret
failed to make this clear in our original
discussion.
Motunau
fault dislocations
system
correspond
to actual
that we apparently
How far individual must,
parts of the
in our view. await
detailed mapping onshore and more and better deep seismic coverage offshore. Herzer and Bradshaw also make detailed comment on our interpretation of the slope sector of the Motunau Fault, and, in particular, the interpretation that we gave to profile NZ-6 (our fig. 5). Again, we agree with many of their comments regarding the difficulty
of interpreting
(a) We identified interpretation
this profile due to multiples
the scarp as the Motunau
now. The scarp is c. 200 m high and separates
slope from the irregular
and probably
much-slumped
(b) We remain doubtful that individual supposed fault with velocity offset only”, possible
and ringing,
interpretation.
The abrupt
“are
under
continuous
we acknowledge
of ringing
to the north of the fault is suggestive of major differences lower parts of the sequence across the fault. (c) We did not infer an anticline
the gently sloping upper
lower slope.
reflectors though
termination
but note:
Fault (fig. 5) and prefer to retain that
the bathymetric
across that
below the bottom
multiple
in seismic response knob
the
this is a of the
at the base of the
slope on profile Gulfrex NZ-6, but under the similarly located knob on line 72-3 (fig. 4). We agree with Herzer and Bradshaw that velocity pull-up is operating on line NZ-6. The second part of Herzer and Bradshaw’s discussion contains much interesting data on the nature of Motunau fault system between the Porters Pass Fault and the
166
coast, and an interesting welcome
we cannot sceptical shown claimed
interpretative
this interpretation, resist
commenting
of the existence by us, Herzer Cretaceous
diagram
of the regional
which we view as complementary on
a detail
of a slope portion
and Bradshaw
age) subparallel
of their
interpretation.
of the Motunau
show not one but to and between
tectonic
situation.
We
to our own. However, Having
been
fault in the location
two subparallel
faults
(of
seismic lines 72-5 and NZ-76, in
an area with no seismic cover whatsoever! Their interpretation that both these faults curve eastwards to cross line NZ-76 gives the lie to their earlier comment regarding the insoluble
geometric
re-emphasizes the need satisfactory interpretation ity.
conundrum
of interpreting
faults
for more and better seismic to be reached of this important
along
line NZ-6;
it also
cover to enable a more zone of tectonic complex-
dips of < lo-2”
are typical
above sea level onshore
offshore.
compared
Mesozoic
with offshore
basement
is uplifted
up to 500 m
where the uplift rate is insufficient
to outpace wave erosion. On Fig. 1 we suggest an alternative
structural
which satisfies all the data. It involves
a zone of widespread
interpretation
to Carter
and Carter
dextral shear manifested
in many ways and on many scales and not as a single transcurrent
fault. Major shear
may be taken up on an inferred fault lying just offshore near the coast. Since the Motunau Fault does not exist, the southern limit of the Conway Microplate should be more appropriately called the Porters Pass fault system or Porters Pass deformation zone. REFERENCES
Australian
Gulf Oil Co., 1973. M.V. “Gulfrex”
cruises 94498. New Zealand
region, October
1972-January
1973. N.Z. Geol. Surv., Open File Pet. Rep., 614. B.P.. Shell and Todd Petroleum
Development
Ltd., 1963. Seismic survey of the Canterbury
Plains. N.Z.
Geol. Surv.. Open File Pet. Rep., 328. B.P.. Shell Aquitaine offshore
and Todd Petroleum
seismic
reconnaissance
Development
survey:
operation,
Ltd., 1966. New Zealand data
processing
South Island east coast
and interpretation
report.
N.Z.
Geol. Surv. Open File Pet. Rep., 286. B.P.. Shell Aquitaine
and Todd
Petroleum
Development
Ltd., 1969. Marine
seismic survey.
Canterbury
at the southern
edge of the
Bight. N.Z. Geol. Surv., Open File Pet. Rep., 292. Carter,
R.M. and Carter,
Australian-Pacific
L.. 1982. The Motunau
plate
boundary,
Fault and other structures
offshore
Marlborough,
Oil Co.. 1972. M.V. “Fred
H. Moore”,
New Zealand.
Tectonophysics.
88(1/2):
1333159. Mobil
International
New Zealand
offshore
regional
reconnais-
sance seismic survey. N.Z. Geol. Surv., Open File Pet. Rep.. 587. Mobil
International
Oil Co., 1979. Processed
lines from New Zealand
offshore
regional
reconnaissance
seismic survey. N.Z. Geol. Surv.. Open File Pet. Rep., 738.
THE MOTUNAU
R.M. CARTER
FAULT REVISITED
and L. CARTER
New Zealand Oceanographic Institute, Wellington (New Zealand) (Received
November
12, 1982)
Our paper included an interpretation of the tectonics of the continental shelf in Pegasus Bay. We examined the offshore seismic lines listed by Herzer and Bradshaw and generally agree with them that the poor quality of the lines makes interpretation difficult. In addition, none of the lines was initially planned with detection of the
165
Motunau details
Fault in mind, and their location
is, therefore.
far from ideal for providing
of that structure.
Herzer
and Bradshaw claim the Motunau Fault should cross eight industry to accurately map the seismic lines and therefore allow us “ample opportunity location and character of the fault”. While agreeing with this idealised sentiment it relates
little to the real situation.
As Herzer
and Bradshaw
note. three lines are of
very poor quality and limited use: lines 2 and A end in the vicinity of the fault (the precise location of which is, of course, unknown). and lines 1A and 5 were unavailable to us. Only line 72-5 definitely crosses the projected offshore line of the Motunau structure. The fact that line 72-5 reveals precisely
no major
fault along
why we showed a dotted and question-marked
the Motunau
path between
structure
is
the inner shelf
and slope parts of the structure on our fig. 2. We also pointed out in the text that “an alternative interpretation would be that the inner shelf and slope features represent discrete but broadly colinear faults” (p. 139). Further on in the paper this theme was developed in our discussion of the en echelon nature of other faults such as the Pegasus Bay structure, and the comment made that “the Motunau fault system is not as well developed as a single major dislocation as the more northerly Marlborough faults, suggesting its more recent origin” (p. 156). In sum, we agree completely with Herzer and Bradshaw’s comments regarding the presence of a zone of deep-seated
shear along
the Motunau
structure,
and regret
failed to make this clear in our original
discussion.
Motunau
fault dislocations
system
correspond
to actual
that we apparently
How far individual must,
parts of the
in our view. await
detailed mapping onshore and more and better deep seismic coverage offshore. Herzer and Bradshaw also make detailed comment on our interpretation of the slope sector of the Motunau Fault, and, in particular, the interpretation that we gave to profile NZ-6 (our fig. 5). Again, we agree with many of their comments regarding the difficulty
of interpreting
(a) We identified interpretation
this profile due to multiples
the scarp as the Motunau
now. The scarp is c. 200 m high and separates
slope from the irregular
and probably
much-slumped
(b) We remain doubtful that individual supposed fault with velocity offset only”, possible
and ringing,
interpretation.
The abrupt
“are
under
continuous
we acknowledge
of ringing
to the north of the fault is suggestive of major differences lower parts of the sequence across the fault. (c) We did not infer an anticline
the gently sloping upper
lower slope.
reflectors though
termination
but note:
Fault (fig. 5) and prefer to retain that
the bathymetric
across that
below the bottom
multiple
in seismic response knob
the
this is a of the
at the base of the
slope on profile Gulfrex NZ-6, but under the similarly located knob on line 72-3 (fig. 4). We agree with Herzer and Bradshaw that velocity pull-up is operating on line NZ-6. The second part of Herzer and Bradshaw’s discussion contains much interesting data on the nature of Motunau fault system between the Porters Pass Fault and the
166
coast, and an interesting welcome
we cannot sceptical shown claimed
interpretative
this interpretation, resist
commenting
of the existence by us, Herzer Cretaceous
diagram
of the regional
which we view as complementary on
a detail
of a slope portion
and Bradshaw
age) subparallel
of their
interpretation.
of the Motunau
show not one but to and between
tectonic
situation.
We
to our own. However, Having
been
fault in the location
two subparallel
faults
(of
seismic lines 72-5 and NZ-76, in
an area with no seismic cover whatsoever! Their interpretation that both these faults curve eastwards to cross line NZ-76 gives the lie to their earlier comment regarding the insoluble
geometric
re-emphasizes the need satisfactory interpretation ity.
conundrum
of interpreting
faults
for more and better seismic to be reached of this important
along
line NZ-6;
it also
cover to enable a more zone of tectonic complex-