Publicly available seismic and well data are used to study the subsurface structure and stratigraphy of an area on the southern margin of the Central Indus Basin (CIB), Pakistan. Study area includes southern parts of the Punjab Platform and Sulaiman Foredeep tectonic units of the CIB. A regional scale East-West depth cross-section is prepared in South of hydrocarbon bearing Safed Koh Trend to Punjab Platform. It gives the structural configuration of various formations of Paleozoic-Cenozoic times. Reflectors are marked and correlated with the help of wells Drigri-01 and Bahawalpur East-01, located on seismic lines 914-RPR-03 and 916-YZM-05 respectively. These reflectors/formations are correlated with respect to ages to avoid the confusions as there are many truncations in the area. Average velocities are used for the depth computation. Depth cross-section (AB) shows that Punjab Monocline is a stable area with a shallow basement. In Punjab Platform all the formations dip gently to the West. Then they attain steep dips in the Sulaiman Foredeep/Depression area. Depth cross-section along the Drigri anticline which lies in the SE of Sakhi Sarwar anticline reveals that it is extended E-W over 17 km approx. and the reverse faults are present on both flanks of a fold, due to that a pop up structure is formed. It’s a low amplitude fold, as it marks the southern end of Safed Koh Trend (first line of folding of the folded flank of Sub-Sulaiman Fore Deep). Subsurface structural variations at Bahawalpur show a buried high of Jurassic-Permian age. A sedimentary cover is 9 km thick in West and 3 m thick in East. Basement is uplifted at Bahawalpur High.
The study area comprises of frontal fault propagation folded zone of Sulaiman Range, Sulaiman Depression and Punjab Monocline of Pakistan (
structural and stratigraphical variations in the formations. The surface geology is made up of alluvium and loose material mainly brought by rivers and from desert in the East.
Tectonically Pakistan comprises of two domains of large landmasses, i.e. Tethyan and Gondwanian Domains and is continued by the Indo-Pakistan crustal plate. The northern most and western regions of Pakistan fall in Tethyan Domain, which have complicated geology and complex crustal structure, While the Indus Basin consists of the gondwanian domain [
Two major sedimentary basins of Pakistan are Indus Basin and Baluchistan Basin. The Indus Basin is the largest basin in Pakistan, oriented in NE-SW direction including the 25,000 square kilometers of SE part of Pakistan. Tectonically Indus Basin is much stable area as compared to other tectonic zones of Pakistan [
The classification of Indus Basin:
Upper Indus Basin: Kohat Sub-basin & Potwar Sub-basin;
Lower Indus Basin: Central Indus Basin & southern Indus Basin (
Another major feature of basement topography is Khair-pur-Jacobabad High and its associated structures which grew through Jurassic and Cretaceous/Paleocene ages and divided the Lower Indus Basin further into two basins namely southern and Central Indus Basin [
Punjab Platform;
Sulaiman Sub-basin;
Sulaiman Depression;
East Sulaiman Depression;
Zindapir Inner Folded Zone;
Mari Bugti Inner Folded Zone;
Sulaiman Fold Belt;
Punjab Platform:
This unit marks the eastern segment of Central Indus Basin. Tectonically it is a broad monoclinic dipping gently towards the Sulaiman depression. Punjab Platform is tectonically the least affected area because of its greater distance from collision zone.
Sulaiman Depression:
This depression is a longitudinally oriented area of subsidence, it becomes arcuate and takes up a transverse orientation along its southern rim. The Sulaiman Foredeep/Depression is a broad syncline with a very gentle, undisturbed eastern limb & steeper western limb. The eastern limb has monoclinal dips & over 200 km wide. The western flank of the depression includes Zindapir Inner Folded Zone while Murri Bugti Inner Folded Zone lies in the South, to the East it merges in Punjab platform. The depth of the basement beneath this syncline is about 8 km.
Sulaiman Fold Belt:
This is a major tectonic feature in the proximity of collision zone and therefore contains a large number of disturbed anticlinal features. The trends of the structure are mainly East-West.
General stratigraphy of Central Indus Basin is given in
Previous work was done in the North of Drigri-Anticline in East-West direction, along Sakhi-Sarwar [
Source Rocks
Shales of Shinawari Formation and Chichali formation of Mesozoic act as a source in the Punjab Platform and Sulaiman Depression. These source rocks have acquired sufficient maturity to generate large volumes of gas.
Reservoir Rocks
Proven Reservoir Rocks of the Mesozoic age are Lumshiwal, Samanasuk, Shinawari and Datta formations of Punjab Platform area with discoveries at Tal, Chanda, Dhulian, Panjpir, Nandpur, toot and Meyal fields.
Sealing Mechanism
Drigri and Kotrum structures are gentle anticlines and the seal is provided by Ranikot shales (Paleocene) on Late Cretaceous Pab Sandstones.
All of the previous work done by respectable authors has been very helpful in the East-West correlation of the seismic profiles. The boundaries are determined by Drigri-01 well in West and Bahawalpur-01 well in East. The
area in between is correlated by seismic lines keeping in view the previously made cross sections.
On the basis of previous work, Well and Seismic data the few shortcomings are fulfilled as either Paleozoic in the area was not correlated before or Pre-Cambrian, Paleozoic, Mesozoic (cretaceous, Jurassic, Triassic) were not discussed separately. Also depths were not mentioned in some cases and early cross sections were made in Time domain because depth conversion is very sensitive to the velocities used.
Reflection seismology is a remote imaging method used in petroleum exploration [
Seismic lines used in this study are 914-RPR-03, 954-FZP-09, C95-LMT-05, W16-AT, B-01, PSPD-5085, PSPD-5340 and 916-YZM-05. Reflectors are picked by matching seismic with synthetic (
Well name | Drigri-01 | Type | EX | Status | ABD | ||||
---|---|---|---|---|---|---|---|---|---|
Operator | OGDC | Spud date | 02/09/1992 | Compl. date | 28/11/1992 | ||||
Depth (m) | 3250.0 | Latitude | 29 22 04.92 | Longitude | 70 10 54.28 | ||||
K.B.E | 149.02 | Province | PUNJAB | Formation | GHAZIJ | ||||
Sr. no | Formation age | Formation | Top (m) | Thickness (m) | |||||
1 | PLIOCENE | DHOK PATHAN | 0.0 | 847.0 | |||||
2 | PLIOCENE | NAGRI | 847.0 | 1011.0 | |||||
3 | MIOCENE | CHINJI | 1858.0 | 406.0 | |||||
4 | OLIGOCENE-MIOCENE | GAJ-NARI | 2264.0 | 326.0 | |||||
5 | EOCENE | DRAZINDA | 2590.0 | 302.0 | |||||
6 | EOCENE | PIRKOH | 2892.0 | 22.0 | |||||
7 | EOCENE | SIRKI | 2914.0 | 225.0 | |||||
8 | EOCENE | HABIB RAHI | 3139.0 | 38.0 | |||||
9 | EOCENE | GHAZIJ | 3177.0 | 73.0 | |||||
Well name | Bahawalpur East-01 | Type | EX | Status | ABD | |||
---|---|---|---|---|---|---|---|---|
Operator | SHELL | Spud date | 19/12/1980 | Compl. date | 17/02/1981 | |||
Depth (m) | 3024.0 | Latitud | 29 22 07.00 | Longitude | 72 09 07.40 | |||
K.B.E | 134.90 | Province | PUNJAB | Formation | BASEMENT | |||
Sr. no | Formation age | Formation | Top (m) | Thickness (m) | ||||
1 | MIOCENE-QUATENARY | SIWALIK RAWALPINDI | 0.0 | 800.00 | ||||
2 | EOCENE | CHORGALI | 800.00 | 121.0 | ||||
3 | EOCENE | SAKESAR | 921.0 | 72.0 | ||||
4 | PALEOCENEEOCENE | NAMMAL | 993.0 | 64.0 | ||||
5 | EOCENE | GHAZIJ SUI MEMBER | 1057.0 | 17.0 | ||||
6 | PALEOCENE | DUNGHAN | 1074.0 | 5.0 | ||||
7 | EARLY CRETACEOUS | CHICHALI | 1079.0 | 15.0 | ||||
8 | MIDDLE JURASSIC | SAMANA SUK | 1094.0 | 98.0 | ||||
9 | MIDDLE JURASSIC | SHINWARI | 1192.0 | 95.0 | ||||
10 | EARLY JURASSIC | DATTA | 1287.0 | 13.0 | ||||
11 | MIDDLE TRIASSIC | TREDIAN | 1300.0 | 94.0 | ||||
12 | EARLY PERMIAN | AMB | 1394.0 | 71.0 | ||||
13 | EARLY PERMIAN | SARDHAI | 1465.0 | 98.0 | ||||
14 | EARLY PERMIAN | WARCHA | 1563.0 | 122.0 | ||||
15 | EARLY PERMIAN | DANDOT | 1185.00 | 45.0 | ||||
16 | EARLY PERMIAN | TOBRA | 1730.0 | 10.0 | ||||
17 | MIDDLE CAMBRIAN | KUSSAK | 1740.0 | 129.0 | ||||
18 | EARLY CAMBRIAN | KHEWRA SANDSTONE | 1869.0 | 285.0 | ||||
19 | Pre-Cambrian | SALT RANGE | 2154.00 | 817.0 | ||||
20 | PRE CAMBRIAN | BASEMENT | 2971.0 | 53.0 | ||||
in rest of the seismic lines keeping in mind for the different surveys’ parameters, datum planes and jump correlation. Then next stage is solving average velocities given at each seismic section in order to encounter lateral changes in velocities (
From the representative Depth cross-section (
There is a Thrust fault along Drigri that cuts in the Paleocene & Mesozoic sediments with a vertical throw of
about 10 msec. This anticline may have been formed at the expense of flow of Eocene shales. Also the flow of shales of Mesozoic age is very prominent in Drigri anticline. The fault propagation & fault bend folds are the most important structural features & they form important traps for hydrocarbon in the foreland fold & thrust belts. The frontal Sulaiman & Khirthar ranges are the most prospective & productive line of folding as compared to middle Indus. The Sakhi Sarwar structure in the Eastern Sulaiman range is a fault propagation fold. The Domanda, Dhodhak, Rodho, Zindapir, Fort Munro, Pirkoh, Loti, Uch & Mazarane structures in the sulaiman & Khirthar Ranges are thrusted anticlines ([
Nagri & Chinji Formation almost 1700 m thick have been deposited in Drigri anticline. Siwaliks are 800 m thick in East. Nari Formation (Oligocene) is overlain by Gaj Formation in Drigri anticline which onlaps (unconformable) on Eocene strata in East. Nari Formation truncates in East. Eocene, Paleocene & Cretaceous are 1300 m, 800 m & 150 m approx. thick respectively in West. Eocene strata thins out in East but still attain a thickness of more than 250 m in East suggesting the presence of more accommodation space for its sedimentation in West. The oldest rocks encountered in Punjab Platform through drilling are of Infracambrian Salt Range Formation. Pre-Himalayan orogenic movements have resulted in prolonged uplifts/sea regression causing unconformities. As a result, several salt cored anticline structures are expected in the southern portion of this monocline ([
The depth cross section AB shows the high in subsurface formations at well Bahawalpur East-01 location. East Jurassic and Triassic sediments show their presence. Jurrasic and Triassic are 300 m in East and thicken in West and achieve the thicknesses greater than 1000 m along Drigri and Kotrum anticlines. Whereas Permian, Cambrian and Pre-Cambrian formations which are correlated from Bahawalpur East-01 well, show a thick sedimentation in East as Permian is 346 m, Cambrian is 414 m and Pre-Cambrian (Salt Range Formation) is 817 m thick. Pre-Cambrian & Paleozoic sediments may present below a thick pile of Mesozoic sediments in West, but they are not drilled due to greater depths. Basement is uplifted in the East. It is gradually dipping westward and it is more than 9 km deep beneath the deformation front in the eastern Sulaiman range.
Authors are thankful to Landmark Resources (LMKR) and Directorate General Petroleum Concessions (DGPC) for providing seismic data of the area.