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Figure Captions
 Figure
1. Sedimentary provinces of much of Europe, Africa, and Asia, centered on
the Zagros (folded belt) and Arabian (foredeep) provinces (from St. John et al., 1984).
 Figure
2. Fields and discoveries (as of 1990) of the Arabian Plate (from Beydoun,
1991). Precambrian
rocks in
brown, Cretaceous ophiolites, etc. in red, Cretaceous-Quaternary volcanics
in two shades of pink.
 Figure
3. Enlargement of Figure 2,
showing fields in Iraq, with tabulation of
their names (from Beydoun, 1991). Fields with
dots are Iraqi giant fields; click giant field of interest to view data
for it (from Horn, 2003).
 Figure
4. Tectonic elements of the Arabian Plate and Iran (from Konert et al.,
2001).
 Figure
5. Enlargement of Figure 4,
showing tectonic elements of Iraq (from
Konert et al., 2001).
 Figure
6. Key structural elements in the Zagros province, with oil and gas fields
(from Versfelt, 2001).
 Figure
7. Tectonic framework of Northern Iraq, with location of oil fields (after
Dunnington, 1958).
 Figure
8. Structural sketch map of Kirkuk field, Northern Iraq (after Dunnington,
1958; Majid and Veizer, 1986).
 Figure
9. Schematic cross-sections of Kirkuk area, illustrating accumulations in
Baba dome and Bai Hassan field (after Dunnington, 1958).
Click to view sequence of cross
sections.
 Figure
10. Structure maps, Ain Zalah (from El Zarka 1993). A on top of upper
Upper Cretaceous Shiranish Formation. B on top of Upper Cretaceouos
Mashurah Formation. C on top of Lower Cretaceous Qamchuqa Formation.
Click to view sequence of structure
maps.
 Figure
11. Cross section of Ain Zalah field (after Dunnington, 1958).
 Figure
12. Schematic cross-sections of Ain Zalah area, showing the entrapment of
oil in Ain Zalah and Butmah fields (after Dunnington, 1958).
Click to view sequence of cross
sections.
 Figure
13. Schematic structural map and cross section of fields in the Qaiyarah
area, showing two superposed accumulations. Both show tilted oil-water
contacts. (After Dunnington, 1958).
 Figure
14. Stratigraphic column, Permian-Pleistocene, Northern Iraq (after Al
Shdidi et al., 1995).
 Figure
15. Schematic structure map of Rumaila, Tuba, and Zubair fields, Southern
Iraq, on Lower Cretaceous Zubair sandstone.
 Figure
16. Stratigraphic diagram of Middle Jurassic (Callovian) to Mid-Cretaceous
(Cenomanian), Southern Iraq (after Ibrahim, 1983).
 Figure
17. Producing stratigraphic units of the Arabian Plate (after Beydoun,
1991).
Table Caption
 Table 1.
Database of giant fields in Iraq, showing basic geologic features and
estimates of ultimate recovery and reserves (from Horn, 2003 [with minor
revision]). Basic data sources for Horn (2003): Halbouty et al., 1970;
Carmalt and St. John, 1986; I.H.S. Energy Group, 1998, Selected giant
field data (with kind permission to publish granted 2002); supported by 35
additional sources.
Iraq is part
of the Zagros and Arabian sedimentary provinces, according to St. John et
al. (1984) (Figure 1). The former is a
folded belt, related to A-subduction; and the Arabian province is a
foredeep, in which the ramp has buried grabens, but with little
blockfaulting (St. John et al., 1984). Fields are present in both
provinces (Figures 2,
3, and 4).
Konert et al. (2001) consider the foredeep in front of
the Zagros (Figures 5 and
6) as a part of a very widespread stable platform. Versfelt (2001)
shows the Zagros ãForeland Basinä to flank the the Zagros mountain front
from the northeast-trending Khleissia high in the north to Hormuz in the
south (Figure 6). The Zagros
sedimentary province includes the Kirkuk (Sirwan) embayment, Lurestan,
Dezful Embayment (Khuzestan), and Fars, the last three being predominantly
in Iran. The embayments are the most prolific oil-producing areas. The
fields, generally spectacular anticlines, trend northwest, except north of
Mosul, where the folded belt becomes more easterly (Figure
7). Outside the Zagros belt are north-trending fields (e.g., Rumaila)
and northwest-trending fields (e.g., East Baghdad). The fields in Southern
Iraq trending north seemingly are related to fields in Kuwait and Saudi
Arabia with similar orientation, which parallels extensional fault trends.
Maps of fields, cross-sections, and generalized stratigraphic
columns/diagrams are shown in Figures 8,
9, 10,
11, 12,
13, 14,
15, and
16.
Reservoirs
range in age from Miocene to Triassic. Paleozoic petroleum systems are
known to exist in parts of northwest Iraq (Konert et al., 2001) and
possibly in the west as well (Beydoun, 1991). Stratigraphic column for
Northern Iraq is given in Figure 14. A
diagram of Middle Jurassic to Mid-Cretaceous strata in Southern Iraq is
presented in Figure 16. Producing
stratigraphic units are shown in Figure 17.
Both
carbonates and sandstones are well represented as reservoir rocks.
Sandstones are commonly more significant as reservoirs outside the main
part of the Zagros province, whereas carbonates are dominant in the main
part of the Zagros. Miocene-Oligocene-Eocene are most likely to be
productive southwest of the ãmountain frontä (Versfelt, 2001), where the
Miocene evaporite (seal) is preserved (Figure
6).
Source rocks
have been identified in the Eocene-Paleocene, Upper Cretaceous, Mid- to
Lower Cretaceous, Upper Jurassic, Middle Jurassic, and Triassic (Versfelt,
2001). Silurian source rock has been documented in western/northwestern
Iraq (Konert et al., 2001).
As shown in
the database of giant fields of Iraq (Table 1) (M.K. Horn, 2003), there
are 28 giant fields in Iraq; 27 are classified as oil fields. Discovered
in 1953, the largest field is Rumaila (Figure 15),
9th largest in the world (3rd largest oil field)
with 22 BOE. It is in Southern Iraq and the Arabian sedimentary province.
Kirkuk (Figures 8 and
9), the second largest Iraqi field with 17 BOE, is in Northern Iraq
and the Zagros province. Discovered in 1927, it is the 17th
largest field (8th largest oil field) in the world. Ultimate
recovery from the giant fields of Iraq is estimated to be 85 BOE; for
comparison, the estimate for North Dome Gas Field in Qatar is 160 BOE, and
97 BOE for Ghawar Oil Field in Saudi Arabia. Remaining recovery, or
reserves, for the Iraqi giant fields is estimated to be 41 BOE (Horn,
2003), or
approximately one-half of the ultimate recovery. More than a decade ago,
ultimate recoverable petroleum reserves of the Arabian Plate region was
estimated to be almost 900 BOE, with approximately 98% being in the Zagros
and Arabian sedimentary provinces (Beydoun, 1991).
References
Al Shdidi, Saad, Gerard Thomas,
and Jean Delfaud, 1995, Sedimentology, diagenesis, and oil habitat of
Lower Cretaceous Qamchuqa Group, Northern Iraq: AAPG Bulletin , v. 79, p.
763-778.
Beydoun. Z. R., 1991, SG 33: Arabian Plate Hydrocarbon
Geology and Potential--A Plate Tectonic Approach: AAPG Studies in Geology
#33, 77p.
Carmalt, S.W.,
and Bill St. John, 1986, Giant oil and gas fields, in Future Petroleum
Provinces of the World: AAPG Memoir 40, p.. 11-53, Table 1.
Dunnington, H.V., 1958,
Generation, migration, accumulation, and dissipation of oil in Northern
Iraq, in Habitat of Oil: AAPG, p. 1194-1251.
El Zarka, Mohamed Hossny, Ain
Zalah Field--Iraq Zagros folded zone, Northern Iraq, in Structural
Traps VIII, AAPG Treatise of Petroleum Geology Atlas of Oil and Gas
Fields, v. VIII, p. 57-68.
Halbouty, Michel T., A.A. Meyerhoff, Robert E. King, Robert
H. Dott, Sr, H. Douglas Klemme, and Theodore Shabad, 1970, World's giant
oil and gas fields, geologic factors affecting their formation, and basin
classification: Part I: Giant oil and gas fields, in Geology of
Giant Petroleum Fields: AAPG Memoir 14, p. 502-528, Table 1.
Horn, M.K., 2003, Giant fields,
1868-2003 (databases), in Giant Oil and Gas Field of the Decade 1990-1999,
AAPG Memoir (in press).
Ibrahim, M.W., 1983, Petroleum
geology of Southern Iraq: AAPG Bulletin, v.
67, p. 97-130.
Konert, G., A.M. Afifi, S.A. Al-Hajri,
K. de Groot, A.A. Al Naim, and H.J.Droste, Paleozoic stratigraphy and
hydrocarbon habitat of the Arabian Plate, in Petroleum Provinces of
the Twenty First Century: AAPG Memoir 74, p. 483-515.
Majid, A. Hamid, and Jan Veizer,
1986, Deposition and chemical diagenesis of Tertiary carbonates, Kirkuk
oil field, Iraq: AAPG Bulletin, v. 70, p. 898-913.
St. John, Bill, A.W. Bally, H.Douglas Klemme, 1984,
Sedimentary provinces of the world÷hydrocarbon productive and
nonproductive: AAPG. map and booklet (35 p.).
Versfelt, Porter, L., Jr., 2001, Major hydrocarbon
potential in Iran, in
Petroleum Provinces of the Twenty First Century: AAPG
Memoir 74, p. 417-427.
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