Microfacies and Sedimentary Environments of the Fahliyan Formation from the Southwest of Iran ( Shiraz , Zagros )

The Fahliyan Formation is a carbonate sequence of Lower Cretaceous (Berriasian-Hauterivian) in age and was deposited in the Zagros sedimentary basin. This formation is a part of Khami Group and is a reservoir rock in Zagros Basin. This formation was investigated by a detailed petrographic analysis in order to clarify the depositional facies and sedimentary environment in the Kuh-e-Gadvan in Fars Province. Petrographic studies led to the recognition of nine microfacies that were deposited in four facies belts: tidal flat, lagoon, and barrier and shallow open-marine. An absence of turbidite deposits, reefal facies, and gradual facies changes indicate that the Fahliyan Formation was deposited on a carbonate ramp.


Introduction
The Fahliyan Formation is part of the Lower Cretaceous (Berriasian-Hauterivian) deposits of southwest of Iran.This formation is one of the important hydrocarbon reservoirs for Khami group in southwest of Iran.Lithologically, the Fahliyan Formation at the type section consists of 332 meters of mainly limestone and argillaceous limestone [1].
It was deposited on a carbonate platform developed across the Zagros Basin.Little work has been done on the effects of relative sea level changes during deposition of the Cretaceous carbonate sediments in the Zagros Basin.In this research, Fahliyan Formation was investigated in a surface section of Kuh-e-Gadvan in the Folded Zagros Zone.Since there aren't any studies on the microfacies of Fahliyan Formation at Kuh-e-Gadvan or the related reports are not available and also study on other properties are not enough, the main objectives of this paper are to 1) describe and interpret the microfacies of deposits of Fahliyan Formation and 2) describe and interpret the depositional environments represented by the Fahliyan Formation.

Studied Area
The studied area is located at the northeast of Kuh-e-Gadvan, ~45 km northeast of Shiraz in the Folded Zagros Zone.Geographically, the area is part of the Fars Province.Field work was concentrated at the southern flank of Gadvan anticline in the southwestern vicinity of Khuraki village, about 15 km SE of Dariyan city.A stratigraphic section was measured in detail along the northern and southern slopes of a mountain crossing the northern flank of an anticline at N: 29˚37'15"/E: 52˚58'40" (Figure 1).

Materials and Methods
Fahliyan Formation at Kuh-e-Gadvan, with a thickness of 325 meters, is consisting of thin to thick bedded limestones (Figure 2).The first stage includes data on relevant studiesdone on this formation.The Samples were taken almost every three meters and sampling was based on facies variations.More than 125 thin sections were prepared and stained with Alizarin Red S. Then laboratory works start and paying study of thin section.Carbonate rocks were classified following Dunham [2].Depositional processes were interpreted from the presence of ske-letal and non-skeletal components, sedimentary strucstratigraphic section.The Fahliyan Formation overlies the Surmeh Formation disconformably and is underlain by the Gadvan Formation conformably (Figures 1-3).

Tidal flat microfacues (T) Dolomitic Mudstone
Features such as fenestral fabric, evaporate molds, microbial filaments, mud cracks, and anhydrite nodules in a dolomicrite matrix are observed abundantly in this microfacies (Figure 4).This facies has intensively been influenced by diagenetic processes.Comparing with modern carbonate environments such as Persian Gulf [8], this microfacies has been deposited at upper parts of tidal flats in a warm and arid region.

Lagoon Microfacies
1) Peloidal Packstone/Grainstone (L1) The frequency of appearance of peloidal packstone/ grainstone is relatively higher in this section and is found at a number of levels.It is commonly composed of peloidal grains, having micritic composition.These microfacies are also found in associations with foraminifera (Figure 5).
This microfacies is interpreted as indicating the presence of a restricted marine shelf lagoon environment similar to Wilson [3] facies belt 8, SMF 16 and Flügel [4].
2) Algal Foraminiferal Packstone/Wackestone (L2)   This micorfacies can be comparable with SMF 18 [9] and has micrite and microsparite matrix, in addition to very rare planktonic foraminifera, rare small benthic foraminifera, and dacycladacean algae (Figure 6).The bioclasts and coralline algal debris are selective dissolute, opened in some parts and partially cemented in others by fine to medium granular and equigranular mosaic cement.This microfacies represents collaboration in action of near or at stormwave base of turbidity character in shallow open marine in lagoon environment with moderate circulation.
3) Foraminferal Packstone/Wackestone (L3) This facies can be comparable with SMF 10 [9].The major combination of this facies is high percent of foraminifers and their main structure is wackestone.Their major allochem constituents are orbitolina, pseudocyclamina, echinoderm, and bivalve (Figure 7).The space between allochems are filled by micrite and mud supported fabric has been given.The life environment of foraminifer benthic generally is small limited and stripped from the depth and also in waters with normal salt (35%).Orbitolins which is from foraminifers is seen in reefs.They have important comparable biostratigraphy.
The macrofossils present as whole shells; echinoids, cephalopods and foraminifers are the most important fossil groups in this facies.Microscopically, this section shows abundant bioclasts of echinoids, dasycladacean algae, and few benthonic foraminifers, embedded in a matrix of micrite.The cement is mostly blocky sparry calcite and constitutes less than 10%.Figure 8 shows the results of Microscopic investigations of this microfacies bioclastic packstone/wackestone.This microfacies is similar to SMF 10 of Wilson [3], indicating a lagoon environment.This is supported by the very limited whole fossils, mainly cephalopods and echinoids, which indicate a quiet environment, and the presence of dasycladcean algae and benthonic foraminifera is abundant.
2) Cortoidal Packstone/Grainstone (B2) The cortoids are one of types of coated grains and are   covered by micritic envelope only.These grains actually constitute a type of non-laminated coated grains [10].This microfacies of grainstone has been recorded in (Figure 9).The frequency of their appearance in other microfacies is relatively low.This microfacies is interpreted as indicating the presence of a barrier environment similar to Wilson [3] facies belts 5 or 6, SMF 11 and Flügel [4].

3) Rudist Boundstone (B3)
The major allochem of this facies is rudist which includes the whole section and the space between them has been filled by micrite (Figure 10).Rudist is among of reef creatures.Growing beside each other make peace the space between them and as the result, mud forming between them and two separate decks will be connected by mud and make a massive, and give name of boundstone to the stone.This microfacies is interpreted as indicating the presence of a barrier environment similar to Wilson [3] facies belt 5, SMF 7 and Flügel [4].
4) Lithocodium Aggregatum Boundstone (B4) The major allochem of this facies is lithocodium aggregatum (Figure 11).Lithocodium aggregatum is among of reef creatures.This facies can be comparable with SMF 7. Growing beside each other make peace the space between them and as the result, mud forming between them and two separate decks will be connected by mud and make a massive.
This microfacies is interpreted as indicating the presence of a barrier environment similar to Wilson [3] facies belt 5 and Flügel [4].

Open Marine Microfacies
Radiolarian Mudstone (O) The components are composed mostly of radiolarian, spicules and calcified spines of radiolarian, besides planktonic foraminifera.The radiolarian tests were almost fully replaced by calcite, and in some cases they were only partly preserved (Figure 12).Such facies are widespread, in carbonate deposits formed in bathyal environments [9].
Radiolarians are exclusively marine planktonic unicellular organisms consisting of siliceous (opaline) skeletons with sizes less than 2 mm, usually ranging between (100 -250) μm.They populate in open marine environments.In the present-day oceans, and can be found at depths ranging from 100 meters to more than 4000  meters (Flügel, 2004).Fossil radiolarians were found in basinal pelagic limestones [11], but also in shallower sediments.
bioclastic packstones/wackestones, cortoidal packstones/ grainstones, rudist boundstones, lithocodium aggregatum boundstones, and radiolarian mudstones.The analytical studies of these microfacies lead towards the inference that the Fahliyan Formation deposited in the carbonate shelf and the profile studied was situated at the shallowest part of the platform.The allochemical component grains are predominantly bioclastic, tests and particles, which mostly belongs to benthonic foraminifers.Other skeletal grains show a diversity of species, which include echinoderms, sponges, rudists, and algae.

Depositional Environment
After recognition and detailed study on the microfacies and their classification, regarding Walter rule and the arrangement of overlaying microfacies over each other, their comparison with present and older environment [5], [12], evidences such as lack of dais laced and reworked deposits, absence of slides and slumps facies that indicate high slope of depositional environment during sedimentation, it can be concluded that the microfacies of Fahliyan Formation is involved in shallow depth marine environment.Regarding the studies conducted on the profiles on Fahliyan Formation [13] some evidences have been found on the reworked facies therefore, it is believed that the depositional model of Fahliyan Formation is a carbonate shelf and the profile studied was situated at the shallowest part of the platform (Figure 13).

Figure 1 .
Figure 1.Geological map of studied area.

Figure 2 .Fahliyan
Figure 2. Lithostratigraphic column of Fahliyan Formation in the studied area.

Figure 3 .
Figure 3. (A) A northwest view of Kuh-e-Gadvan (lower boundary of Fahliyan Formation with Surmeh Formation) and (B) A southeast view of Kuh-e-Gadvan (upper boundary of Fahliyan Formation with Gadvan Formation).