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http://metododirecto.pt/CM2010 ISBN: 978-989-96923-1-2 Volume III – p. 284 - 288 II CENTRAL & NORTH ATLANTIC CONJUGATE MARGINS CONFERENCE Jurassic reef exploration play in the southern Lusitanian Basin, Portugal Uphoff, T. L.(1); Stemler, D.P. (2) & McWhorter, R.J. (3) (1) Mohave Oil and Gas Corp., 24 Waterway Ave, Suite 350, The Woodlands, TX, USA 77380 [email protected] (2) Forest Oil Corporation, 707 17th St, Suite 3600, Denver, CO, USA 80202 [email protected] (3) Mohave Oil and Gas Corp., 24 Waterway Ave, Suite 350, The Woodlands, TX, USA 77380 [email protected] ABSTRACT A well-developed shelf-edge reef trend is observed on reprocessed 2-D and newly acquired 3-D seismic data from the western margin of the Turcifal sub-basin. Mohave Oil and Gas drilled a 1358m reef test based on the limited 2-D data and encountered Upper Jurassic lime mudstones and reef debris grainstones. Verification of reef facies led to acquisition of the 3-D seismic program which shows three stacked reef complexes ranging in age from Dogger to Oxfordian. Oxfordian and Kimmeridgian source rocks within the sub-basin range up to 6% TOC, and 25º API oil has been recovered from fractured, non-reef Oxfordian carbonates on the east side of the sub-basin. The Oxfordian reef tract is coeval with the productive Abenaki reef reservoir at Panuke Deep gas field, offshore eastern Canada. KEYWORDS: Lusitanian, Portugal, Jurassic, reef, exploration. 1. Introduction Mohave Oil and Gas Corporation identified a Jurassic reef complex on limited 2D seismic data along the western margin of the Turcifal sub-basin of the southern Lusitanian Basin, Portugal (FIG. 1). Mohave drilled a 1358m exploration well based on the 2-D data which encountered lime mudstones and tight reef debris grainstones in the Upper Jurassic section, but did not penetrate reef core facies. This verification of reef environment led to the proposed 117 km2 3-D seismic program over the reef trend currently in progress. FIG. 1 - Location of reef trend, significant wells and simplified stratigraphy 284 2. Regional Stratigraphy and Structure The region is divided into three sub-basins by the tripartite intersection of the Torres Vedras Fault, Montejunto Thrusted Anticline, and Sobral Fault (FIG. 1). The Bombarral sub-basin lies to the north of this “Y” intersection, the Arruda sub-basin to the southeast, and the Turcifal sub-basin to the southwest. The juncture of the three trends is marked by the Matacães Salt Structure, a probable diapir with Liassic Dagorda Fm. evaporites at the surface. Lower and Middle Jurassic stratigraphy in this area is comprised of a basal Lias evaporite-bearing sequence overlain by Lias and Dogger carbonate rocks. The Malm is characterized by Oxfordian carbonates overlain by Kimmeridgian and Tithonian siliciclastics. Dogger-age reef facies have been described from outcrops in the Serra de Porto do Mós, north of the study area (Seifert, 1958) and from well samples from the Abadia-2 well at Abadia Dome (FIG.1). Upper Jurassic reefs are well documented from outcrops along the eastern margin of the Arruda sub-basin (e.g. Nose and Leinfelder, 1997) and have been penetrated in wells along the Montejunto Thrusted Anticline and in the Bombarral sub-basin. 3. Upper Jurassic Source Rocks TOC values of both Oxfordian argillaceous carbonates and Kimmeridgian shales range up to 6%, with the maximum values for each occurring in the Turcifal sub-basin. Vitrinite reflectance values for outcrop and shallow well samples in the northeast Turcifal indicate early oil window maturity. Oil with ~25o API gravity has been recovered from Kimmeridgian sands and fractured, Oxfordian non-reef limestones in this area. No % Ro data are available from the Turcifal basin axis or western margin. Whole oil chromatograms for oils collected from the northeast Turcifal sub-basin and along the Montejunto Thrusted Anticline indicate two separate oil families, suggesting two petroleum systems have been active in the region. 4. Reef Reservoirs The Campelos-1 well (Cp-1) and Bombarda-1 well (Bb-1) in the Bombarral subbasin (FIG.1) both logged significant reef porosity with modern wireline tools. Cp-1 penetrated over 100m of water-bearing Oxfordian reef reservoir with porosity ranging from 10% to 18%. Bb-1 drilled 75m of oolitic and bioclastic grainstone/packstone with reef debris. The well penetrated a net 25m of porosity ranging from 10% to 14%. The Pragança-1 well (Pr-1) was drilled in 1959 on the northeast plunge of the Montejunto Thrusted anticline trend (FIG. 1). This well is located down dip of extensive tar accumulations in outcrops of Oxfordian reef and associated carbonate and overlying sandstone facies. Pr-1 penetrated 450m of interbedded Oxfordian reef boundstone, grainstone and mudstone with significant saturation of tar and heavy oil that became more liquid with depth. 285 FIG. 2 - Aldeia-2 reef facies core and analysis On the Montejunto Anticline at Abadia Dome (FIG. 1), the Aldeia-2 well (Ald-2) cored 1m of oil-saturated Oxfordian reef facies (FIG. 2). Whole core analysis indicated 23% porosity and horizontal and vertical permeability of 1 Darcy. Additionally, the Abadia-2 well (Ab-2), the only deep well at Abadia Dome, penetrated upper Dogger carbonates described as reefal, algal and oolitic, with abundant sample oil shows. Microlog separation indicates over 100m of net porous and permeable zones within the upper 160m of the Dogger reefal facies. 5. New 3-D Seismic Data over the Turcifal Reef Trend At present, 3-D seismic acquisition is complete over the northern 40% of the Turcifal shelf-edge reef trend (FIG. 1). An E-W inline from the current 3-D dataset that highlights important aspects of the Turcifal reef complex is shown as FIG. 3. 286 FIG. 3 - 3D inline 80 over the Turcifal sub-basin Jurassic reef trend. Interpreted reef bodies in blue and possible mass-wasting deposit in brown. Formation tops are indicated. The seismic line shows how reefal development initiated in the Lower Jurassic, localized over a major rift fault. After the Dagorda evaporites were deposited, continuing post-rift sag draped them over the rift margin fault. The initial stage of carbonate deposition then occurred, including parallel trends of patch reefs and what appear to be shoaling episodes. The next stage of reefing appears to have been significantly exposed afterward, resulting in an interpreted mass-wasting deposit downdip. The final reefing episode took place through the end of Oxfordian (Montejunto Fm.). This reef has a greater areal extent than any of the previous episodes (FIG. 4), as well as the greatest height. Overlying Kimmeridgian Abadia Fm. onlaps the reef front and covers the top. Where penetrated in the Mohave TVR G-1 well, the basal Abadia consists of 80m of intercalated, thin beds of silty shale, siltstone and silty, argillaceous micrite, characterized by high Gamma Ray values, largely in the 50 to 75 API unit range. Compaction folding over the reef bodies is well-exhibited, as is faulting in the Abadia clastics that does not appear to affect the underlying Montejunto carbonates. The essentially flat nature of the post-reef Upper Jurassic section indicates the reef trend has not been subjected to significant Cretaceous and Tertiary deformation which could breach reef reservoirs. The recovery of live oil from fractured, non-reef Montejunto carbonates and overlying Abadia fine-grained sandstones at the northeast margin of the Turcifal subbasin (FIG. 1) indicates the sub-basin has generated hydrocarbons. The reef trend along the western margin of the sub-basin is in an excellent position to receive a hydrocarbon charge and its structural history suggests little risk of subsequent breaching. Data acquisition in the southern part of the 3-D survey which will tie the Mohave TVR G-1 well has not yet been completed. 287 FIG. 4 - Time structure map on the top of the Montejunto Fm. showing shelf-edge reef development. Acknowledgements The authors thank Porto Energy Corp., Mohave Oil and Gas Corporation and Divisão Para a Pesquisa e Exploracão de Petróleo (D.P.E.P.) for permission to present this data. References Nose, M. & Leinfelder, R.R. (1997) - Upper Jurassic Coral Communities within Siliciclastic Settings (Lusitanian Basin, Portugal): Implications for Symbiotic and Nutrient Strategies: Proc. 8th Int. Coral Reef Symp. P.1755-1760 Seifert, H. (1958) - The North Candieiros Anticline. Company Report: Companhia dos Petróleos de Portugal & Mobil Exploration Portugal Inc., Archives, Divisão Para a Pesquisa e Exploracão de Petróleo (D.P.E.P.), Lisboa 288