scholarly journals The Devonian Horn River Group and the basal Imperial Formation of the central Mackenzie Plain, N.W.T., Canada: multiproxy stratigraphic framework of a black shale basin

2017 ◽  
Vol 54 (4) ◽  
pp. 409-429 ◽  
Author(s):  
Pavel Kabanov ◽  
Sofie A. Gouwy
Keyword(s):  
Trace Metal ◽  
Black Shale ◽  
Main Part ◽  
Basal Part ◽  
Type I ◽  
Tectonic Zone ◽  
Mirror Lake ◽  
Stratigraphic Framework ◽  
Lithostratigraphic Units ◽  
Drowning Unconformity

This study proposes six new lithostratigraphic units and redefines two others within the Horn River Group (HRG), a shale-dominated succession recently prospected for shale hydrocarbons. Its lower Hare Indian Formation rests on a drowning unconformity. In the SOB area (the area between Norman Wells and the Keele tectonic zone), this formation consists of the Bluefish black shale, Francis Creek grey shale, and Prohibition Creek black shale members. The latter two are lateral equivalents of the grey shale Bell Creek Member (updated definition) in the northern part of the study area. The overlying Canol Formation in the SOB area is divided into the Vermillion Creek and Dodo Canyon members. The Prohibition – Dodo Canyon package is ≥100 m thick and composed of brittle siliceous mudrocks with median SiO2 68%–79%, Al2O3 6%–9%, varying amount of calcite and dolomite, and type I–II kerogen with median TOC 4.5%. The thin Canol Formation blanketing Kee Scarp carbonate banks is identified as its Dodo Canyon Member. The latter is a “sweet bed” for fracking with median SiO2 75%–79%, TOC 5.1%, and trace-metal signatures indicating strongest anoxia in the section. The Mirror Lake Member in the base of the overlying Imperial Formation consists of soft illite-rich grey shales with minor siderite and dolomite. The overlying Loon Creek Member is composed of Canol-like black shale facies in its basal part and less organic-rich, lighter-colored shales and siltstones above. The Loon Creek Member is partly coeval with an overlying succession of sandstones and siltstones of the Canyon Member in its updated definition. Conodont data do not indicate significant time gaps between lithostratigraphic units. The majority of standard conodont zones from the uppermost Eifelian (ensensis Zone) up to the middle Frasnian (punctata Zone) are recognized. Assemblages of the hemiansatus and semialternans/latifossatus zones are missing probably owing to scarcity of conodont samples. The base of the HRG approximates the Eifelian–Givetian boundary, and the Hare Indian Formation is mostly Givetian. The Vermillion Creek Member spans the Givetian–Frasnian boundary. In places where thick Kee Scarp carbonates aggrade on thick sections of the Bell Creek Member, the Kee Scarp – Canol contact is found within the transitans Zone and the Middle Frasnian punctata Zone conodont assemblage is found in the basal part of the Dodo Canyon Member. The main part of the Dodo Canyon Member and basal beds of the Imperial Formation remain undated.

Energy distribution of weak deformed rock mass and its influence on gas well productivity

2019 ◽  
Vol 7 (2) ◽  
pp. T423-T435 ◽  
Author(s):  
Shuai Yin ◽  
Yi Wang ◽  
Jingzhou Zhao ◽  
Yan Wang ◽  
Weitao Wu ◽  
...  
Keyword(s):  
Energy Density ◽  
Strain Energy Density ◽  
Strain Energy ◽  
Production Capacity ◽  
Type I ◽  
Tight Sandstone ◽  
Tectonic Zone ◽  
Gas Well ◽  
Well Productivity ◽  
Low Amplitude

Microfractures represent an important rupture type, but current studies on the construction of microscale rupture parameters and their impacts on oil and gas production capacity are relatively weak. Therefore, we constructed the strain energy density ([Formula: see text]) based on 3D finite-element method (FEM) for the tight sandstone reservoir of the Permian He8 segment in the western region of the Sulige gas field, Ordos Basin. It indicated that the [Formula: see text] values of the major production layers are mainly distributed between 0.12 and [Formula: see text]. High-[Formula: see text]-value regions ([Formula: see text]) are mainly distributed in local areas of the western, central, and eastern regions. The [Formula: see text] values are small in the northwestern part of the study area and are usually less than [Formula: see text]. There is a very good exponential correlation between the [Formula: see text] values and gas well productivity (the main controlling factor for the production capacity of the He8 tight sandstone is the gas content, and fracturing, as an engineering factor affecting capacity, has not been taken into account). The distribution of the strain energy densities also matches the low-amplitude tectonic zone well. We have developed the criterion for the discrimination of gas well productivity using the strain energy density. According to this criterion, the conformity rates of type I, type II, and type III wells are 92.3%, 73.0%, and 83.3%, respectively. The areas with [Formula: see text] values greater than [Formula: see text], especially for areas with [Formula: see text] values exceeding [Formula: see text], which should serve as the core exploration targets. The research results can effectively guide tight gas sandstone exploration in low-amplitude tectonic zones and reduce the risk of drilling.

Using precise CA-TIMS ages of volcanic air-fall tuff beds in correlating the Walloon Coal Measures of the Surat Basin, Australia

2017 ◽  
Vol 57 (2) ◽  
pp. 810 ◽  
Author(s):  
Carmine Wainman ◽  
Peter McCabe
Keyword(s):  
High Precision ◽  
Sedimentary Facies ◽  
Time Frame ◽  
Upper Jurassic ◽  
Marine Strata ◽  
Stratigraphic Framework ◽  
Lithostratigraphic Units ◽  
Spectrometry Technique ◽  
Discontinuous Nature ◽  
Coal Measures

The Upper Jurassic Walloon Coal Measures of the Surat Basin is one of Australia’s largest and most productive gas provinces. Despite the drilling of over 8500 wells and numerous publications, the stratigraphic framework is poorly defined. The laterally discontinuous nature of the sedimentary facies, including coals and fluvial channel sandstones, makes correlation difficult. The abundance of volcanic air-fall tuff beds within strata across the basin provides a unique opportunity to independently verify existing stratigraphic frameworks. Using the high-precision chemical abrasion thermal ionisation mass spectrometry technique, zircon grains from 28 tuff beds have been successfully dated within an error margin of less than 100 kyr. These dates substantially revise biostratigraphic and lithostratigraphic frameworks. Lithostratigraphic units are diachronous across the basin. In addition, the sparsity of key spore–pollen taxa limits the application of biostratigraphy. The complex interplay of climate and subsidence on facies distributions can now be documented over a time frame of ~4 Ma. Syntectonism played an important role in variable palaeodrainage patterns across the basin, the frequency of fluvial avulsions and preferential sites of peat accumulation through time. The new stratigraphic framework should aid in future exploration for coal seam gas in the area. Dating tuff beds using high-precision dating techniques should also assist in correlation of non-marine strata elsewhere in the world.

scholarly journals A New Framework for the Pleistocene Stratigraphy of the Central St. Lawrence Lowland, Southern Québec

2007 ◽  
Vol 43 (2) ◽  
pp. 119-129 ◽  
Author(s):  
Michel Lamothe
Keyword(s):  
Environmental Changes ◽  
Borehole Data ◽  
Depositional Sequence ◽  
Stratigraphic Framework ◽  
Stage 4 ◽  
Lithostratigraphic Units ◽  
New Framework ◽  
St Lawrence River ◽  
Glacial Advance ◽  
The Last Glacial

ABSTRACT For three decades, a stratigraphic framework involving one glaciation with two major ice advances (represented by the Bécancour Till and Gentilly Till), separated by one brief interstade (represented by the St. Pierre Sediments), has been invoked to explain the lithostratigraphic succession of Pleistocene sediments exposed in the St. Lawrence Lowland of southern Québec. New exposures found along the bluffs of the St. Lawrence River and recent borehole data provide evidence that the Pleistocene depositional sequence is the result of three glacial advances and two nonglacial events, each represented by organic-bearing units. Two lithostratigraphic units (Lotbinière Sand and Lévrard Till) and three climatostratigraphic units (St. Lawrence Stade, Grondines Interstade and Les Becquets Interstade) are introduced in the stratigraphie nomenclature. No definite age can be assigned to the lowermost till (Bécancour?) but it is now believed to be pre-Sangamonian. Field observations and geochronological data suggest the lower and upper interstadial sediments, and an intervening glacial unit represent brief but severe environmental changes that occurred at the beginning of the Wisconsin Glaciation, ca. 90-70 ka BP. This sequence may correlate with marine isotope stage 5a, stage 4, and the earliest part of stage 3. The age of the onset of the last glacial advance (Gentilly Till) is problematic, possibly ranging from 60 to 30 ka BP.

scholarly journals Tempo-spatial variation of the late Mesozoic volcanism in Southeast China testing the western Paleo-Pacific Plate subduction models

2019 ◽  
Author(s):  
Xianghui Li ◽  
Xianghui Li ◽  
Jingyu Wang ◽  
Chaokai Zhang ◽  
Yin Wang ◽  
...  
Keyword(s):  
Pacific Plate ◽  
Published Data ◽  
Dynamical Process ◽  
Tectonic Zone ◽  
Southeast China ◽  
Late Mesozoic ◽  
Rock Samples ◽  
Lithostratigraphic Units ◽  
Extrusive Rock ◽  
Intensive Group

Abstract. The westward subduction of Paleo-Pacific plate (PPP) played a governing role in tectonic evolution of East Asia. Although various PPP subduction models have been proposed, the subduction age and dynamical process of the PPP remain controversial. In this study, we investigate the geochronology of extrusive rocks and tempo-spatial variations of the late Mesozoic volcanism in Southeast China. We reported zircon U-Pb ages of new 48 extrusive rock samples in the Shi-Hang tectonic zone. Together with the published data, ages of ~ 300 rock samples from ~ 40 lithostratigraphic units were compiled, potentially documenting a relatively complete history and spatial distribution of the late Mesozoic volcanism in Southeast China. The results show that the extrusive rocks spanned ~ 95 Myr (177–82 Ma), but dominantly ~ 70 Myr (160–90 Ma), with two main age populations of 145–125 Ma and 105–95 Ma. We propose that these ages represent the intervals of the Yanshanian volcanism in Southeast China and the western subduction of the PPP, within which two intensive volcanic eruptional pulses happened. Spatially, the age geographic pattern of extrusive rocks is both the oldest and youngest age clusters occurring in the CZ and the younger intensive group in the SHTB, indicating that the late Mesozoic volcanism migrated northwestly from the coast to the inland prior to ~ 145 Ma and subsequently retreated southeastly back to the coast. This migration pattern is interpreted to result from a northwestward subduction followed by a southeastward rollback or retreat of the PPP.

scholarly journals Aspects of the Cenozoic stratigraphy of the Northern Sulaiman Ranges, Pakistan

1997 ◽  
Vol 16 (1) ◽  
pp. 51-58 ◽  
Author(s):  
R. W. Jones
Keyword(s):  
Carbonate Platform ◽  
Shallow Marine ◽  
Sequence Stratigraphic ◽  
Depositional Settings ◽  
Marine Carbonate ◽  
Stratigraphic Framework ◽  
Lithostratigraphic Units

Abstract. The results of micropalaeontological, nannopalaeontological and palynological analyses of Cenozoic sections from the Northern Sulaiman Ranges in Pakistan are discussed. They are in keeping with previously published results (though in some cases significantly more refined). They enable placement of most of the sampled lithostratigraphic units in a global bio- and sequence-stratigraphic framework. Limestones appear to be associated with essentially transgressive global sequences, shales with essentially regressive sequences. Palaeoenvironmental interpretations indicate a range of depositional settings from continental through shallow marine to basinal. A number of shallow marine carbonate platform sub-environments are recognized over the Palaeocene–Eocene section

scholarly journals Resolving the Architecture and Early Evolution of a Forearc Basin (Georgia Basin, Canada) Using Detrital Zircon

2019 ◽  
Vol 9 (1) ◽  
Author(s):  
Chuqiao Huang ◽  
Shahin E. Dashtgard ◽  
Bryan A. P. Kent ◽  
H. Daniel Gibson ◽  
William A. Matthews
Keyword(s):  
Detrital Zircon ◽  
Sediment Provenance ◽  
Sequence Stratigraphic ◽  
Dimensional Scaling ◽  
Stratigraphic Framework ◽  
Lithostratigraphic Units ◽  
Basin Scale ◽  
Georgia Basin ◽  
Multi Dimensional Scaling ◽  
Internal Architecture

Abstract Convergent-margin basins (CMBs) are commonly associated with active arcs, and hence are rich in detrital zircon (DZ) whose ages closely reflect the timing of deposition. Consequently, maximum depositional ages (MDA) from DZ geochronology can be employed to resolve the stratigraphy and evolution of CMBs. Herein, we use DZ to revise the internal architecture of the lower Nanaimo Group, which partially comprises the fill of the (forearc) Georgia (or Nanaimo) Basin. Maximum depositional ages and multi-dimensional scaling of DZ age distributions are employed to determine chronologic equivalency of strata and assess sediment provenance variability within the pre-existing lithostratigraphic framework. The results are compared to a recently developed sequence stratigraphic framework for the lower Nanaimo Group. The basal lithostratigraphic unit of the Nanaimo Group, the Comox Formation (Fm), comprises strata that are neither time correlative nor genetically related. The three lithostratigraphic units directly overlying the Comox Fm (Haslam, Extension, and Protection formations) comprise strata with similar genetic affinities and MDAs that indicate deposition of these units was not always sequential and locally was contemporaneous. Through this work, we provide an example of how MDAs from DZ geochronology in CMBs can resolve basin-scale stratigraphic relations, and identify chronological changes in sediment provenance.

scholarly journals Stratigraphic control of the Aptian–Early Turonian sequences of the Levant Platform, Coastal Range, northwest Syria

GeoArabia ◽  
2013 ◽  
Vol 18 (4) ◽  
pp. 85-132
Author(s):  
Hussam Ghanem ◽  
Jochen Kuss
Keyword(s):  
Carbon Cycle ◽  
Carbon Isotope ◽  
Global Changes ◽  
Sequence Stratigraphic ◽  
Stratigraphic Framework ◽  
Lithostratigraphic Units ◽  
Northern Edge ◽  
Stratigraphic Evolution ◽  
Isotope Measurements ◽  
Coastal Range

ABSTRACT The predominantly carbonate Aptian–Lower Turonian succession of the Coastal Range in northwest Syria represents the northern edge of the Levant Platform. It was divided into 28 lithostratigraphic units, mainly reflecting shallowing-up and deepening-up intervals. We combined lithostratigraphy, biostratigraphy and carbon-isotope measurements, with facies interpretations, to establish a sequence-stratigraphic framework, adapted from outcrop data along two transects. The sequence-stratigraphic evolution records major transgressions-regressions and hiatuses that are compared with regional sequences of the Arabian and Levant platforms and the Tethyan realm. Age control, based on planktonic and benthonic foraminifera and ammonite biostratigraphies, is relatively good, despite changing diversities and occurrences. The chronostratigraphic framework is based on seven benthonic foraminiferal biozones (Aptian to Early Turonian) and six planktonic foraminiferal biozones (with two subzones) (latest Albian to Cenomanian). The studied carbon-isotope fluctuations record significant perturbations that are comparable with several global changes of the carbon cycle: OAE1d, LCE I-III, MCE and OAE2. The combined chemostratigraphic and biostratigraphic approach permits correlating the carbon-isotope curve of the Coastal Range with those from the Tethyan realm, England and South Palmyrides.

scholarly journals First evidence of the early cretaceous oceanic anoxic events (MBE and OAE1a) in the southern Tethyan margin (NE-Tunisia): biostratigraphy and shale resource system

2021 ◽  
Vol 11 (4) ◽  
pp. 1559-1575
Author(s):  
Rachida Talbi ◽  
Ahlem Amri ◽  
Abdelhamid Boujemaa ◽  
Hakim Gabtni ◽  
Reginal Spiller ◽  
...  
Keyword(s):  
Black Shale ◽  
Saturation Index ◽  
Black Shales ◽  
Source Rocks ◽  
Type I ◽  
Hydrocarbon Generation ◽  
Shale Oil ◽  
Hydrocarbon Generation Potential ◽  
Anoxic Events ◽  
Rock Eval

AbstractThe Jebel Oust region (north-eastern Tunisia) recorded two levels of marine black shale in the Lower Cretaceous marly series. Geodynamic evolution, biostratigraphic and Rock–Eval analysies allow classifying those black shales as unconventional shale oil resource systems that were deposited during two oceanic anoxic events: the Middel Barremian Event "MBE" and the Early Aptian Event "OAE1a". Paleogeographic evolution highlights two transgressive–regressive cycles: the first one is Valanginian-Early Barremian, and the second is Late Barremian–Early Aptian. Each black shale deposit occurs at the end of the transgression that coincides with the highest sea level. During the Barreman–Aptian interval, sedimentation was controlled by extensional faults in a system of tilted fault blocks which were reactivated several times. Kerogen is of type I, II origin in black shales and of type III origin in marls. Tmax values indicate "oil window" stage. Average transformation ratio is around 67% and 82%, respectively, in the Lower Aptian and Middel Barremian source rock related to the relatively high thermal maturity degree due to the deep burial of the later. Estimated initial hydrocarbon generation potential is moderate to high. Oil saturation index records an "oil crossover" indicating expelled and migrated hydrocarbons from the organic-rich to the organic-poor facies. The petroleum system of the two mature source rocks with a high hydrocarbon generation potential enclose all elements characterizing a "shale oil hybrid system with a combination of juxtaposed organic-rich and organic-lean facies associated with open fractures".

Sign in / Sign up

Export Citation Format

Share Document