A study on the relationship between graptolites and shale gas enrichment in the Wufeng–Longmaxi Formations of the Middle–Upper Yangtze region in China

[1]  F. Hilgen,et al.  On the Geologic Time Scale , 2012, Newsletters on Stratigraphy.

[2]  R. Morga,et al.  Graptolites as fossil geo-thermometers and source material of hydrocarbons: An overview of four decades of progress , 2020 .

[3]  Chaomo Zhang,et al.  Experimental study on gas content of adsorption and desorption in Fuling shale gas field , 2019, Journal of Petroleum Science and Engineering.

[4]  W. Hongyan,et al.  Importance of Graptolite Evolution and Biostratigraphic Calibration on Shale Gas Exploration , 2019 .

[5]  R. Morga,et al.  The chemical composition of graptolite periderm in the gas shales from the Baltic Basin of Poland , 2018, International Journal of Coal Geology.

[6]  Yongsheng Ma,et al.  China's shale gas exploration and development: Understanding and practice , 2018 .

[7]  Wanli Wang,et al.  Optical characteristics of graptolite-bearing sediments and its implication for thermal maturity assessment , 2018, International Journal of Coal Geology.

[8]  卢斌,et al.  论笔石对页岩气源储的贡献——以华南地区五峰组—龙马溪组笔石页岩为例 , 2018 .

[9]  I. Khan,et al.  The organic petrology of graptolites and maturity assessment of the Wufeng–Longmaxi Formations from Chongqing, China: Insights from reflectance cross-plot analysis , 2017 .

[10]  Li Shurong,et al.  A new method for calculating gas saturation of low-resistivity shale gas reservoirs , 2017 .

[11]  M. Curtis,et al.  Identification and nanoporosity of macerals in coal by scanning electron microscopy , 2017 .

[12]  F. Bao,et al.  Mechanisms of shale gas generation and accumulation in the Ordovician Wufeng-Longmaxi Formation, Sichuan Basin, SW China , 2017 .

[13]  Ping Chen,et al.  Research on Rapid Identification and Evaluation Technology for Gas Formation during Underbalanced Drilling , 2017 .

[14]  Jun Li,et al.  Mineral and pore structure characteristics of gas shale in Longmaxi formation: a case study of Jiaoshiba gas field in the southern Sichuan Basin, China , 2016, Arabian Journal of Geosciences.

[15]  Khaled R. Arouri,et al.  The Silurian Qusaiba Hot Shales of Saudi Arabia: An integrated assessment of thermal maturity , 2016 .

[16]  Liu Yang,et al.  Pore structure of the graptolite-derived OM in the Longmaxi Shale, southeastern Upper Yangtze Region, China , 2016 .

[17]  Jinliang Huang,et al.  Guanyinqiao Member lithofacies of the Upper Ordovician Wufeng Formation around the Sichuan Basin and the significance to shale gas plays, SW China , 2016 .

[18]  N. Zhong,et al.  Graptolite-derived organic matter in the Wufeng-Longmaxi Formations (Upper Ordovician-Lower Silurian) of southeastern Chongqing, China: Implications for gas shale evaluation , 2016 .

[19]  Jinliang Huang,et al.  Shale gas in China: Characteristics, challenges and prospects (II) , 2015 .

[20]  Linqi Zhu,et al.  A Crossplot for Mud Logging Interpretation of Unconventional Gas ShaleReservoirs and its Application , 2015 .

[21]  Xu Chen SUBDIVISION AND DELINEATION OF THE WUFENG AND LUNGMACHI BLACK SHALES IN THE SUBSURFACE AREAS OF THE YANGTZE PLATFORM , 2015 .

[22]  R. Weijermars US shale gas production outlook based on well roll-out rate scenarios , 2014 .

[23]  S. LoDuca,et al.  Graptolites from the Wheeler and Marjum Formations (Cambrian, Series 3) of Utah , 2014 .

[24]  H. Petersen,et al.  Reflectance measurements of zooclasts and solid bitumen in Lower Paleozoic shales, southern Scandinavia: Correlation to vitrinite reflectance , 2013 .

[25]  Mei-Fu Zhou,et al.  Depositional age, provenance, and tectonic setting of the Neoproterozoic Sibao Group, southeastern Yangtze Block, South China , 2012 .

[26]  James G. Ogg,et al.  The Geologic Time Scale 2012 , 2012 .

[27]  S. Ingebritsen,et al.  Biographical profile of incoming editor Mark Person , 2011 .

[28]  R. Loucks,et al.  Morphology, Genesis, and Distribution of Nanometer-Scale Pores in Siliceous Mudstones of the Mississippian Barnett Shale , 2009 .

[29]  Mei-Fu Zhou,et al.  Provenance and tectonic setting of the Neoproterozoic Yanbian Group, western Yangtze Block (SW China) , 2008 .

[30]  C. Ward,et al.  Comparison of elemental composition of macerals determined by electron microprobe to whole-coal ultimate analysis data , 2008 .

[31]  M. Farabee The Geologic Time Scale , 2007 .

[32]  D. Jarvie,et al.  Unconventional shale-gas systems: The Mississippian Barnett Shale of north-central Texas as one model for thermogenic shale-gas assessment , 2007 .

[33]  David A. T. Harper,et al.  The Global Boundary Stratotype Section and Point (GSSP) for the base of the Hirnantian Stage (the uppermost of the Ordovician System) , 2006 .

[34]  K. Schilling,et al.  Groundwater flow and velocity in a 500 ka pre-Illinoian till, eastern Iowa , 2006 .

[35]  C. Ward,et al.  Variations in coal maceral chemistry with rank advance in the German Creek and Moranbah Coal Measures of the Bowen Basin, Australia, using electron microprobe techniques , 2005 .

[36]  C. Mitchell,et al.  Late Ordovician to earliest Silurian graptolite and brachiopod biozonation from the Yangtze region, South China, with a global correlation , 2000, Geological Magazine.

[37]  M. Mastalerz,et al.  Variation in the chemistry of macerals in coals of the Mist Mountain Formation, Elk Valley coalfield, British Columbia, Canada , 1997 .

[38]  P. Liu,et al.  Chemical composition of Xinchangian reclined graptodendroids at Baishan, Jilin Province , 1996 .

[39]  R. Rickards PALAEOECOLOGY OF THE GRAPTOLITHINA, AN EXTINCT CLASS OF THE PHYLUM HEMICHORDATA , 1975 .

[40]  R. Kozłowski On the structure and relationships of graptolites , 1966 .