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REFERENCES 41
Emery KO. Relict sediments on continental shelves of the world. Hay WW, Floegel S. New thoughts about the Cretaceous climate
AAPG Bull 1968a;52:445–464. and oceans. Earth Sci Rev 2012;115:262–272.
Emery KO. Positions of empty pelecypod valves on the continental Hay WW, Sibuet J‐C, Barron EJ, Boyce RE, Brassell SC, Dean
shelf. J Sediment Petrol 1968b;38:1264–1269. WE, Huc A‐Y, et al. Introduction and explanatory notes, deep
Eppley RW, Peterson BJ. Particulate organic matter flux and sea drilling project leg 75. In: Hay WW, Sibuet J‐C, Barron EJ,
planktonic new production in the deep ocean. Nature 1979; Boyce RE, Brassell SC, Dean WE, Huc A‐Y, Keating BH,
282:677–680. McNulty CL, Meyers PA, Nohara M, Schallreuter RE, Steinmetz
Erbacher J, Huber BT, Norris RD, Markey M. Increased thermoha- JC, Stow D, Stradner H, editors. Initial Reports of the Deep Sea
line stratification as a possible cause for an ocean anoxic event Drilling Project. Volume 75, Washington, DC: U.S. Government
in the Cretaceous period. Nature 2001;409:325–327. Printing Office; 1984. p 3–25.
Faure K, Cole D. Geochemical evidence for lacustrine microbial Hedberg HD. Gravitational compaction of clays and shales. Am J
blooms in the vast Permian Main Karoo, Paraná, Falkland Sci 1936;31:241–287.
Islands and Huab basins of southwestern Gondwana. Palaeogeogr Hedges JI, Keil RG. Sedimentary organic matter preservation: an
Palaeoclimatol Palaeoecol 1999;152:189–213. assessment and speculative synthesis. Mar Chem 1995;
Fleming RH, Revelle R. Physical processes in the ocean. In: 49:81–115.
Trask PD, editor. Recent Marine Sediments. Tulsa: AAPG; Hedges JI, Keil RG, Benner R. What happens to terrestrial organic
1939. p 48–141. matter in the ocean? Org Geochem 1997;27:195–212.
Frakes LA, Francis JE, Syktus JI. Climate Modes of the Phanerozoic. Hesselbo SP, Gröcke DR, Jenkyns HC, Bjerrum CJ, Farrimond P,
Cambridge: Cambridge University Press; 1992. Bell HSM, Green OR. Massive dissociation of gas hydrate dur-
French KL, Sepúlveda J, Trabucho‐Alexandre J, Gröcke DR, ing a Jurassic oceanic anoxic event. Nature 2000;406:392–395.
Summons RE. Organic geochemistry of the early Toarcian oce- Hotinski RM, Bice KL, Kump LR, Najjar RG, Arthur MA. Ocean
anic anoxic event in Hawsker Bottoms, Yorkshire, England. stagnation and end‐Permian anoxia. Geology 2001;29:7–10.
Earth Planet Sci Lett 2014;390:116–127. Ingram RL. Fissility of mudrocks. Geol Soc Am Bull
Frey RW, Howard JD, Han SJ, Park BK. Sediments and sedimen- 1953;64:869–878.
tary sequences on a modern macrotidal flat, Inchon, Korea. J Irving E, North FK, Couillard R. Oil, climate, and tectonics. Can J
Sediment Petrol 1989;59:28–44. Earth Sci 1974;11:1–17.
Gamero‐Diaz H, Miller C, Lewis R. sCore: a mineralogy based Jackson ED, Schlanger SO. Regional syntheses, Line Islands
classification scheme for organic mudstones. SPE Int 2013;166284. Chain, Tuamotu Island Chain, and Manihiki Plateau, Central
Garrels RM, Mackenzie FT. Sedimentary rock types: relative propor- Pacific Ocean. In: Schlanger SO, Jackson ED, Boyce RE, Cook
tions as a function of geological time. Science 1969;163:570–571. HE, Jenkyns HC, Johnson DA, Kaneps AG, Kelts KR, Martini
Ghadeer SG, Macquaker JHS. The role of event beds in the preserva- E, McNulty CL, Winterer EL, editors. Initial Reports of the
tion of organic carbon in fine‐grained sediments: analyses of the Deep Sea Drilling Project. Volume 33, Washington, DC: U.S.
sedimentological processes operating during deposition of the Government Printing Office; 1976. p 915–927.
Whitby Mudstone Formation (Toarcian, Lower Jurassic) preserved Johnson HD, Baldwin CT. Shallow clastic seas. In: Reading HG,
in northeast England. Marine Petrol Geol 2012;35:309–320. editor. Sedimentary Environments: Processes, Facies and
Goldman MI. “Black shale” formation in and about Chesapeake Stratigraphy. Oxford: Blackwell Publishing; 1996. p 232–280.
bay. AAPG Bull 1924;8:195–201. Kelts K. Environments of deposition of lacustrine petroleum source
Gorsline DS. Anatomy of margin basins. J Sediment Petrol rocks: an introduction. In: Fleet AJ, Kelts K, Talbot MR, editors.
1978;48:1055–1068. Lacustrine Petroleum Source Rocks. London: Geological
Gould HR, McFarlan E Jr. Geologic history of the Chenier Plain, Society; 1988. p 3–26.
Southwestern Louisiana. Trans Gulf Coast Assoc Geological Kerr AC. Oceanic plateau formation: a cause of mass extinction
Soc 1959;9:261–270. and black shale deposition around the Cenomanian‐Turonian
Grabau AW. Principles of Stratigraphy. New York: A.G. Seiler and boundary? J Geol Soc 1998;155:619–626.
Company; 1913. Kidder DL, Worsley TR. Phanerozoic Large Igneous Provinces
Gradstein F, Ogg J, Smith A. A Geologic Time Scale 2004. (LIPs), HEATT (Haline Euxinic Acidic Thermal Transgression)
episodes, and mass extinctions. Palaeogeogr Palaeoclimatol
Cambridge: Cambridge University Press; 2004. Palaeoecol 2010;295:162–191.
Hallam A. Editorial. Mar Geol 1967;5:329–332. Klemme HD, Ulmishek GF. Effective petroleum source rocks of
Haq BU, Al‐Qahtani AM. Phanerozoic cycles of sea‐level change the world: stratigraphic distribution and controlling deposi-
on the Arabian Platform. GeoArabia 2005;10:127–160. tional factors. AAPG Bull 1991;75:1809–1851.
Haq BU, Hardenbol J, Vail PR. Chronology of fluctuating sea Krumbein WC, Sloss LL. Stratigraphy and Sedimentation. 2nd ed.
levels since the triassic. Science 1987;235:1156–1167. San Francisco, CA: Freeman; 1963.
Hard EW. Black shale deposition in Central New York. AAPG Bull Lallier‐Vergès E, Hayes JM, Boussafir M, Zaback DA, Tribovillard
1931;15:165–181. NP, Connan J, Bertrand P. Productivity‐induced sulphur enrich-
Hay WW. Paleoceanography: a review for the GSA Centennial. ment of hydrocarbon‐rich sediments from the Kimmeridge Clay
Geol Soc Am Bull 1988;100:1934–1956. Formation. Chem Geol 1997;134:277–288.

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