Page 62 - Fundamentals of Gas Shale Reservoirs
P. 62
42 ORGANIC MATTER‐RICH SHALE DEPOSITIONAL ENVIRONMENTS
Larson RL. Geological consequences of superplumes. Geology McKee ED, Weir GW. Terminology for stratification and cross‐
1991;19:963–966. stratification in sedimentary rocks. Geol Soc Am Bull 1953;
Laws EA, Falkowski PG, Smith WO Jr, Ducklow H, McCarthy JJ. 64:381–390.
Temperature effects on export production in the open ocean. Meade RH. Sources and sinks of suspended matter on continental
Glob Biogeochem Cycles 2000;14:1231–1246. shelves. In: Swift DJP, Duane DB, Pilkey OH, editors. Shelf
Lewan MD. Laboratory classification of very fine grained sedimen- Sediment Transport: Process and Pattern. Stroudsburg: Dowden,
tary rocks. Geology 1978;6:745–748. Hutchinson & Ross, Inc.; 1972. p 249–262.
Lobza V, Schieber J. Biogenic sedimentary structures produced by Meade RH. Suspended sediments of the Modern Amazon and
worms in soupy, soft muds; observations from the Chattanooga Orinoco Rivers. Quat Int 1994;21:29–39.
Shale (Upper Devonian) and experiments. J Sediment Res Meyer KM, Kump LR. Oceanic euxinia in earth history: causes and
1999;69:1041–1049. consequences. Ann Rev Earth Planet Sci 2008;36:251–288.
MacKay DA, Dalrymple RW. Dynamic mud deposition in a tidal Migniot C. Étude Des Propriétés Physiques De Différents Sédiments
environment: the record of fluid‐mud deposition in the Très Fins Et De Leur Comportement Sous Des Actions
Cretaceous Bluesky Formation, Alberta, Canada. J Sediment Hydrodynamiques. La Houille Blanche 1968;7:591–620.
Res 2011;81:901–920. Miller KG, Kominz MA, Browning JV, Wright JD, Mountain GS,
Macquaker JHS, Howell JK. Small‐scale (<5.0 m) vertical hetero- Katz ME, Sugarman PJ, Cramer BS, Christie‐Blick N, Pekar
geneity in mudstones: implications for high‐resolution stratig- SF. The phanerozoic record of global sea‐level change. Science
raphy in siliciclastic mudstone successions. J Geol Soc 2005;310:1293–1298.
1999;156:105–112. Milliman JD, Meade RH. World‐wide delivery of river sediment to
Macquaker JHS, Taylor KG, Gawthorpe RL. High‐resolution facies the oceans. J Geol 1983;91:1–21.
analyses of mudstones: implications for paleoenvironmental Milliman JD, Pilkey OH, Ross DA. Sediments of the continental
and sequence stratigraphic interpretations of offshore ancient margin off the Eastern United States. Geol Soc Am Bull
mud‐dominated successions. J Sedim Res 2007;77: 324–339. 1972;83:1315–1334.
Macquaker JHS, Keller MA, Davies SJ. Algal blooms and “marine Morse JW, Mackenzie FT. Geochemistry of Sedimentary Carbonates.
snow”: mechanisms that enhance preservation of organic carbon Developments in Sedimentology 48. New York: Elsevier; 1990.
in ancient fine‐grained sediments. J Sediment Res 2010a; Müller PJ, Suess E. Productivity, sedimentation rate, and sedimentary
80:934–942. organic matter in the oceans—I. Organic carbon preservation.
Macquaker JHS, Bentley SJ, Bohacs KM. Wave‐enhanced sedi- Deep‐Sea Res 1979;26A:1347–1362.
ment‐gravity flows and mud dispersal across continental Murray J, Renard AF. Report on deep‐sea deposits based on the
shelves: reappraising sediment transport processes operating in specimens collected during the voyage of H.M.S. Challenger in
ancient mudstone successions. Geology 2010b;38:947–950. the years 1872 to 1876. London: Her Majesty’s Stationery
Mancini EA, Tew BH, Mink RM. Petroleum source rock potential Office; 1891.
of Mesozoic condensed section deposits of Southwest Alabama. Nair RR. Unique mud banks, Kerala, Southwest India. AAPG Bull
In: Katz BJ, Pratt LM, editors. Source Rocks in a Sequence 1976;60:616–621.
Stratigraphic Framework. Volume 37, Tulsa: AAPG Studies in Newell RIE. Ecological changes in Chesapeake Bay: are they the
Geology; 1993. p 147–162. result of overharvesting the American Oyster, Crassostrea virgi-
Manheim FT, Meade RH, Bond GC. Suspended matter in surface nica?”. In: Understanding the Estuary: Advances in Chesapeake
waters of the Atlantic Continental Margin from Cape Cod to the Bay Research. Baltimore: Chesapeake Research Consortium;
Florida Keys. Science 1970;167:371–376. 1988. p 536–546.
Mantz PA. Bedforms produced by fine, cohesionless, granular and North FK. Episodes of source‐sediment deposition. J Petrol Geol
flakey sediments under subcritical water flows. Sedimentology 1979;2:199–218.
1978;25:83–103. O’Brien NR. Shale lamination and sedimentary processes. In:
McAnally W, Friedrichs C, Hamilton D, Hayter E, Shrestha P, Kemp AES, editor. Palaeoclimatology and Palaeoceanography
Rodriguez H, Sheremet A, Teeter A. Management of fluid mud from Laminated Sediments. London: Geological Society; 1996.
in estuaries, bays, and lakes. i: present state of understanding on p 23–36.
character and behavior. J Hydraul Eng 2007;133:9–22. Östlund HG. Expedition “Odysseus 65”: radiocarbon age of black
McArthur JM. Strontium isotope stratigraphy. In: Ratcliffe KT, Zaitlin sea deep water. In: Degens ET, Ross DA, editors. The Black
BA, editors. Application of Modern Stratigraphic Techniques: Sea—Geology, Chemistry, and Biology. Tulsa: AAPG; 1974.
Theory and Case Histories. Tulsa: SEPM; 2010. p 129–142. AAPG Memoir 20. p 127–132.
McCave IN. Transport and escape of fine‐grained sediment from Paola C, Leeder M. Simplicity versus complexity. Nature
shelf areas. In: Swift DJP, Duane DB, editors. Shelf Sediment 2011;469:38–39.
Transport: Process and Pattern. Stroudsburg: Dowden, Parrish JT. Upwelling and petroleum source beds, with reference to
Hutchinson & Ross, Inc.; 1972. p 225–248. Paleozoic. AAPG Bull 1982;66:750–774.
McElwain JC, Wade‐Murphy J, Hesselbo SP. Changes in carbon Parrish JT. Palaeo‐upwelling and the distribution of organic‐rich rocks.
dioxide during an oceanic anoxic event linked to intrusion into In: Brooks J, Fleet AJ, editors. Marine Petroleum Source Rocks.
Gondwana coals. Nature 2005;435:479–482. London: Geological Society; 1987. p 199–205.
