Skip to Main Content
Skip Nav Destination

Porosity reduction and burial history of siliceous rocks from the Monterey and Sisquoc Formations, Point Pedernales area, California

GSA Bulletin (1991) 103 (5): 625–636.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Evolution of porewater in a Neogene sedimentary formation in the Horonobe area, Hokkaido, Japan: Modeling of burial diagenesis
GEOCHEMICAL JOURNAL (2023) 57 (5): 155.
Sedimentological and Petrographical Characterization of the Cambrian Abbottabad Formation in Kamsar Section, Muzaffarabad Area: Implications for Proto-Tethys Ocean Evolution
Journal of Marine Science and Engineering (2023) 11 (3): 526.
Temperature–time relationships and their implications for thermal history and modelling of silica diagenesis in deep-sea sediments
Marine Geology (2021) 439: 106541.
Voluminous Silica Precipitated from Martian Waters during Late-stage Aqueous Alteration
The Planetary Science Journal (2021) 2 (2): 65.
Anomalous compaction due to silica diagenesis — Textural and mineralogical evidence from hemipelagic deep-sea sediments of the Japan Sea
Marine Geology (2020) 426: 106204.
The influence of shale depositional fabric on the kinetics of hydrocarbon generation through control of mineral surface contact area on clay catalysis
Geochimica et Cosmochimica Acta (2018) 220: 429.
Clay-organic association as a control on hydrocarbon generation in shale
Organic Geochemistry (2017) 105: 42.
Silica diagenesis in Cenozoic mudstones of the North Viking Graben: physical properties and basin modelling
Basin Research (2017) 29 (S1): 556.
Grain composition and diagenesis of organic-rich lacustrine tarls, Triassic Yanchang Formation, Ordos Basin, China
Interpretation (2017) 5 (2): SF189.
Impact of silica diagenesis on the porosity of fine‐grained strata: An analysis of Cenozoic mudstones from the North Sea
Geochemistry, Geophysics, Geosystems (2017) 18 (4): 1537.
Physical and hydraulic properties of modern sinter deposits: El Tatio, Atacama
Journal of Volcanology and Geothermal Research (2016) 325: 156.
Thin-section analysis of lithified paleosols from Dagshai Formation of the Himalayan Foreland: Identification of paleopedogenic features and diagenetic overprinting and implications for paleoenvironmental reconstruction
CATENA (2014) 112: 86.
Burial Diagenesis of Diatomaceous Deposits and Its Effects on Hydrocarbon Accumulation
Journal of Geography (Chigaku Zasshi) (2013) 122 (1): 69.
A new DNA extraction method by controlled alkaline treatments from consolidated subsurface sediments
FEMS Microbiology Letters (2012) 326 (1): 47.
Impact of 3D Seismic Technologies on Sedimentology Study
Advanced Materials Research (2012) 463-464: 1041.
Chert spheroids of the Monterey Formation, California (USA): early‐diagenetic structures of bedded siliceous deposits
Sedimentology (2011) 58 (2): 325.
Thick slides dominated by regular-wavelength folds and thrusts in biosiliceous sediments on the Vema Dome offshore of Norway
Marine Geology (2011) 289 (1-4): 34.
Structure of a silica diagenetic transformation zone: the Gjallar Ridge, offshore Norway
Sedimentology (2011) 58 (2): 424.
Measurement of diagenetic compaction strain from quantitative analysis of fault plane dip
Journal of Structural Geology (2010) 32 (5): 641.
Fossilisation of a silica diagenesis reaction front on the mid-Norwegian margin
Marine and Petroleum Geology (2010) 27 (10): 2141.
Juvenile chemical sediments and the long term persistence of water at the surface of Mars
Earth and Planetary Science Letters (2009) 286 (3-4): 379.
Fluid flow due to the advance of basin-scale silica reaction zones
Geological Society of America Bulletin (2008) 120 (1-2): 195.
Morphological development of basin-scale silica diagenetic fronts revealed with 2D seismic reflection data: offshore Sakhalin, Russian Far East
Journal of the Geological Society (2007) 164 (6): 1193.
Differential compaction and subsidence in sedimentary basins due to silica diagenesis: A case study
Geological Society of America Bulletin (2005) 117 (9): 1146.
Phosphogenesis and organic-carbon preservation in the Miocene Monterey Formation at Naples Beach, California—The Monterey hypothesis revisited
Geological Society of America Bulletin (2005) 117 (5): 589.
Quantifying the contribution of tectonics vs. differential compaction in the development of domes along the Mid‐Norwegian Atlantic margin
Basin Research (2005) 17 (2): 289.
Upper Oligocene diatomaceous deposits in the northern North Sea - silica diagenesis and paleogeographic implications
Norsk Geologisk Tidsskrift (1999) 79 (1): 3.
Geometry of inverted faults and related folds in the Monterey formation: implications for the structural evolution of the southern Santa Maria basin, California
Journal of Structural Geology (1997) 19 (10): 1303.
Ultrasonic velocities of opaline rocks undergoing silica diagenesis
Geophysical Research Letters (1997) 24 (16): 2039.
Chemical criteria to identify the depositional environment of chert: general principles and applications
Sedimentary Geology (1994) 90 (3-4): 213.
Rare earth, major, and trace element composition of Monterey and DSDP chert and associated host sediment: Assessing the influence of chemical fractionation during diagenesis
Geochimica et Cosmochimica Acta (1992) 56 (7): 2657.
Mineralization of organogenic ammonium in the Monterey Formation, Santa Maria and San Joaquin basins, California, USA
Geochimica et Cosmochimica Acta (1992) 56 (5): 1979.
Origin and Diagenesis of Clay Minerals in the Monterey Formation, Santa Maria Basin Area, California
Clays and Clay Minerals (1991) 39 (5): 449.
Close Modal

or Create an Account

Close Modal
Close Modal