Sedimentary geology: Difference between revisions
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'''Sedimentary geology''' encompasses the subdisciplines of [[sedimentology]] and [[stratigraphy]]. The field addresses all aspects of research into sediments and sedimentation processes at all spatial and temporal scales, sedimentary systems and [[basin analysis]], subsurface analysis of sedimentary sequences, [[diagenesis]] (processes involving biological, physical and chemical changes in sediment which may then culminate in lithification), chemical sedimentology and numerical modelling (analysis of stratification facies). | '''Sedimentary geology''' encompasses the subdisciplines of [[sedimentology]] and [[stratigraphy]]. The field addresses all aspects of research into sediments and sedimentation processes at all spatial and temporal scales, sedimentary systems and [[basin analysis]], subsurface analysis of sedimentary sequences, [[diagenesis]] (processes involving biological, physical and chemical changes in sediment which may then culminate in lithification), chemical sedimentology and numerical modelling (analysis of stratification facies). | ||
Sedimentology is the study of the production, composition, transport, and deposition of sediment. | Sedimentology is the study of the production, composition, transport, and deposition of sediment. | ||
Stratigraphy is the study of existing layers or rocks and minerals and the process of layering (stratification). The primary focuses are the process of sedimentation encompassing such dynamics as changes in sea level, tectonic activity, and climatic effects on the production of sediment (e.g. particulates carried in water runoff due to flooding) and material sequentially layered through volcanic activity. | Stratigraphy is the study of existing layers or rocks and minerals and the process of layering (stratification). The primary focuses are the process of sedimentation encompassing such dynamics as changes in sea level, tectonic activity, and climatic effects on the production of sediment (e.g. particulates carried in water runoff due to flooding) and material sequentially layered through volcanic activity. (see [[Geologic ages of earth history]]) | ||
There are other subfields as well. [[Lithostratigraphy]] is the study of strata to determine the history of geological processes and events through lithology, using well logs, mineral composition and quantity, grain size, texture and color. [[Chronostratigraphy]] is the study of the ages of strata through comparison, and correlation of separated strata to elucidate their relative and absolute ages. [[Biostratigraphy]] employs the analysis of fossil plant and animals using principles of [[paleontology]] and stratigraphy to date and correlate strata using evidence as may be presented by such organisms as [[pollen]] and [[spores]], marine microfossils (e.g. diatoms, [[foraminifera]], and nannofossils) to determine the absolute and relative age and the environment that existed during deposition of a particular [[formation]].<ref>[http://www.uga.edu/~strata/sequence/accommodation.html University of Georgia Stratigraphy Lab]</ref><ref>[http://strata.geol.sc.edu/seqstrat.html USC Sequence Stratigraphy Web] University of South Carolina, Dept. of Geology</ref><ref>[http://pubs.nrc-cnrc.gc.ca/rp/rppdf/l04-089.pdf A numerical model of sediment-laden turbulent flow in an open channel] National Research Council Canada</ref><ref>[http://www.glossary.oilfield.slb.com/default.cfm Schlumberger Oilfield Glossary]</ref><ref>[http://amsglossary.allenpress.com/glossary Glossary of meteorology] American Meteorlogical Society</ref> | There are other subfields as well. [[Lithostratigraphy]] is the study of strata to determine the history of geological processes and events through lithology, using well logs, mineral composition and quantity, grain size, texture and color. [[Chronostratigraphy]] is the study of the ages of strata through comparison, and correlation of separated strata to elucidate their relative and absolute ages. [[Biostratigraphy]] employs the analysis of fossil plant and animals using principles of [[paleontology]] and stratigraphy to date and correlate strata using evidence as may be presented by such organisms as [[pollen]] and [[spores]] ([[Palynology]]), marine microfossils (e.g. diatoms, [[foraminifera]], and nannofossils) to determine the absolute and relative age and the environment that existed during deposition of a particular [[Formation (geology)|formation]].<ref>[http://www.uga.edu/~strata/sequence/accommodation.html University of Georgia Stratigraphy Lab]</ref><ref>[http://strata.geol.sc.edu/seqstrat.html USC Sequence Stratigraphy Web] University of South Carolina, Dept. of Geology</ref><ref>[http://pubs.nrc-cnrc.gc.ca/rp/rppdf/l04-089.pdf A numerical model of sediment-laden turbulent flow in an open channel] National Research Council Canada</ref><ref>[http://www.glossary.oilfield.slb.com/default.cfm Schlumberger Oilfield Glossary]</ref><ref>[http://amsglossary.allenpress.com/glossary Glossary of meteorology] American Meteorlogical Society</ref> | ||
= References = | = References = | ||
<references/> | <references/> | ||
=Sources= | |||
*[http://www.stratigraphy.org/ International Commission on Stratigraphy] Retrieved 17 April, 2007 | |||
*[http://www.stratigraphy.org/geowhen/index.html GeoWhen Database] Robert A. Rohde, Physics Department, University of California at Berkeley[[Category:Suggestion Bot Tag]] |
Latest revision as of 16:00, 16 October 2024
Sedimentary geology encompasses the subdisciplines of sedimentology and stratigraphy. The field addresses all aspects of research into sediments and sedimentation processes at all spatial and temporal scales, sedimentary systems and basin analysis, subsurface analysis of sedimentary sequences, diagenesis (processes involving biological, physical and chemical changes in sediment which may then culminate in lithification), chemical sedimentology and numerical modelling (analysis of stratification facies).
Sedimentology is the study of the production, composition, transport, and deposition of sediment.
Stratigraphy is the study of existing layers or rocks and minerals and the process of layering (stratification). The primary focuses are the process of sedimentation encompassing such dynamics as changes in sea level, tectonic activity, and climatic effects on the production of sediment (e.g. particulates carried in water runoff due to flooding) and material sequentially layered through volcanic activity. (see Geologic ages of earth history)
There are other subfields as well. Lithostratigraphy is the study of strata to determine the history of geological processes and events through lithology, using well logs, mineral composition and quantity, grain size, texture and color. Chronostratigraphy is the study of the ages of strata through comparison, and correlation of separated strata to elucidate their relative and absolute ages. Biostratigraphy employs the analysis of fossil plant and animals using principles of paleontology and stratigraphy to date and correlate strata using evidence as may be presented by such organisms as pollen and spores (Palynology), marine microfossils (e.g. diatoms, foraminifera, and nannofossils) to determine the absolute and relative age and the environment that existed during deposition of a particular formation.[1][2][3][4][5]
References
- ↑ University of Georgia Stratigraphy Lab
- ↑ USC Sequence Stratigraphy Web University of South Carolina, Dept. of Geology
- ↑ A numerical model of sediment-laden turbulent flow in an open channel National Research Council Canada
- ↑ Schlumberger Oilfield Glossary
- ↑ Glossary of meteorology American Meteorlogical Society
Sources
- International Commission on Stratigraphy Retrieved 17 April, 2007
- GeoWhen Database Robert A. Rohde, Physics Department, University of California at Berkeley