Lithostratigraphy
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Lithostratigraphy is a sub-discipline of stratigraphy, the geological science associated with the study of strata or rock layers. Major focuses include geochronology, comparative geology, and petrology.
In general, strata are primarily
There are a number of principles that are used to explain relationships between strata. When an igneous rock cuts across a formation of sedimentary rock, then we can say that the igneous intrusion is younger than the sedimentary rock. The principle of superposition states that a sedimentary rock layer in a tectonically undisturbed stratum is younger than the one beneath and older than the one above it. The principle of original horizontality states that the deposition of sediments occurs as essentially horizontal beds.
Types of lithostratigraphic units
The principles of lithostratigraphy were first established by the Danish naturalist, Nicolas Steno, in his 1669 Dissertationis prodromus.[1] A lithostratigraphic unit conforms to the law of superposition, which in its modern form states that in any succession of strata, not disturbed or overturned since deposition, younger rocks lies above older rocks.[2] The principle of lateral continuity states that a set of bed extends and can be traceable over a large area.[3]
Lithostratigraphic units are recognized and defined on the basis of observable physical rock characteristics. The lithology of a unit includes characteristics such as chemical and mineralogical composition, texture, color, primary depositional structures, fossils regarded as rock-forming particles, or other organic materials such as coal or kerogen. The taxonomy of fossils is not a valid lithological basis for defining a lithostratigraphic unit. The descriptions of strata based on physical appearance define facies.[4]
The formal description of a lithostratigraphic unit includes a
Lithosome: Masses of rock of essentially uniform character and having interchanging relationships with adjacent masses of different lithology. e.g.: shale lithosome, limestone lithosome.
The fundamental Lithostratigraphic unit is the
Stratigraphic relationship
Two types of contact: conformable and unconformable.
Conformable: unbroken deposition, no break or hiatus (break or interruption in the continuity of the geological record). The surface strata resulting is called a conformity.
Two types of contact between conformable strata: abrupt contacts (directly separate beds of distinctly different lithology, minor depositional break, called diastems) and gradational contact (gradual change in deposition, mixing zone).
Unconformable: period of erosion/non-deposition. The surface stratum resulting is called an unconformity.
Four types of unconformity:
- Angular unconformity: younger sediment lies upon an eroded surface of tilted or folded older rocks. The older rock dips at a different angle from the younger.
- Disconformity: the contact between younger and older beds is marked by visible, irregular erosional surfaces. Paleosol might develop right above the disconformity surface because of the non-deposition setting.
- Paraconformity: the bedding planes below and above the unconformity are parallel. A time gap is present, as shown by a faunal break, but there is no erosion, just a period of non-deposition.
- Nonconformity: relatively young sediments are deposited right above older igneous or metamorphic rocks.
Lithostratigraphic correlation
To correlate lithostratigraphic units, geologists define facies, and look for key beds or key sequences that can be used as a datum.
- Direct correlation: based on lithology, color, structure, thickness...
- Indirect correlation: electric log correlation (gamma-ray, density, resistivity...)[6]
Geological correlation[
2. The strata are originally horizontal.
3. The stratum extends in all directions until it thins out or encounters a barrier.
The results are presented as a correlation scheme (A). Practical correlation has a lot of difficulties: fuzzy borders of the layers, variations in composition and structure of the rocks in the layer,
Lithodemic stratigraphy
The law of superposition is inapplicable to intrusive, highly deformed, or metamorphic bodies of rock lacking discernible stratification. Such bodies of rock are described as lithodemic and are determined and delimited based on rock characteristics. The 1983 North American Stratigraphic Code adopted the formal terms lithodeme, which is comparable to a formation; a suite, which is analogous to a group, and a supersuite, similar to a supergroup. A lithodeme is the fundamental unit and should possess distinctive and consistent lithological features, comprising a single rock type or a mixture of two or more types that distinguishes the unit from those around it. As with formations, a lithodemic unit is given a geographical name combined with either a rock name or some term describing its form. The term suite is deprecated. Also formalized is the term complex, which applies to a body of rock of two or more genetic classes (sedimentary, metamorphic, or igneous). This establishes two hierarchies of lithodemic units:[9]
Supersuite | Supercomplex |
Suite | Complex |
Lithodeme | (no equivalent) |
Similar rules have been adopted in Sweden.[10] However, the 1994 International Stratigraphic Guide regards plutons and non-layered metamorphic rocks of undetermined origin as special cases within lithostratigraphy.[9]
See also
Footnotes
- ^ Steno 1916.
- ^ Boggs 2006, p. 399.
- ^ Brookfield 2004, p. 116.
- ^ North American Commission on Stratigraphic Nomenclature 2005, pp. 1547–1591.
- ^ North American Commission on Stratigraphic Nomenclature 2005, pp. 1563.
- ^ Olea & Sampson 2003.
- ^ Voronin 1973.
- ^ "Steno's Principles of Stratigraphy". Geology In.
- ^ a b Subcomission on Quaternary Stratigraphy 2002.
- ^ Kumpulainen 2016.
References
- Boggs, Sam (2006). Principles of sedimentology and stratigraphy (4th ed.). Upper Saddle River, N.J.: Pearson Prentice Hall. ISBN 0131547283.
- *Brookfield, Michael E. (2004). Principles of stratigraphy. Malden, Mass.: Blackwell Publ. ISBN 978-1-4051-1164-5. Retrieved 12 November 2014.
- Kumpulainen, Risto A. (17 October 2016). "Guide for geological nomenclature in Sweden". GFF. 139 (1): 3–20. .
- North American Commission on Stratigraphic Nomenclature (November 2005). "North American Stratigraphic Code" (PDF). AAPG Bulletin. 89 (11): 1547–1591. . Retrieved 8 August 2020.
- Olea, Ricardo A.; Sampson, Robert J. (2003). "CORRELATOR, an interactive computer program for high-resolution, lithostratigraphic, well-log correlation" (PDF). Retrieved 1 November 2020.
- Steno, Nicolas (1916) [1669]. Nicolas Steno's Dissertation Concerning a Solid Body Enclosed by Process of Nature within a Solid: An English Version with an Introduction and Explanatory Notes. Translated by Winter, John. New York, The Macmillan company; London, Macmillan and company, limited.
- Subcomission on Quaternary Stratigraphy (2002). "Lithodemic stratigraphy". Retrieved 10 May 2020.
- Voronin, Y.A. (1973). Methodological issues of application of mathematical methods and computers in geology. Novosibirsk, Yakutsk: The Computer Center, Siberian Division of the USSR Academy of Sciences.