Stratigraphy

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(see articles on Biostratigraphy, Chronostratigraphy, Lithostratigraphy, and Magnetostratigraphy.

Stratigraphy (Latin ‘stratum’ + Greek ‘graphia’), is the interdisciplinary science field that describes all rock bodies that form the Earth's crust and the manner in which they are organised into distinctive, units that are then mapped. These stratigraphic maps are based on the inherent properties or attributes of rock bodies in order to establish their distribution and relationship in space and their succession in time. The distinctions and the maps are used to interpret geologic history.[1]

Definitions and organisation

The primary term, stratum (plural is strata) refers to a layer of rock with specific properties distinguish it from adjacent layers.

Stratigraphic classification is derived from the organisation of the Earth's rock bodies found in their original relationships. Classification into distinct units is based on properties that are used in stratigraphic research.

Stratigraphic units are bodies of rock for which distinct properties allow for classification of the Earth's rocks. The units are based on properties or attributes or combinations of both that rocks have.

Stratigraphic units based on one property will not necessarily coincide with those based on another unit.

Stratigraphic terminology encompasses the total of terms for units used in stratigraphic classification. These may be either formal or informal.

  • Formal stratigraphic terminology uses unit-terms defined and named according to guidelines established by international conventions.
  • Informal stratigraphic terminology uses unit-terms as ordinary nouns in a descriptive sense, not as a part of a specific scheme of stratigraphic classification. Informal terminology has the effect of creating confusion and are not encouraged.

Stratigraphic nomenclature is a system of proper names established through international convention and are given to specific stratigraphic units.

Minor bodies of rock in the various established categories of stratigraphic classification are designated as zones. Zones are indicated by a prefix, e.g., lithozone, biozone, chronozone.

An interface between two different layers is called an horizon and is indicative of specific positions in a stratigraphic sequence of rock layers. Horizon types are indicated by a prefix, e.g., lithohorizon, biohorizon, chronohorizon.

Demonstrated correspondence in character and/or stratigraphic position are called a correlation. Correlation types are indicated by a prefix, e.g., lithocorrelation, biocorrelation, chronocorrelation.

Dating and determining the time sequence of the events in the Earth’s history is the science of geochronology.

Subdivisions of geologic time are separated into geochronologic units.

Geochronometry is a branch of geochronology that deals with the quantitative (i.e. numerical) measurement of time. Designated abbreviations for period of years are

  • ka = thousand
  • Ma = million
  • Ga = billion (milliard of thousand million)

The term facies was originally restricted to mean to a lateral variation in lithologic aspects of stratigraphic units. The meaning of facies has been broadened to mean a wide range of concepts including but not exclusive of environment of deposition, lithologic composition, geographic, climatic or tectonic association.[1]

Biostratigraphy

Biostratigraphy involves the identification of fossils and their position relative to their occurrences in space and time. Fossil groups are confined to specific sedimentary layers which reflect changes in the earth’s environment. Fossils only occur in the lithosphere having been formed in the terrestrial (land), freshwater and marine (sea) environments.[2]

Chronostratigraphy

Chronostratigraphy is the branch of stratigraphy that studies "the relative time relations and ages of rock bodies".[3]

Chronostratigraphy deals with rock bodies. This is in contradistinction to geochronology which deals with the dating and subdivision of geologic time.

There is a historical reason for this distinction. Before radioactive decay of natural elements was discovered, stratigraphers had no means to determine the true age of rocks. However, correlation of stratigraphic units allowed the establishment of the order geologic events in time based on biostratigraphy and the superposition principle. A chronostratigraphic scale was established, wherein geologic time was subdivided into a hierarchy of chronostratigraphic units of unknown duration.

With the discovery of radioactive decay, radiometric dating techniques have collectively become an important means to determine the ages of boundaries between chronostratigraphic units. A chronostratigraphic scale that integrates absolute ages is called a geologic time scale.

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External links

References and notes

  1. 1.0 1.1 Definitions and Procedures International Commission on Stratigraphy
  2. Biostratigraphy Els Gervais and Hubert Jansen, J & G Consultants
  3. Salvador A.E., 1994 - International Stratigraphic Guide - A guide to stratigraphic classification, Terminology and procedure. Geological Society of America. ISBN 0-8137-7401-2