Urban stratigraphy review
Introduction
Stratigraphy (from Latin stratum, 'bed', and from Greek γραφή [graphḗ], 'writing') is the branch of geology that deals with the study and interpretation of stratified rocks, both sedimentary and stratified volcanic rocks. This study includes the identification, description and sequence, both vertical and horizontal, of the stratified rocks, including their mapping and correlation; in order to infer or determine the order and moment in geological time in which the events that produced these rocks occurred.[1] [2].
Divisions of stratigraphy
Stratigraphy can be divided into different areas or specialized fields of activity, all interrelated with each other and with other sciences. Each of these divisions uses particular methods and techniques:.
• - Analysis of facies (sedimentary).[3][4] Fundamental sedimentological method that characterizes and analyzes sedimentary facies: bodies of rock or sediments with unique characteristics in relation to the adjacent ones[5] that are a result of the specific environment in which they were formed, so its study gives clues about paleogoegraphic-environmental reconstructions. The unique characteristics of the facies are for example: the composition, lithology and texture of the sediments; its fossiliferous content, sedimentary structures; all characteristics that give each sedimentary facies a particular and distinctive appearance. Their associations, variations and distribution, etc. are studied and analyzed. It is a field of intersection with sedimentology.
• - Lithostratigraphy, responsible for the lithological characterization (composition and structure) of stratigraphic successions and the definition of lithostratigraphic units, such as formations.
• - Biostratigraphy, which studies the content, succession and distribution of the fossil record in rocks, in close relationship with paleontology. The biostratigraphic units (biozones) depend on it.
• - Chronostratigraphy, deals with the relative arrangement of rocks in time and the establishment of chronostratigraphic units. Geochronometry, a branch of geochronology, deals with their absolute dating.
• - Magnetostratigraphy,[12] is a stratigraphic correlation technique that studies the recording of polarity changes of the Earth's magnetic field in rocks, given their ability to acquire a remanent magnetization (magnetic remanence) parallel to the direction of the geomagnetic field, present when they are formed. The succession of rocks with this record in which at least some of them have been dated using radiometric methods"), is the basis for the construction of the geomagnetic polarity time scale: GPTS (for its acronym in English)[13] which is the basis of the magnetostratigraphic correlation. The study of the meaning in this record to know the variations of the geomagnetic field of the Earth's past, and the techniques to carry it out, is the object of study of the discipline of paleomagnetism.