It is concerned primarily with relative dating, whereas geochronometry includes theĭetermination of absolute dates and time intervals. (See Geomagnetism as well as the discussion of paleomagnetism in Plate Tectonics.)Ĭhronostratigraphy is devoted to studying the ages of rocks and what they reveal about geologic time, or the vast stretch of history (approximately 4.6 billion years, abbreviated 4.6 Ga) over which Earth's geologic development has occurred. Magnetostratigraphy is based on the investigation of geomagnetism and the reversals in Earth's magnetic field that have occurred over time. Scientists in this field also identify categories of biostratigraphic units, the most basic being a biozone. Earth scientists working in the area of lithostratigraphy identify various types of layers, which include (from the most specific to the most general), formations, members, beds, groups, and supergroups.īiostratigraphy involves the study of fossilized plants and animals to establish dates for and correlate relations between stratigraphic layers. The most basic type of stratigraphy, and the first to emerge, was lithostratigraphy, which is simply the study and description of rock layers. Areas of Stratigraphic StudyĪlong with biostratigraphy, the major areas of stratigraphy include lithostratigraphy, chronostratigraphy, geochronometry, and magnetostratigraphy. Smith's achievement, discussed in Measuring and Mapping Earth, influenced all of geology to the present day by introducing the idea of geologic, as opposed to geographic, mapping.įurthermore, by linking stratigraphy with paleontology, he formulated an important division of stratigraphy, known as biostratigraphy. In 1815 Smith produced the first modern geologic map, showing rock strata in England and Wales. The man credited as the "father of stratigraphy," however, was the English engineer and geologist William Smith (1769-1839). Thus, along with Steno, Lehmann helped pioneer the idea of the stratigraphic column, discussed later in this essay. Later, the German geologist Johann Gottlob Lehmann (1719-1767) put forward the theory that certain groups of rocks tend to be associated with each other and that each layer of rock is a sort of chapter in the history of Earth. This, of course, assumes that the rock has been undisturbed, and it is applicable only for one of the three major types of rock, sedimentary (as opposed to igneous or metamorphic). Steno formulated what came to be known as the law of superposition, or the idea that strata are deposited in a sequence such that the deeper the layer, the older the rock. Nearly two centuries later, stratigraphy itself had its beginnings when the Danish geologist Nicolaus Steno (1638-1687) studied the age of rock strata. EARLY WORK IN STRATIGRAPHY.Īmong the earliest contributions to what could be called historical geology came from the Italian scientist and artist Leonardo da Vinci (1452-1519), who speculated that fossils might have come from the remains of long-dead animals. Several of these subjects are examined in other essays within this book. Other important subdisciplines include geochronology, the study of Earth's age and the dating of specific formations in terms of geologic time sedimentology, the study and interpretation of sediments, including sedimentary processes and formations paleontology, the study of fossilized plants and animals and paleoecology, the study of the relationship between prehistoric plants and animals and their environments. Among the principal subdisciplines of historical geology is stratigraphy, the study of rock layers, which are called strata or, in the singular form, a stratum. Historical geology, the study of Earth's physical history, is one of the two principal branches of geology, the other being physical geology, or the study of Earth's physical components and the forces that have shaped them. HOW IT WORKS The Foundations of Stratigraphy Naturally, information is more readily discernible about the more recent phases, though even in studying these phases, it is possible to be misled by gaps in the rock record, known as unconformities. Earth's history, quite literally, is written on the strata of its rocks, and from observing these layers, geologists have been able to form an idea of the various phases in that long history. It is one of the most challenging of geologic subdisciplines, comparable to an exacting form of detective work, yet it is also one of the most important branches of study in the geologic sciences. Stratigraphy is the study of rock layers (strata) deposited in the earth.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |