Principle of faunal succession

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The principle of faunal succession, also known as the law of faunal succession, is based on the observation that sedimentary rock strata contain fossilized flora and fauna, and that these fossils succeed each other vertically in a specific, reliable order that can be identified over wide horizontal distances. A fossilized Neanderthal bone will never be found in the same stratum as a fossilized Megalosaurus, for example, because neanderthals and megalosaurs lived during different geological periods, separated by many millions of years. This allows for strata to be identified and dated by the fossils found within.

This principle, which received its name from the English geologist William Smith, is of great importance in determining the relative age of rocks and strata.[1] The fossil content of rocks together with the law of superposition helps to determine the time sequence in which sedimentary rocks were laid down.

Evolution explains the observed faunal and floral succession preserved in rocks. Faunal succession was documented by Smith in England during the first decade of the 19th century, and concurrently in France by Cuvier (with the assistance of the mineralogist Alexandre Brongniart). Archaic biological features and organisms are succeeded in the fossil record by more modern versions. For instance, paleontologists investigating the evolution of birds predicted that feathers would first be seen in primitive forms on flightless predecessor organisms such as feathered dinosaurs. This is precisely what has been discovered in the fossil record: simple feathers, incapable of supporting flight, are succeeded by increasingly large and complex feathers.[2]

In practice, the most useful diagnostic species are those with the fastest rate of species turnover and the widest distribution; their study is termed biostratigraphy, the science of dating rocks by using the fossils contained within them. In Cenozoic strata, fossilized tests of foraminifera are often used to determine faunal succession on a refined scale, each biostratigraphic unit (biozone) being a geological stratum that is defined on the basis of its characteristic fossil taxa. An outline microfaunal zonal scheme based on both foraminifera and ostracoda was compiled by M. B. Hart (1972).

Simply, the earlier fossil life forms are simpler than more recent forms, and more recent forms are most similar to existing forms (principle of faunal succession).[3]

See also[edit]


  1. ^ Winchester, Simon (2001), The Map that Changed the World: William Smith and the Birth of Modern Geology, New York: HarperCollins, pp. 59–91, ISBN 0-06-093180-9
  2. ^ Yu, Mingke; Wu, Ping; Widelitz, Randall B.; Chuong, Cheng-Ming (21 November 2002), "The morphogenesis of feathers", Nature, 420 (6913): 308–312, doi:10.1038/nature01196, PMC 4386656
  3. ^ Evolutionary Analysis, 4th Edition. p 61.

Extra Information[edit]

It was developed by Nicholas Steno[1] in Dissertationis Prodromus in 1669, formulated by James Hutton in Theory of the Earth in 1795, and embellished upon by Charles Lyell in Principles of Geology in 1830. Nicholas Steno developed four main geological principles that are very useful for geologists today. These four main principles were: The principle of Superposition, the principle of Horizontality, and the principle of Lateral Continuity. The principle of Superposition states that younger rocks are deposited on top of older rocks. The principle of Horizontality states that sedimentary rocks are deposited in approximately horizontal layers. The principle of original Lateral Continuity states that sediments spread out in all directions until they either thin out or run into a barrier.

  1. ^ Lucas, Meert (2018-11-20). "Nicholas Steno's Principles". Retrieved 2018-11-20.