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6.1: Developing a Geologic History

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    How Do Geologists Develop a Geologic and Tectonic History?

    We can determine a very general and broad history of an area based on what we know about the global distribution of tectonic plates and how they have moved through time. We can track the motion of tectonic plates quantitatively using the magnetic anomalies and fracture zones on the seafloor. The information that we gather from these types of studies has low spatial and temporal resolution but gives us a framework to start with of our understanding of the tectonic development of a specific area, such as California.

    To flesh out and tell a more detailed tectonic history of an area we need to look at the rocks. Rocks record information about the environment in which they formed. From sedimentary rocks we can determine if the environment was marine or non-marine, and the depth of water. We can determine flow directions of wind and water transported sediments. Igneous rocks will have a chemistry that is determined by the processes through which that melt formed and subsequently cooled. Metamorphic rocks will hold information about the original parent rock and the pressure and temperature conditions that it experienced during metamorphism. By learning to read the rocks we can determine the environment that existed when that rock formed.

    Another important clue that we can glean from rocks is when they formed or when they were metamorphosed (see Geologic Time). If we can determine ages for rocks, we can put them in a sequential order and see how the geologic environments have changed through space and time.

    Earth is a tectonically active planet that continues writing its geologic history. Recent tectonic events often overprint or even erase the evidence for earlier events. Additionally, not all periods of geologic time are equally represented or accessible in certain regions leading to gaps in geologic histories. Geologists interrogate the rocks with various laboratory and field techniques in order to unwrap these overprints and interpolate across space and time to tell the geologic history of an area.

    Video \(\PageIndex{1}\): A Quantitative Plate Reconstruction of Western North America and the Eastern Pacific Basin [no audio]

    The following video illustrates a reconstruction of terrane motions and the assembly of the North America Cordillera from 170 Ma to present. It is the outcome of numerous geological studies, performed over many decades, by countless different scientists.

    6.1: Developing a Geologic History is shared under a CC BY-NC 4.0 license and was authored, remixed, and/or curated by LibreTexts.