The Geologic Time Scale
Cards (59)
- The Quaternary Period, which includes the Pleistocene and Holocene epochs, encompasses the time during which Homo sapiens evolved and developed complex societies.
- The Geologic Time Scale is a record of life forms and geologic events in Earth’s history.
- Geologists use the geologic time scale to show Earth’s history.
- Sometimes it is possible to distinguish layers of rock that formed during a single year or season.
- In other cases, thick stacks of rock that have no fossils provide little information that could help in subdividing geologic time.
- The divisions of geologic time are primarily based on changes in the fossil record, stratigraphy, and major geological events.
- The boundaries between these time units are often defined by specific markers known as Global Stratigraphic Sections and Points (GSSPs), which are reference points used to correlate rocks and events globally.
- The geologic time scale is continuously refined as our understanding of Earth's history improves, and new discoveries are made.
- The divisions and names of units may be subject to updates over time.
- A geologic column is an ordered arrangement of rock layers that is based on the relative ages of the rocks and in which the oldest rocks are at the bottom.
- Evidence of changing conditions is recorded in the rock layers of Earth’s crust.
- The geologic time scale shows the development of Earth and of life on Earth.
- The geologic column is a conceptual framework used by geologists to represent the relative order and timing of events in Earth's history.
- The geologic column is a way of organizing and visualizing the layers of rock and the fossils found within them.
- The geologic column is divided into different units, including eons, eras, periods, epochs, and ages, each representing a distinct interval of time.
- The geologic column is not a physical column found in any one location but is an idealized representation based on the study of rock sequences around the world.
- The geologic column provides a standardized way for scientists to discuss and correlate rock layers and fossils across different locations.
- Not all divisions are present in every location, as geological processes like erosion, deposition, and tectonic activity can lead to incomplete or missing sections of the column.
- Earth's Surface Changes: Geological events such as mountain-building, volcanic activity, and the shifting of tectonic plates lead to changes in Earth's surface over time.
- Archean Eon: The Archean Eon is marked by the cooling of the Earth's crust, the formation of oceans, and the emergence of early life forms, with the first evidence of life on Earth dating back to this eon.
- Precambrian Eons: The Precambrian eons are collectively referred to as the "informal Precambrian," as they lack the well-defined and fossil-rich boundaries that characterize the more recent eons, eras, and periods.
- Climate Changes: Changes in climate, including variations in temperature, precipitation, and sea level, are reflected in the geological record.
- Hadean Eon: The Hadean Eon begins with the formation of the Earth and extends until about 4 billion years ago, characterized by intense heat and frequent impacts from celestial bodies.
- Dominant Life-Forms: Each unit in the geologic time scale is generally characterized by the fossils of a dominant life-form.
- Geologic Time: Earth is indeed in the Cenozoic era, Quaternary period, and Holocene epoch.
- Precambrian Time: This period is most of Earth’s history, with no plants or animals existing for nearly 4 billion years.
- Types of Organisms: The evolution and extinction of various life forms leave a distinctive mark in the fossil record.
- Current Era: Present day Earth is in the Cenozoic era and the Quaternary period in the Holocene epoch.
- Proterozoic Eon: The Proterozoic Eon is further divided into three parts: the Paleoproterozoic, Mesoproterozoic, and Neoproterozoic, with Earth's atmosphere beginning to accumulate oxygen due to the activities of early photosynthetic organisms during this eon.
- The geologic column is a dynamic concept that has been refined and adjusted over time as new discoveries are made and our understanding of Earth's history improves.
- Rock Units and Fossils: Rocks grouped within specific time units often contain similar fossils.
- Precambrian Eons: The Precambrian is subdivided into three eons: Hadean Eon (4.6 billion to 4 billion years ago), Archean Eon (4 billion to 2.5 billion years ago), and Proterozoic Eon (2.5 billion to 541 million years ago).
- At the beginning of the Paleozoic era, all life lived in the oceans.
- The Paleozoic Era is subdivided into six periods: Cambrian (541 to 485.4 million years ago), Ordovician (485.4 to 443.8 million years ago), Silurian (443.8 to 419.2 million years ago), Devonian (419.2 to 358.9 million years ago), Carboniferous (358.9 to 298.9 million years ago), and Permian (298.9 to 252 million years ago).
- The Precambrian is crucial for understanding the early evolution of Earth, the development of the atmosphere and oceans, and the emergence of life.
- The end of the Paleozoic Era is marked by the Permian-Triassic mass extinction event, which had a profound impact on Earth's biodiversity.
- During the Paleozoic Era, life transitioned from simple, single-celled organisms to complex, multicellular life forms.
- The K-Pg mass extinction at the end of the Cretaceous had a profound impact on Earth's ecosystems and paved the way for the rise of mammals and the beginning of the Cenozoic Era.
- Flowering plants became most common during the Cenozoic Era.
- Early plant life included simple mosses, ferns, and cone-bearing plants.