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Subject Geography Class B.A. Part I (H)
Paper Paper- 1 : Physical Geography
Unit : 2
Topic
Geological Timescale
E-content by Dr. Rashmi Ranjana
Assistant Professor, Dept. of Geography
College of Commerce, Arts And Science, Patna
University Patliputra University, Patna - Bihar
What is geological Timescale?
The geologic time scale, the “calendar” for events in Earth history, is a system of
chronological measurement that relates stratigraphy (study of rock layers and layering) to time,
and is used by geologists, paleontologists, and other Earth scientists to describe the timing and
relationships between events that have occurred throughout Earth's history. It subdivides all time
into named units of abstract time called - in descending order of
duration—eons, eras, periods, epochs, and ages. The enumeration of those geologic time units is
based on stratigraphy, which is the correlation and classification of rock strata. The fossil forms
that occur in the rocks, however, provide the chief means of establishing a geologic time scale,
with the timing of the emergence and disappearance of widespread species from the fossil record
being used to delineate the beginnings and endings of ages, epochs, periods, and other intervals.
The first geologic time scale was proposed in 1913 by the British geologist Arthur Holmes
[1]
(1890 - 1965). This was soon after the discovery of radioactivity, and using it, Holmes
estimated that the Earth was about 4.5 billion years old. Geologic time is, in effect, that segment
of Earth history that is represented by and recorded in the planet’s rock strata. They record the
Earth shaping events and life of the past. But this record is incomplete as we do not have records
of time before Archean Eon, especially in the early parts. According to the geologists, the Earth
is billions of years old. Formal geologic time begins at the start of the Archean Eon (4.0 billion
to 2.5 billion years ago) and continues to the present day.
Modern geologic time scales additionally often include the Hadean Eon, which is an
informal interval that extends from about 4.6 billion years ago (corresponding to Earth’s initial
formation) to 4.0 billion years ago. The oldest eons - The Hadean and Archean - are difficult to
study as they are exposed in very limited places on Earth's surface. They are often buried far
below younger rocks at Earth's surface. Proterozoic rocks which span nearly 2 billion years (42%
of Earth's history) are much more accessible. But, moist attention from paleontologists was given
to rocks from the younger, fossil-rich Phanerozoic eon. But now focus is on Proterozoic rocks as
more clues about the origins of complex life begin to be revealed from them.
The Timescale Division
I. Super Eons: Super Eons contain several Eons in them and cover extremely large
periods of time. There has only been one Super Eon in Earth’s history. This one was
the Precambrian Super Eon. It could be having been technically said that we are at the
beginning of the next Super Eon.
II. Precambrian Super Eon: The Precambrian Super Eon started about 4.56 billion
years ago and ended about 541 million years ago. It can be divided into 3 specific
Eons which are the Hadean, the Archean and the Proterozoic.
Fig. no. 1: Timeline of Earth's history - Significant moments in Earth's history
Source: Encyclopædia Britannica, Inc./Christine McCabe
(https://www.britannica.com/science/geologic-time)
Fig. no. 2: Geologic Time - The Stratigraphic Chart of Geologic Time
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