The Origin of the Atmosphere - University of Illinois at
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The Origin of the Atmosphere
Lecture Objective:
To identify how the earth’s atmospheric constituents
have evolved by outlining the principal events in the
evolution of the earth’s atmosphere
To identify the factors that determine the capability of a
planet to maintain an atmosphere
The Early Earth
Hot:
Formed in the inner portion of solar nebula
bulk of the mass comes from collision and compression
of planetesimals during accretion
heat generated from radiaoactive decay and collision of
planetesimals
Devoid of atmosphere
Gravitational field too weak to retain gaseous elements
Stages in the Evolution of the Earth’s
Atmosphere: Stage I
Primitive Atmosphere
Produced as a result of volcanic outgassing
4.4 – 4.0 billion years ago with a time span of one million
years
A “reducing atmosphere” primarily consisting of H2 and
He, with trace levels of CO, CH4, H2O (v), N2, H2S, NH3,
HCl, Ar, and HCN
Lighter gases (H2 and He) escaped to space
CH4 CO CO2 (oxidation)
2NH3 + hn N2 + 2H2
Reduced substance: electron-rich tendency to
lose electrons
H2, NH3, CH4
Oxidized substance: electron-poor tendency to
gain electrons
O2
Stages in the Evolution of the Earth’s
Atmosphere: Stage II
Secondary Atmosphere
Continued outgassing from the Earth’s interiors
4.0 to 3.3 billion years ago
H2O, N2, and CO2 predominant constituents, with trace
levels of CO, SO2, Ar, He
Cooling of earth resulted in condensation of water vapor
and the appearance of oceans (3.8 billion years ago)
Water soluble gases (CO2, SO2, HCl) dissolved in the
primitive ocean
Appearance of chemosynthetic bacteria about 3.5 bya
First appearance of Oxygen (O2) in the prebiotic
atmosphere
No accumulation of O2 at this stage – used up for
oxidation of reduced species
Stages in the Evolution of the Earth’s
Atmosphere: Stage III
Living Atmosphere
3.3 bya to present
Accumulation of O2 to its present day atmospheric level
of 21% as early as 430 million years ago
Development of the “ozone” layer responsible for
shielding the earth’s surface from UV rays
O 2 + O + M O3 + M
Evolution of several new biochemical pathways
significant to the global biogeochemical cycles, e.g.,
nitrification
Principal geophysical and geochemical processes
contributing to the evolution of the atmosphere
Evidence for lack of free oxygen in the
Earth’s atmosphere until 2 bya
Banded Iron Formations (BIF)
Fe2+ oxidized to Fe2O3 in the sediments of the primitive
ocean
Peak occurrence in rocks of 2.5 to 3.0 billion years ago
Red Beds
Oxidation of exposed reduced minerals, such as FeS2, on
the barren land resulted in alternating layers of Fe2O3
with sediments of land origin.
Earliest occurrence not before 2.0 bya
Oxygen poisoning of methanogenic bacteria and
sulfur bacteria
Chemical building blocks of life could not have
been formed in the presence of atmospheric O2
Banded Iron Formations
Alternating bands of red jasper and black hematite,
about 2250 million years old (2.55 billion years old)
Jasper Knob, Ishpeming, Michigan
Red Beds
Cumulative history of O2 released by
photosynthesis through geologic time
Origin of Life
First sign of single-celled life 3.5 bya
Abiotic synthesis aided by exogenous source of
organic molecules
Traditional viewpoint: life arose in the sea
Important biochemical elements also abundant in
seawater
Methanogenesis, sulfate-reduction, and N-fixation:
primitive pathways of anaerobic metabolism
O2 production by photosynthesis and the
subsequent formation of O3 layer paved way for
colonization of land by higher organisms
Chemical Evidence for Origin of Life
Miller-Urey Experiment
Synthesis of simple, reduced
organic molecules from
constituents of primitive
atmosphere and ocean (CH4,
NH3, H2, H2O)
Experiment successful in abiotic
conditions
Building blocks of life (amino
acids) could be synthesized in
primitive secondary
atmospheric conditions