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Information n Class Website l http://www.atmos.uiuc.edu/courses/atmos397g/ n You are welcome to give your suggestions to improve the site!
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The Origin of the Atmosphere Lecture Objective: l To identify how the earth’s atmospheric constituents have evolved by outlining the principal events in the evolution of the earth’s atmosphere l To identify the factors that determine the capability of a planet to maintain an atmosphere
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The Early Earth n Hot: l Formed in the inner portion of solar nebula l bulk of the mass comes from collision and compression of planetesimals during accretion l heat generated from radiaoactive decay and collision of planetesimals n Devoid of atmosphere l Gravitational field too weak to retain gaseous elements
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Stages in the Evolution of the Earth’s Atmosphere: Stage I n Primitive Atmosphere l Produced as a result of volcanic outgassing l 4.4 – 4.0 billion years ago with a time span of one million years l A “reducing atmosphere” primarily consisting of H 2 and He, with trace levels of CO, CH 4, H 2 O (v), N 2, H 2 S, NH 3, HCl, Ar, and HCN l Lighter gases (H 2 and He) escaped to space l CH 4 CO CO 2 (oxidation) 2NH 3 + h N 2 + 2H 2
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n Reduced substance: electron-rich tendency to lose electrons l H 2, NH 3, CH 4 n Oxidized substance: electron-poor tendency to gain electrons l O 2
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Stages in the Evolution of the Earth’s Atmosphere: Stage II n Secondary Atmosphere l Continued outgassing from the Earth’s interiors l 4.0 to 3.3 billion years ago l H 2 O, N 2, and CO 2 predominant constituents, with trace levels of CO, SO 2, Ar, He l Cooling of earth resulted in condensation of water vapor and the appearance of oceans (3.8 billion years ago) l Water soluble gases (CO 2, SO 2, HCl) dissolved in the primitive ocean l Appearance of chemosynthetic bacteria about 3.5 bya l First appearance of Oxygen (O 2 ) in the prebiotic atmosphere
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l No accumulation of O 2 at this stage – used up for oxidation of reduced species
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Stages in the Evolution of the Earth’s Atmosphere: Stage III n Living Atmosphere l 3.3 bya to present l Accumulation of O 2 to its present day atmospheric level of 21% as early as 430 million years ago l Development of the “ozone” layer responsible for shielding the earth’s surface from UV rays O 2 + O + M O 3 + M l Evolution of several new biochemical pathways significant to the global biogeochemical cycles, e.g., nitrification
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Principal geophysical and geochemical processes contributing to the evolution of the atmosphere
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Evidence for lack of free oxygen in the Earth’s atmosphere until 2 bya n Banded Iron Formations (BIF) l Fe 2+ oxidized to Fe 2 O 3 in the sediments of the primitive ocean l Peak occurrence in rocks of 2.5 to 3.0 billion years ago n Red Beds l Oxidation of exposed reduced minerals, such as FeS 2, on the barren land resulted in alternating layers of Fe 2 O 3 with sediments of land origin. l Earliest occurrence not before 2.0 bya n Oxygen poisoning of methanogenic bacteria and sulfur bacteria n Chemical building blocks of life could not have been formed in the presence of atmospheric O 2
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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
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Red Beds
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Cumulative history of O 2 released by photosynthesis through geologic time
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Origin of Life n First sign of single-celled life 3.5 bya n Abiotic synthesis aided by exogenous source of organic molecules n Traditional viewpoint: life arose in the sea l Important biochemical elements also abundant in seawater n Methanogenesis, sulfate-reduction, and N-fixation: primitive pathways of anaerobic metabolism n O 2 production by photosynthesis and the subsequent formation of O 3 layer paved way for colonization of land by higher organisms
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Chemical Evidence for Origin of Life n Miller-Urey Experiment l Synthesis of simple, reduced organic molecules from constituents of primitive atmosphere and ocean (CH 4, NH 3, H 2, H 2 O) l Experiment successful in abiotic conditions l Building blocks of life (amino acids) could be synthesized in primitive secondary atmospheric conditions
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