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![Page 1: The other volatile: O 2 What is the mantle/surface/biology connection? Charles H. Langmuir Harvard University langmuir@eps.harvard.edu.](https://reader030.fdocuments.in/reader030/viewer/2022032517/56649cb85503460f9497e4ed/html5/thumbnails/1.jpg)
The other volatile: O2
What is the mantle/surface/biology
connection?
Charles H. LangmuirHarvard University
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Major Questions
• Why is the mantle slightly oxidized?• Why isn’t it more oxidized?• Does oxygenation of the surface oxidize
the mantle?• Has oxidation state changed through
Earth history?• What’s is happening today?
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Planetary Evolution as Energy Transformation
From an initial reduced oxidation state ---
To a “planetary fuel cell” that permits greater access to energy
and efficient transfer and processing of stellar energy
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Planets are Initially Reduced
• Solar nebula has excess of hydrogen and Fe metal, no free oxygen
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Meteorites that make up planets or reveal their interior have reduced minerals
– Fe as Fe, FeO and FeS– S as FeS– C in meteorites is reduced, CO2 in ancient
atmosphere
Carbonaceous chondrite Pallasite
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Solar System objects with truncated evolution remain reduced
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Origin of Life requires reducing
conditions• precursor organic molecules can form and
survive only under reducing conditions
• Carbon can vary from +4 to -4 in its oxidation state!
• CO2 +4,
• CO +2,
• C, CH2O 0
• CH4 -4
Organic molecules all havereduced carbon and
hydrogen bonds
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Current upper mantle has about 3% Fe3+
• Not in equilibrium with metallic Fe
• Did photosynthesis do it?
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Life produces an Electric Current that makes reduced molecules
and oxidized complements
• CO2 + electron donor + hydrogen →
CH2O + oxidized by-product
Carbon changes valence from 4+ to neutral or negative: electron flow
• Over Earth history this current has created larges masses of organic matter and a
complementary oxidized surface reservoir
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Rise of O2 permitted Eukaryotic Cells and Multicellular Life: Aerobic Respiration
The full potential of aerobic respiration requires high O2
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PROKARYOTES
EUKARYOTES
Anaerobic
Aerobic (1-2% O2?)
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• One trillion of these working together with active oxygen transport: 21% O2
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Hydrogen Fuel Cell
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Modern Earth’s Fuel Cell
ReducedC, Fe, S
Aerobic Life,Weathering
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+
Modern Earth as Planetary Fuel Cell
+
+O2
C and CO2
Fe, Ni
FeOFeS
Permits far greater energy flow than earlier in Earth history
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Electron mass balance means every oxidized
element must be matched by a reduced element.
Net O2 production is the excess of organic
matter production over destruction, and this organic matter has to end up somewhere,
unoxidized
From this perspective the current Earth has zero net O2 production
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O2 is actively consumed
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So the rise of oxygen and the creation of the planetaryfuel cell involves sources and sinks and their evolutionthrough Earth history.
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When and how did it all happen?
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From Farquhar
Mass Independent Sulfur Isotope FractionationSome atmospheric oxygen beginning at 2.4Ga
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Pyrite Sulfur Isotopes
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From Lyons (2010)
Canfield (2004)
Seawater sulfate?
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Mo abundances
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From Scott et al 2008
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www.snowballearth.org
One possibility from Snowball Earth Proponents
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Deep ocean is source of oxidzied materials for subduction
(a) Did not exist before ~600Ma
(b) Cannot have caused significant mantle oxidation
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There must be mass balance between oxidized and reduced reservoirs
Reservoirs of Carbon
Total organic carbon is 600 - 1250 *1018 moles
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Oxidized Reservoirs
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2% of oxidizing power produced by organic life
resides as O2 in the atmosphere. 98% is in
oxidized Fe and S.
Most of the story is in rocks.
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Mantle carbon output through time?
From Hayes and Waldbauer (2006)
Implies that MOST “oxygen
production” occurred early;Gobbled up by
Fe and S
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Mass balance problem = 500 - 1000 * 1018 moles of reduced carbon
equivalent
Implies a large reduced reservoir somehere:
(a) Subducted organic carbon
(b) Hydrogen loss to space
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Reservoirs of Carbon on the Earth Mantle
Total organic carbon is 600 - 1250 *1018 moles
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Simple mass balance constraints:
• One possible reduced reservoir is subduction of organic carbon. Happening today. Earlier oceans were reduced, permitting organic matter accumulation.
– Many others propose hydrogen loss from upper atmosphere. Unobservable and untestable?
•
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Simple mass balance constraints:
• To increase upper mantle Fe3+/Fe2+ by 1% requires 2 billion years of present Fe3+ subduction.
– Data suggest deep ocean not oxidized prior to 700Ma
– Even small increase of mantle Fe3+ requires thousands of examoles of subducted oxidized material-- makes mass balance problem MUCH worse
• Production of oxidized species can have had only a negligible impact on mean upper mantle oxidation
state
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Elements with variable oxidation states record
mantle conditions
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Delano 2001
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Oxidation State of Upper Mantle Source Regions Has Not Changed Since Archean
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Delano 2001
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Changing the Oxidation State Requires Electron
Transport• 3FeO → Fe + Fe2O3
Iron changes valence from +2 to neutral and +3:
electron flow occurs if the Fe metal is segregated to the core
• This process could oxidize the mantle if it were significant. Might it occur progressively over
Earth history?
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Is the solid Earth important today?
Ocean crust is oxidized as it interacts with seawater.
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Ferric iron increases by about 1 wt%. Subductionflux is 8 * 1012 moles per year, which is four times theestimated organic carbon burial rate. Is atmosphericO2 decreasing? Essential feedback on O2?
Photo from Alt et al.ODP hole 504b.
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Present Earth Is Out of Balance
• Current burial rate of organic carbon (= O2 production) is 0.68 * 1012 moles/yr
• Current flux of subducting Fe3+ is 2*1012 equivalent moles
• Suggests plate tectonic feedback on O2
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Modern Convergent Margins
• Kelley and Cottrell (2009)
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Fe-Mn Differences MORB/Back-Arc
0.15
0.16
0.17
0.18
0.19
0.2
0.21
8 9 10 11 12 13 14 15
Fe2O3 Total
MnO
EPRELSC
FeO/MnO= 54+- 1/sqrt(210)
FeO/MnO= 57+- 2/sqrt(30)
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Reflections
Mantle was slightly oxidized early and has maintained that state within tight
bounds
Life did not oxidize the mantle-- it may have slightly reduced it
Life today is changing mantle oxidation state
Mantle plays a critical role in the oxygen story