Oxygen cycle

The oxygen cycle.

The Oxygen cycle is the biogeochemical cycle that describes the movement of oxygen within its three main reservoirs: the atmosphere (air), the total content of biological matter within the biosphere (the global sum of all ecosystems), and the lithosphere (Earth's crust). Failures in the oxygen cycle within the hydrosphere (the combined mass of water found on, under, and over the surface of a planet) can result in the development of hypoxic zones. The main driving factor of the oxygen cycle is photosynthesis, which is responsible for the modern Earth's atmosphere and life.

1 Reservoirs
2 Capacities and fluxes
3 Ozone
4 References

Reservoirs

By far the largest reservoir of Earth's oxygen is within the silicate and oxide minerals of the crust and mantle (99.5%). Only a small portion has been released as free oxygen to the biosphere (0.01%) and atmosphere (0.36%). The main source of atmospheric oxygen is photosynthesis, which produces sugars and oxygen from carbon dioxide and water:-

6CO₂ + 6H₂O + energy → C₆H₁₂O₆ + 6O₂

Photosynthesizing organisms include the plant life of the land areas as well as the phytoplankton of the oceans. The tiny marine cyanobacterium Prochlorococcus was discovered in 1986 and accounts for more than half of the photosynthesis of the open ocean.^[1]

An additional source of atmospheric oxygen comes from photolysis, whereby high energy ultraviolet radiation breaks down atmospheric water and nitrous oxide into component atoms. The free H and N atoms escape into space leaving O₂ in the atmosphere:

2H₂O + energy → 4H + O₂

2N₂O + energy → 4N + O₂

The main way oxygen is lost from the atmosphere is via respiration and decay, mechanisms in which animal life and bacteria consume oxygen and release carbon dioxide.

Because lithospheric consumes oxygen. An example of surface weathering chemistry is formation of iron-oxides (rust):

4FeO + O₂ → 2Fe₂O₃

Main article: Mineral redox buffer

Oxygen is also cycled between the biosphere and lithosphere. Marine organisms in the biosphere create calcium carbonate shell material (CaCO₃) that is rich in oxygen. When the organism dies its shell is deposited on the shallow sea floor and buried over time to create the limestone rock of the lithosphere. Weathering processes initiated by organisms can also free oxygen from the lithosphere. Plants and animals extract nutrient minerals from rocks and release oxygen in the process.

Capacities and fluxes

The following tables offer estimates of oxygen cycle reservoir capacities and fluxes. These numbers are based primarily on estimates from (Walker, J.C.G.)^[2]:

Table 1: Major reservoirs involved in the oxygen cycle

Reservoir	Capacity (kg O₂)	Flux In/Out (kg O₂ per year)	Residence Time (years)
Atmosphere	1.4 * 10¹⁸	30,000 * 10¹⁰	4,500
Biosphere	1.6 * 10¹⁶	30,000 * 10¹⁰	50
Lithosphere	2.9 * 10²⁰	60 * 10¹⁰	500,000,000

Table 2: Annual gain and loss of atmospheric oxygen (Units of 10¹⁰ kg O₂ per year)

Photosynthesis (land) Photosynthesis (ocean) Photolysis of N₂O Photolysis of H₂O	16,500 13,500 1.3 0.03
Total Gains	~ 30,000
Losses - Respiration and Decay
Aerobic Respiration Microbial Oxidation Combustion of Fossil Fuel (anthropogenic) Photochemical Oxidation Fixation of N₂ by Lightning Fixation of N₂ by Industry (anthropogenic) Oxidation of Volcanic Gases	23,000 5,100 1,200 600 12 10 5
Losses - Weathering
Chemical Weathering Surface Reaction of O₃	50 12
Total Losses	~ 30,000

Ozone

The presence of atmospheric oxygen has led to the formation of ozone (O₃) and the ozone layer within the stratosphere. The ozone layer is extremely important to modern life as it absorbs harmful ultraviolet radiation:

O₂ + uv energy → 2O

O + O₂ → O₃

References

^ Steve Nadis, The Cells That Rule the Seas, Scientific American, Nov. 2003 [1]
^ Walker, J. C. G. (1980) The oxygen cycle in the natural environment and the biogeochemical cycles, Springer-Verlag, Berlin, Federal Republic of Germany (DEU)

Cloud, P. and Gibor, A. 1970, The oxygen cycle, Scientific American, September, S. 110-123
Fasullo, J., Substitute Lectures for ATOC 3600: Principles of Climate, Lectures on the global oxygen cycle, http://paos.colorado.edu/~fasullo/pjw_class/oxygencycle.html
Morris, R.M., OXYSPHERE - A Beginners' Guide to the Biogeochemical Cycling of Atmospheric Oxygen, http://seis.natsci.csulb.edu/rmorris/oxy/Oxy.htm

v · Biogeochemical cycles

Carbon cycle - Hydrogen cycle - Nitrogen cycle - Oxygen cycle - Phosphorus cycle - Sulfur cycle - Water cycle - Mercury cycle

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Oxygen cycle

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Reservoirs

Capacities and fluxes

Ozone

References

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Oxygen cycle

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Reservoirs

Capacities and fluxes

Ozone

References

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