« Previous AbstractSubzero Celsius separations in three-zone temperature controlled hydrogen deuterium exchange mass spectrometry    Next Abstract"Past, Present, and Future of Integrated Control of Apple Pests: The New Zealand Experience" »

Nature

Title:		Was the Archaean biosphere upside down?
Author(s):		Walker JC;
Address:		"Department of Atmospheric and Oceanic Sciences, University of Michigan, Ann Arbor 48109, USA"
Journal Title:		Nature
Year:		1987
Volume:		329
Issue:
Page Number:		710 - 712
DOI:		10.1038/329710a0
ISSN/ISBN:		0028-0836 (Print) 0028-0836 (Linking)
Abstract:		"Photosynthesis produces reduced organic carbon and an oxidized partner in equivalent molar amounts. These compounds can react with one another, again in equivalent molar amounts, so that no net change occurs in the overall level of oxidation of the biosphere (here taken to mean the biota together with the part of the Earth with which living things interact). But, the reduced and oxidized partners have different susceptibilities to transport by environmental processes and so, typically, they become separated. Conservation of matter implies that for every mole of excess oxidant in an oxidizing region of the biosphere there must be a mole of excess reductant in a reducing region. Today, the oxidized partner in photosynthesis is usually free oxygen, which floats upward to accumulate in excess in the atmosphere, whereas organic matter settles downward to collect in sediments and stagnant pools. On the anoxic Archean Earth, the oxidized partner was probably iron. As oxidized iron is markedly less soluble and mobile than organic carbon, differential transport in the Archaean biosphere would have had an effect just the opposite of that in the modern biosphere. The oxidized partner would have settled downward more rapidly than the reduced partner, resulting in the accumulation of excess oxidant in sediments and stagnant pools. An equivalent excess of the more volatile reduced compounds would have been left behind in ocean and atmosphere in the form of dissolved organic carbon and gaseous hydrocarbons. On average, therefore, the Archean biosphere may have been oxidizing at the bottom and reducing on top"
Keywords:		"Aerobiosis Anaerobiosis *Atmosphere Carbon/*chemistry *Earth, Planet Evolution, Chemical Evolution, Planetary Ferrous Compounds/chemistry Geologic Sediments/analysis *Oxidation-Reduction Oxygen/*chemistry Paleontology Photosynthesis/*physiology NASA Disci;"
Notes:		"MedlineWalker, J C eng Research Support, U.S. Gov't, Non-P.H.S. England 1987/10/22 Nature. 1987 Oct 22; 329:710-2. doi: 10.1038/329710a0"