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How do microorganisms reach the stratosphere?

Published online by Cambridge University Press:  20 April 2006

M. Wainwright
Affiliation:
Department of Molecular Biology and Biotechnology, University of Sheffield, Sheffield S10 2TN, UK e-mail: [email protected]
S. Alharbi
Affiliation:
Department of Molecular Biology and Biotechnology, University of Sheffield, Sheffield S10 2TN, UK e-mail: [email protected]
N.C. Wickramasinghe
Affiliation:
Cardiff Centre for Astrobiology, 2 North Rd, Cardiff CF10 3DY, UK

Abstract

A number of studies have demonstrated that bacteria and fungi are present in the stratosphere. Since the tropopause is generally regarded as a barrier to the upward movement of particles it is difficult to see how such microorganisms can reach heights above 17 km. Volcanoes provide an obvious means by which this could be achieved, but these occur infrequently and any microorganisms entering the stratosphere from this source will rapidly fall out of the stratosphere. Here, we suggest mechanisms by which microorganisms might reach the stratosphere on a more regular basis; such mechanisms are, however, likely only to explain how micrometre to submicrometre particles could be elevated into the stratosphere. Intriguingly, clumps of bacteria of size in excess of 10 μm have been found in stratospheric samples. It is difficult to understand how such clumps could be ejected from the Earth to this height, suggesting that such bacterial masses may be incoming to Earth. We suggest that the stratospheric microflora is made up of two components: (a) a mixed population of bacteria and fungi derived from Earth, which can occasionally be cultured; and (b) a population made up of clumps of, viable but non-culturable, bacteria which are too large to have originated from Earth; these, we suggest, have arrived in the stratosphere from space. Finally, we speculate on the possibility that the transfer of bacteria from the Earth to the highly mutagenic stratosphere may have played a role in bacterial evolution.

Type
Research Article
Copyright
2006 Cambridge University Press

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