Review

. 1998 Jun 9;95(12):6578-83.

doi: 10.1073/pnas.95.12.6578.

Prokaryotes: the unseen majority

W B Whitman¹, D C Coleman, W J Wiebe

Affiliations

PMID: 9618454
PMCID: PMC33863
DOI: 10.1073/pnas.95.12.6578

Review

Prokaryotes: the unseen majority

W B Whitman et al. Proc Natl Acad Sci U S A. 1998.

. 1998 Jun 9;95(12):6578-83.

doi: 10.1073/pnas.95.12.6578.

Authors

W B Whitman¹, D C Coleman, W J Wiebe

Affiliation

¹ Department of Microbiology, University of Georgia, Athens GA 30602, USA. whitman@uga.cc.uga.edu

PMID: 9618454
PMCID: PMC33863
DOI: 10.1073/pnas.95.12.6578

Abstract

The number of prokaryotes and the total amount of their cellular carbon on earth are estimated to be 4-6 x 10(30) cells and 350-550 Pg of C (1 Pg = 10(15) g), respectively. Thus, the total amount of prokaryotic carbon is 60-100% of the estimated total carbon in plants, and inclusion of prokaryotic carbon in global models will almost double estimates of the amount of carbon stored in living organisms. In addition, the earth's prokaryotes contain 85-130 Pg of N and 9-14 Pg of P, or about 10-fold more of these nutrients than do plants, and represent the largest pool of these nutrients in living organisms. Most of the earth's prokaryotes occur in the open ocean, in soil, and in oceanic and terrestrial subsurfaces, where the numbers of cells are 1.2 x 10(29), 2.6 x 10(29), 3.5 x 10(30), and 0. 25-2.5 x 10(30), respectively. The numbers of heterotrophic prokaryotes in the upper 200 m of the open ocean, the ocean below 200 m, and soil are consistent with average turnover times of 6-25 days, 0.8 yr, and 2.5 yr, respectively. Although subject to a great deal of uncertainty, the estimate for the average turnover time of prokaryotes in the subsurface is on the order of 1-2 x 10(3) yr. The cellular production rate for all prokaryotes on earth is estimated at 1.7 x 10(30) cells/yr and is highest in the open ocean. The large population size and rapid growth of prokaryotes provides an enormous capacity for genetic diversity.

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References

1. Romankevich E A. Geokhimiya. 1988;(2):292–306.
1. Kluyver A J, van Niel C B. The Microbe’s Contribution to Biology. Cambridge, MA: Harvard Univ. Press; 1956. p. 3.
1. Ducklow H W, Carlson C A. Adv Microb Ecol. 1992;12:113–181.
1. Simon M. Arch Hydrobiol. 1994;130:283–302.
1. Fry J C. In: Methods in Aquatic Bacteriology. Austin B, editor. London: Wiley; 1988. pp. 27–72.

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