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Observations of Magnetosome Organization, Surface Structure, and Iron Biomineralization of Undescribed Magnetic Bacteria: Evolutionary Speculations

Vali, Hojatollah and Kirschvink, Joseph L. (1991) Observations of Magnetosome Organization, Surface Structure, and Iron Biomineralization of Undescribed Magnetic Bacteria: Evolutionary Speculations. In: Iron Biominerals. Plenum Press , New York, pp. 97-115. ISBN 645702703. https://resolver.caltech.edu/CaltechAUTHORS:20130128-150554583

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Abstract

Magnetotactic bacteria display one of the clearest behavioral responses to the geomagnetic field of any living organism, and are one of the few known prokaryotes which have the ability to produce intracellular biominerals. In the 15 years since they were discovered (10), these organisms have been found in environments ranging from freshwater to hypersaline, aerobic to anoxic, but usually in microaerophilic wnes (6, 11, 21, 31, 50, 53, 71, 76). They are also interesting from an evolutionary aspect because structures similar to their magnetosome chains (their 'biological bar magnets') have been discovered in eukaryotic algae (20, 72), as well as in vertebrates (46), where they may serve as part of a specialized geomagnetic sensory organelle (35, 37). The fossil record of these bacteria, based on the fossilized magnetosomes, or magnetofossils (36) now extends back nearly 2 billion years into Precambrian time, prior to the earliest known eukaryotes (17, 77). Hence, the presence of virtually identical magnetosome chains in the eukaryotes is consistent with an inheritance through the process of serial endosymbiosis (47). For the geosciences, the magnetic bacteria provide an important supply of fine-grained magnetite to sediments, where they are often preserved after the bacteria die (17, 34, 59, 71). The fossil bacterial magnetosomes, termed magnetofossils by Kirschvink & Chang (36), have the same morphology (17, 51, 71, 76) and crystal structure (75) as the crystals in the living bacteria (41-45). As the sediments solidify, the magnetofossils usually align themselves with the local geomagnetic field, and thereby preserve a record of its direction. Thus, these sediments often can be used to investigate the past history of the geomagnetic field. The accuracy of this recording process is influenced by the interaction between the bacteria and the sediment matrix, and hence may be influenced by the binding properties of the bacterial cell surface.


Item Type:Book Section
Additional Information:© 1991 Plenum Press. We thank Drs. N. Petersen, L. Bachmann, and G. Morteani for helpful advice and support of this project, Dr. J. Muller for samples from the Ammersee, Ms. M. Abkaie for sampling and environmental information from the Moorsee, and Drs. M. Nesson and L. Baresi for helpful discussions. JLK is largely to blame for the evolutionary speculations discussed in this manuscript. This work was supported by the Deutsche Forschungsgemeinschaft (DFG), and U.S. National Science Foundation grants EAR83-51470 and EAR86-11512. HRTEM studies were conducted at the Caltech Materials Research Facility, which is supported by NSF grant DMR-8421119. Contribution No. 4745 of the Division of Geological and Planetary Sciences of the California Institute of Technology.
Funders:
Funding AgencyGrant Number
Deutsche Forschungsgemeinschaft (DFG)UNSPECIFIED
NSFEAR83-51470
NSFEAR86-11512
NSFDMR-8421119
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Caltech Division of Geological and Planetary Sciences4745
Record Number:CaltechAUTHORS:20130128-150554583
Persistent URL:https://resolver.caltech.edu/CaltechAUTHORS:20130128-150554583
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:36633
Collection:CaltechAUTHORS
Deposited By: Tony Diaz
Deposited On:31 Jan 2013 00:22
Last Modified:03 Oct 2019 04:39

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