Dunaliellacells in fluid inclusions in halite: Significance for long-term survival of prokaryotes

Brian A. Schubert; Michael N. Timofeeff; Tim K. Lowenstein; Jürgen E.W. Polle

doi:10.1080/01490450903232207

Dunaliellacells in fluid inclusions in halite: Significance for long-term survival of prokaryotes

Brian A. Schubert
, Michael N. Timofeeff
, Tim K. Lowenstein
, Jürgen E.W. Polle

Geology

Binghamton University

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

A 90-m-long (100,000 year old) salt core from Death Valley, California, contains cells of the algal genus Dunaliella co-trapped with prokaryote cells in fluid inclusions in halite. It is hypothesized that Dunaliella cells provided glycerol, the carbon source needed by halophilic Archaea for survival over periods of tens of thousands of years. Support for this hypothesis includes: observations that intracellular materials leaked from Dunaliella cells into fluid inclusions; the distribution of Dunaliella cells in the Death Valley core, which matches the distribution of culturable prokaryotic cells; and halophilic Archaea cultured from the Death Valley core grew in media containing glycerol as the only carbon source.

Original language	English
Pages (from-to)	61-75
Number of pages	15
Journal	Geomicrobiology Journal
Volume	27
Issue number	1
DOIs	https://doi.org/10.1080/01490450903232207
State	Published - Jan 2010

Keywords

Death valley
Dunaliella
Fluid inclusions
Glycerol
Halite
Saline valley
Survival
β-carotene

Access to Document

10.1080/01490450903232207

Cite this

@article{691e3d2f1dbd45c09b4f0d7105b4ef59,

title = "Dunaliellacells in fluid inclusions in halite: Significance for long-term survival of prokaryotes",

abstract = "A 90-m-long (100,000 year old) salt core from Death Valley, California, contains cells of the algal genus Dunaliella co-trapped with prokaryote cells in fluid inclusions in halite. It is hypothesized that Dunaliella cells provided glycerol, the carbon source needed by halophilic Archaea for survival over periods of tens of thousands of years. Support for this hypothesis includes: observations that intracellular materials leaked from Dunaliella cells into fluid inclusions; the distribution of Dunaliella cells in the Death Valley core, which matches the distribution of culturable prokaryotic cells; and halophilic Archaea cultured from the Death Valley core grew in media containing glycerol as the only carbon source.",

keywords = "Death valley, Dunaliella, Fluid inclusions, Glycerol, Halite, Saline valley, Survival, β-carotene",

author = "Schubert, \{Brian A.\} and Timofeeff, \{Michael N.\} and Lowenstein, \{Tim K.\} and Polle, \{J{\"u}rgen E.W.\}",

year = "2010",

month = jan,

doi = "10.1080/01490450903232207",

language = "English",

volume = "27",

pages = "61--75",

journal = "Geomicrobiology Journal",

issn = "0149-0451",

publisher = "Taylor and Francis Ltd.",

number = "1",

}

TY - JOUR

T1 - Dunaliellacells in fluid inclusions in halite

T2 - Significance for long-term survival of prokaryotes

AU - Schubert, Brian A.

AU - Timofeeff, Michael N.

AU - Lowenstein, Tim K.

AU - Polle, Jürgen E.W.

PY - 2010/1

Y1 - 2010/1

N2 - A 90-m-long (100,000 year old) salt core from Death Valley, California, contains cells of the algal genus Dunaliella co-trapped with prokaryote cells in fluid inclusions in halite. It is hypothesized that Dunaliella cells provided glycerol, the carbon source needed by halophilic Archaea for survival over periods of tens of thousands of years. Support for this hypothesis includes: observations that intracellular materials leaked from Dunaliella cells into fluid inclusions; the distribution of Dunaliella cells in the Death Valley core, which matches the distribution of culturable prokaryotic cells; and halophilic Archaea cultured from the Death Valley core grew in media containing glycerol as the only carbon source.

AB - A 90-m-long (100,000 year old) salt core from Death Valley, California, contains cells of the algal genus Dunaliella co-trapped with prokaryote cells in fluid inclusions in halite. It is hypothesized that Dunaliella cells provided glycerol, the carbon source needed by halophilic Archaea for survival over periods of tens of thousands of years. Support for this hypothesis includes: observations that intracellular materials leaked from Dunaliella cells into fluid inclusions; the distribution of Dunaliella cells in the Death Valley core, which matches the distribution of culturable prokaryotic cells; and halophilic Archaea cultured from the Death Valley core grew in media containing glycerol as the only carbon source.

KW - Death valley

KW - Dunaliella

KW - Fluid inclusions

KW - Glycerol

KW - Halite

KW - Saline valley

KW - Survival

KW - β-carotene

UR - https://www.scopus.com/pages/publications/74549157676

U2 - 10.1080/01490450903232207

DO - 10.1080/01490450903232207

M3 - Article

SN - 0149-0451

VL - 27

SP - 61

EP - 75

JO - Geomicrobiology Journal

JF - Geomicrobiology Journal

IS - 1

ER -

Dunaliellacells in fluid inclusions in halite: Significance for long-term survival of prokaryotes

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this