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Items: 1 to 20 of 144

1.

Filamentous sulfur bacteria preserved in modern and ancient phosphatic sediments: implications for the role of oxygen and bacteria in phosphogenesis.

Bailey JV, Corsetti FA, Greene SE, Crosby CH, Liu P, Orphan VJ.

Geobiology. 2013 Sep;11(5):397-405. doi: 10.1111/gbi.12046. Epub 2013 Jun 21.

PMID:
23786451
2.

Evidence of giant sulphur bacteria in Neoproterozoic phosphorites.

Bailey JV, Joye SB, Kalanetra KM, Flood BE, Corsetti FA.

Nature. 2007 Jan 11;445(7124):198-201. Epub 2006 Dec 20.

PMID:
17183268
3.

The role of microbes in the formation of modern and ancient phosphatic mineral deposits.

Crosby CH, Bailey JV.

Front Microbiol. 2012 Jul 5;3:241. doi: 10.3389/fmicb.2012.00241. eCollection 2012.

4.

Sulfide induces phosphate release from polyphosphate in cultures of a marine Beggiatoa strain.

Brock J, Schulz-Vogt HN.

ISME J. 2011 Mar;5(3):497-506. doi: 10.1038/ismej.2010.135. Epub 2010 Sep 9.

5.

Large sulfur bacteria and the formation of phosphorite.

Schulz HN, Schulz HD.

Science. 2005 Jan 21;307(5708):416-8.

6.
7.

Bacterial formation of phosphatic laminites off Peru.

Arning ET, Birgel D, Brunner B, Peckmann J.

Geobiology. 2009 Jun;7(3):295-307. doi: 10.1111/j.1472-4669.2009.00197.x. Epub 2009 May 19.

PMID:
19476504
8.

Nanometer-scale characterization of exceptionally preserved bacterial fossils in Paleocene phosphorites from Ouled Abdoun (Morocco).

Cosmidis J, Benzerara K, Gheerbrant E, Estève I, Bouya B, Amaghzaz M.

Geobiology. 2013 Mar;11(2):139-53. doi: 10.1111/gbi.12022. Epub 2013 Jan 10.

PMID:
23301909
9.

Metatranscriptomic insights into polyphosphate metabolism in marine sediments.

Jones DS, Flood BE, Bailey JV.

ISME J. 2016 Apr;10(4):1015-9. doi: 10.1038/ismej.2015.169. Epub 2015 Sep 18.

10.

Barite encrustation of benthic sulfur-oxidizing bacteria at a marine cold seep.

Stevens EW, Bailey JV, Flood BE, Jones DS, Gilhooly WP 3rd, Joye SB, Teske A, Mason OU.

Geobiology. 2015 Nov;13(6):588-603. doi: 10.1111/gbi.12154. Epub 2015 Aug 27.

PMID:
26462132
11.

Chemotrophic microbial mats and their potential for preservation in the rock record.

Bailey JV, Orphan VJ, Joye SB, Corsetti FA.

Astrobiology. 2009 Nov;9(9):843-59. doi: 10.1089/ast.2008.0314. Review.

PMID:
19968462
12.

Sulfur organic compounds in bottom sediments of the eastern Gulf of Finland.

Khoroshko LO, Petrova VN, Takhistov VV, Viktorovskii IV, Lahtiperä M, Paasivirta J.

Environ Sci Pollut Res Int. 2007 Sep;14(6):366-76.

PMID:
17993219
13.

Competition for sulfide among colorless and purple sulfur bacteria in cyanobacterial mats.

Jorgensen BB, Des Marais DJ.

FEMS Microbiol Ecol. 1986;38:179-86.

PMID:
11542103
14.

Eumetazoan fossils in terminal proterozoic phosphorites?

Xiao S, Yuan X, Knoll AH.

Proc Natl Acad Sci U S A. 2000 Dec 5;97(25):13684-9.

15.

Dense populations of a giant sulfur bacterium in Namibian shelf sediments.

Schulz HN, Brinkhoff T, Ferdelman TG, Mariné MH, Teske A, Jorgensen BB.

Science. 1999 Apr 16;284(5413):493-5.

16.
17.

Global biogeochemical changes at both ends of the proterozoic: insights from phosphorites.

Papineau D.

Astrobiology. 2010 Mar;10(2):165-81. doi: 10.1089/ast.2009.0360.

PMID:
20105035
18.

Electric coupling between distant nitrate reduction and sulfide oxidation in marine sediment.

Marzocchi U, Trojan D, Larsen S, Meyer RL, Revsbech NP, Schramm A, Nielsen LP, Risgaard-Petersen N.

ISME J. 2014 Aug;8(8):1682-90. doi: 10.1038/ismej.2014.19. Epub 2014 Feb 27.

19.

Growth and mechanism of filamentous-sulfur formation by Candidatus Arcobacter sulfidicus in opposing oxygen-sulfide gradients.

Sievert SM, Wieringa EB, Wirsen CO, Taylor CD.

Environ Microbiol. 2007 Jan;9(1):271-6.

PMID:
17227432
20.

Novel groups of Gammaproteobacteria catalyse sulfur oxidation and carbon fixation in a coastal, intertidal sediment.

Lenk S, Arnds J, Zerjatke K, Musat N, Amann R, Mussmann M.

Environ Microbiol. 2011 Mar;13(3):758-74. doi: 10.1111/j.1462-2920.2010.02380.x. Epub 2010 Dec 6.

PMID:
21134098

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