manganese nodules bacteriology

manganese nodules bacteriology

Bacteriology of Manganese Nodules: II. Manganese

Ehrlich HL. Bacteriology of Manganese Nodules: I. Bacterial Action on Manganese in Nodule Enrichments. Appl Microbiol. 1963 Jan; 11 (1):15–19. [PMC free article] Johnson AH, Stokes JL. Managanese oxidation by Sphaerotilus discophorus. J Bacteriol. 1966 Apr; 91 (4):1543–1547. [PMC free article] LOWRY OH, ROSEBROUGH NJ, FARR AL, RANDALL RJ.

Bacteriology of Manganese Nodules: I. Bacterial Action on ...

Bacteria, found in manganese nodules from the Atlantic Ocean, enhance the adsorption of Mn from sea water by crushed manganese nodules in the presence of peptone. When bacterial outgrowth from crushed manganese nodules was experimentally delayed, peptone did not

Bacteriology of manganese nodules. IV. Induction of an ...

Bacteriology of manganese nodules. IV. Induction of an MnO2-reductase system in a marine bacillus. Trimble RB, Ehrlich HL. Bacillus 29, isolated from a ferromanganese nodule from the Atlantic Ocean, was shown to possess an MnO(2)-reductase system which is induced in the presence of manganous ion.

Bacteriology of manganese nodules: III. Reduction of

MnO(2) reduction by aerobic growing cultures of Bacillus 29 and coccus 32, isolated from ferromanganese nodules, was assessed for 7 days. A 1-day lag was observed before the onset of MnO(2) reduction by either culture. Addition of HgCl(2) to

Bacteriology of manganese nodules. V. Effect of ...

Bacteriology of manganese nodules. V. Effect of hydrostatic pressure on bacterial oxidation of MnII and reduction of MnO2. Ehrlich HL. It was experimentally demonstrated that two strains of Arthrobacter 37, one growing at 25 C and the other at 5 C, could catalyze Mn(II) oxidation at hydrostatic pressures well in excess of the pressure ...

Bacteriology of Manganese Nodules - Europe PMC Article ...

Manganese and related elements in the interstitial water of marine sediments. Science. 1967 Nov 17; 158 (3803):906–910. Stadtman TC. Methane fermentation. Annu Rev Microbiol. 1967; 21:121–142. Trimble RB, Ehrlich HL. Bacteriology of manganese nodules: III. Reduction of MnO(2) by two strains of nodule bacteria. Appl Microbiol.

Bacteriology of Manganese Nodules - Europe PMC Article ...

Abstract. Bacteria, found in manganese nodules from the Atlantic Ocean, enhance the adsorption of Mn ++ from sea water by crushed manganese nodules in the presence of peptone. When bacterial outgrowth from crushed manganese nodules was experimentally delayed, peptone did not enhance Mn ++ adsorption by nodular substance, but hindered it in some cases. A mechanism to explain the role of ...

Bacteriology of Manganese Nodules: I. Bacterial Action on ...

2015-11-1 · Bacteria, found in manganese nodules from the Atlantic Ocean, enhance the adsorption of Mn++ from sea water by crushed manganese nodules in the presence of peptone. When bacterial outgrowth from crushed manganese nodules was experimentally delayed, peptone did not enhance Mn++ adsorption by nodular substance, but hindered it in some cases. A mechanism to explain the role of

Bacteriology of Manganese Nodules - Europe PMC Article ...

Ehrlich HL. Bacteriology of Manganese Nodules: I. Bacterial Action on Manganese in Nodule Enrichments. Appl Microbiol. 1963 Jan; 11 (1):15–19. [PMC free article] Ehrlich HL. Bacteriology of manganese nodules. II. Manganese oxidation by cell-free extract from a manganese nodule bacterium. Appl Microbiol. 1968 Feb; 16 (2):197–202.

Bacteriology of Manganese Nodules - Europe PMC Article ...

Ehrlich HL. Bacteriology of Manganese Nodules: I. Bacterial Action on Manganese in Nodule Enrichments. Appl Microbiol. 1963 Jan; 11 (1):15–19. [PMC free article] HOCHSTER RM, QUASTEL JH. Manganese dioxide as a terminal hydrogen acceptor in the study of respiratory systems. Arch Biochem Biophys. 1952 Mar; 36 (1):132–146.

Bacteriology of Manganese Nodules: I. Bacterial Action on ...

2015-11-1 · Bacteria, found in manganese nodules from the Atlantic Ocean, enhance the adsorption of Mn++ from sea water by crushed manganese nodules in the presence of peptone. When bacterial outgrowth from crushed manganese nodules was experimentally delayed, peptone did not enhance Mn++ adsorption by nodular substance, but hindered it in some cases. A mechanism to explain the role of

Bacteriology of manganese nodules. IV. Induction of an ...

Bacteriology of manganese nodules. IV. Induction of an MnO2-reductase system in a marine bacillus. Trimble RB, Ehrlich HL. Bacillus 29, isolated from a ferromanganese nodule from the Atlantic Ocean, was shown to possess an MnO(2)-reductase system which is induced in the presence of manganous ion.

Bacteriology of Manganese Nodules: III. Reduction of

2021-2-1 · MnO2 reduction by aerobic growing cultures of Bacillus 29 and coccus 32, isolated from ferromanganese nodules, was assessed for 7 days. A 1-day lag was observed before the onset of MnO2 reduction by either culture. Addition of HgCl2 to a final concentration of about 10-3 M caused a rapid cessation of MnO2 reduction by the growing cultures. Neither culture reduced MnO2 when grown

Bacteriology of manganese nodules. V. Effect of ...

Bacteriology of manganese nodules. V. Effect of hydrostatic pressure on bacterial oxidation of MnII and reduction of MnO2. Ehrlich HL. It was experimentally demonstrated that two strains of Arthrobacter 37, one growing at 25 C and the other at 5 C, could catalyze Mn(II) oxidation at hydrostatic pressures well in excess of the pressure ...

Bacteriology of manganese nodules. VI. Fate of copper ...

1. Z Allg Mikrobiol. 1973;13(1):39-48. Bacteriology of manganese nodules. VI. Fate of copper, nickel, cobalt, and iron during bacterial and chemical reduction of the manganese (IV).

Bacteriology of manganese nodules. VI. Fate of copper ...

Bacteriology of manganese nodules. VI. Fate of copper, nickel, cobalt, and iron during bacterial and chemical reduction of the manganese (IV)

Bacterial Manganese Reduction and Growth with

ehrlich, h.l., bacteriology of manganese nodules .6. fate of copper, nickel, cobalt, and iron during bacterial and chemical reduction of manganese (iv), zeitschrift fur allgemeine mikrobiologie 13: 39 (1973).

Reductive microbial dissolution of manganese nodules as

The microbial lysis of deep-sea nodules as a possible result of large-scale, deep-sea mining is considered. It is assumed that the Mn (IV) and Fe (III) compounds of the manganese nodules are reduced by the numerous aerobic bacteria at the sediment/water interface as soon as the adjacent nodule area is buried by sedimentation of the disturbed deposits and the organic-rich debris from the ...

Microbe–microbe interactions trigger Mn(II)-oxidizing

2016-8-12 · Bacteriology of manganese nodules. V. Effect of hydrostatic pressure on bacterial oxidation of Mn II and reduction of MnO2 . Appl Microbiol 21: 306–310.

Manganese Transformations by Marine Bacillus Species ...

Bacteriology of manganese nodules II. Manganese oxidation by a cell-free extract from a manganese nodule bacterium. Appl. Microbiol., 16: 197–202. Google Scholar. EHRLICH, H.L., 1975. The formation of ores in the sedimentary environment of the deep sea with microbial participation. The case for ferromanganese concretions.

Bacteriology of manganese nodules. V. Effect of ...

Bacteriology of manganese nodules. V. Effect of hydrostatic pressure on bacterial oxidation of MnII and reduction of MnO2. Ehrlich HL. It was experimentally demonstrated that two strains of Arthrobacter 37, one growing at 25 C and the other at 5 C, could catalyze Mn(II) oxidation at hydrostatic pressures well in excess of the pressure ...

Reductive microbial dissolution of manganese nodules as

The microbial lysis of deep-sea nodules as a possible result of large-scale, deep-sea mining is considered. It is assumed that the Mn (IV) and Fe (III) compounds of the manganese nodules are reduced by the numerous aerobic bacteria at the sediment/water interface as soon as the adjacent nodule area is buried by sedimentation of the disturbed deposits and the organic-rich debris from the ...

Manganese-contaminated groundwater treatment by

2020-8-7 · Ehrlich, H. L. Bacteriology of manganese nodules II. manganese oxidation by cell-free extract from a manganese nodule bacterium. Appl. Microbiol. 16 , 197–202 (1968).

Henry EHRLICH | Professor Emeritud | PhD | Rensselaer ...

Bacteriology of manganese nodules. VI. Fate of copper, nickel, cobalt, and iron during bacterial and chemical reduction of the manganese (IV) Article. Jan 2007; Henry Ehrlich. S H Yang.

一株海洋锰氧化真菌的分离、鉴定及其对Mn(II)的氧化特性 ...

2015-12-25 · Bacteriology of manganese nodules II. Manganese oxidation by cell-free extract from a manganese nodule bacterium [J]. Appl Microbiol, 1968, 16 (2): 197-202 12 Emerson S, Kalhorn S, Jacobs L, Tebo BM, Nealson KH, Rosson RA. Environmental oxidation rate ...

东太平洋多金属结核区两个站位深海沉积物细菌多样性

2016-9-7 · Bacteriology of manganese nodules:I.Bacterial action on manganese in nodule enrichments. Applied Microbiology , 1963, 11 (1) : 15–19 . [5] Xiao XQ, Guo SQ. Electron microscopic investigation on manganese minerals in the multi-metallic nodules from the ...

Reduction of iron oxide minerals by a marine Bacillus ...

Bacteriology of manganese nodules. II. Manganese oxidation by cell-free extract from a manganese nodule bacterium. - Appl. Microbiol.16: 197–202. Google Scholar Ehrlich, H. L. and Fox, S. I. 1967. Copper sulfide precipitation by yeasts from acid minewaters. - Appl. ...

Bacteriology of Manganese Nodules: II. Manganese

Bacteriology of Manganese Nodules: II. Manganese Oxidation by Cell-free Extract from a Manganese Nodule Bacterium . By H. L. Ehrlich. Abstract. A cell-free extract from Arthrobacter 37, isolated from a manganese nodule from the Atlantic Ocean, exhibited enzymatic activity which accelerated manganese accretion to synthetic Mn-Fe oxide as well as ...

Manganese Transformations by Marine Bacillus Species ...

Abstract. A wide variety of micro-organisms promote the oxidation or reduction of manganese, through indirect or direct mechanisms. An example of the latter category is Bacillus SGI, a marine organism isolated from a near-shore manganese sediment.Its mature dormant spores catalyze the oxidation of Mn 2+ to Mn 4+.The process requires molecular oxygen and is catalyzed by a spore coat component.

Bacteriology of Manganese Nodules: III. Reduction of

Bacteriology of Manganese Nodules: III. Reduction of MnO2 by Two Strains of Nodule Bacteria1 . By R. B. Trimble and H. L. Ehrlich. Abstract. MnO2 reduction by aerobic growing cultures of Bacillus 29 and coccus 32, isolated from ferromanganese nodules, was assessed for 7 days. A 1-day lag was observed before the onset of MnO2 reduction by either ...