Thiomargarita namibiensis: Difference between revisions
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Heide N. Schulz and Horst D. Schulz Large Sulfur Bacteria and the Formation of Phosphorite | Heide N. Schulz and Horst D. Schulz Large Sulfur Bacteria and the Formation of Phosphorite | ||
This paper reports on the biotechnical use of Thiomarigarita Namibiensis. The paper entails the ability of Thiomarigarita Namibiensis in releasing phosphorus in to its surrounding environment. Phosphorus is an essential nutrient which remains deposited in the marine sediments. The presence of Thiomarigarita Namibiensis in the marine waters of Namibian may account for abundance of apatite in that environment. Later studies showed that under laboratory experimentation in anoxic conditions, Thiomarigarita Namibiensis released large amounts of phosphate which can be correlated to the large amount of hydroxyapatite observed by the researchers in the sediments on the Namibian marine shelf. | This paper reports on the biotechnical use of Thiomarigarita Namibiensis. The paper entails the ability of Thiomarigarita Namibiensis in releasing phosphorus in to its surrounding environment. Phosphorus is an essential nutrient which remains deposited in the marine sediments. The presence of Thiomarigarita Namibiensis in the marine waters of Namibian may account for abundance of apatite in that environment. Later studies showed that under laboratory experimentation in anoxic conditions, Thiomarigarita Namibiensis released large amounts of phosphate which can be correlated to the large amount of hydroxyapatite observed by the researchers in the sediments on the Namibian marine shelf. | ||
Revision as of 16:59, 13 May 2009
Current Research
Heide N. Schulz and Horst D. Schulz Large Sulfur Bacteria and the Formation of Phosphorite
This paper reports on the biotechnical use of Thiomarigarita Namibiensis. The paper entails the ability of Thiomarigarita Namibiensis in releasing phosphorus in to its surrounding environment. Phosphorus is an essential nutrient which remains deposited in the marine sediments. The presence of Thiomarigarita Namibiensis in the marine waters of Namibian may account for abundance of apatite in that environment. Later studies showed that under laboratory experimentation in anoxic conditions, Thiomarigarita Namibiensis released large amounts of phosphate which can be correlated to the large amount of hydroxyapatite observed by the researchers in the sediments on the Namibian marine shelf.