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Thermophiles /

MARC Record from marc_columbia

Record ID marc_columbia/Columbia-extract-20221130-006.mrc:458617137:3477
Source marc_columbia
Download Link /show-records/marc_columbia/Columbia-extract-20221130-006.mrc:458617137:3477?format=raw

LEADER: 03477mam a22003494a 4500
001 2992915
005 20221019183545.0
008 001027t20012001nyua b 001 0 eng
010 $a 00052735
020 $a030646165X
035 $a(OCoLC)ocm45313822
035 $9ASP0710CU
035 $a(NNC)2992915
035 $a2992915
040 $aDLC$cDLC$dC#P$dOrLoB-B
042 $apcc
050 00 $aQR84.8$b.T443 2001
082 00 $a579.31758$221
245 00 $aThermophiles :$bbiodiversity, ecology, and evolution /$cedited by Anna-Louise Reysenbach, Mary Voytek, and Rocco Mancinelli.
260 $aNew York :$bKluwer Academic/Plenum Publishers,$c[2001], ©2001.
300 $axix, 205 pages :$billustrations ;$c26 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
504 $aIncludes bibliographical references and index.
505 00 $gCh. 1.$tThe Origins of Research on Thermophiles /$rThomas D. Brock --$gCh. 2.$tDeep-Sea Thermophilic Prokaryotes /$rDaniel Prieur, Mary Voytek and Christian Jeanthon /$r[et al.] --$gCh. 3.$tBiodiversity of Acidophilic Moderate Thermophiles Isolated from Two Sites in Yellowstone National Park, and Their Roles in the Dissimilatory Oxido-Reduction of Iron /$rD. Barrie Johnson, Deborah A. Body and Toni A. M. Bridge /$r[et al.] --$gCh. 4.$tPresence of Thermophilic Naegleria Isolates in the Yellowstone and Grand Teton National Parks /$rRobert F. Ramaley, Pamela L. Scanlan and William D. O'Dell --$gCh. 5.$tExamining Bacterial Population Diversity Within the Octopus Spring Microbial Mat Community /$rMichael J. Ferris, Steven C. Nold and C. M. Santegoeds /$r[et al.] --$gCh. 6.$tDirect 5S rRNA Assay for Microbial Community Characterization /$rDaphne L. Stoner, C. K. Browning and D. K. Bulmer /$r[et al.] --
505 80 $gCh. 7.$tCommunity Structure Along a Thermal Gradient in a Stream near Obsidian Pool, Yellowstone National Park /$rJoseph R. Graber, Juile Kirshtein and Mark Speck /$r[et al.] --$gCh. 8.$tIsolation of Hyperthermophilic Archaea Previously Detected by Sequencing rDNA Directly from the Environment /$rSiegfried Burggraf, Robert Huber and Thomas Mayer /$r[et al.] --$gCh. 9.$tThermophilic Anoxygenic Phototrophs Diversity and Ecology /$rMichael T. Madigan --$gCh. 10.$tAlgal Physiology at High Temperature, Low pH, and Variable pCO2 Implications for Evolution and Ecology /$rLynn J. Rothschild --$gCh. 11.$tThe Zonation and Structuring and Siliceous Sinter Around Hot Springs, Yellowstone National Park, and the Role of Thermophilic Bacteria in Its Deposition /$rDonald R. Lowe, Kai S. Anderson and Deena Braunstein --
505 80 $gCh. 12.$tUse of 16S rRNA, Lipid, and Naturally Preserved Components of Hot Spring Mats and Microorganisms to Help Interpret the Record of Microbial Evolution /$rDavid M. Ward, Mary M. Bateson and Jan W. de Leeuw --$gCh. 13.$tResearch Accomplishments of a Small Business Using Yellowstone's Extremophiles /$rJoan Combie and Kenneth Runnion --$gCh. 14.$tThe Yellowstone Microbiology Program Status and Prospects /$rJohn D. Varley, Robert F. Lindstrom and Charles C. Chester.
650 0 $aThermophilic microorganisms.$0http://id.loc.gov/authorities/subjects/sh85084749
700 1 $aReysenbach, Anna-Louise.$0http://id.loc.gov/authorities/names/n00008575
700 1 $aVoytek, Mary A.$0http://id.loc.gov/authorities/names/no91026224
700 1 $aMancinelli, Rocco.$0http://id.loc.gov/authorities/names/n00008577
852 00 $boff,bio$hQR84.8$i.T443 2001