Authors:
Johnson, DB
Body, DA
Bridge, TAM
Bruhn, DF
Roberto, FF
Citation: Db. Johnson et al., Biodiversity of acidophilic moderate thermophiles isolated from two sites in Yellowstone National Park and their roles in the dissimilatory oxide-reduction of iron, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 23-39
Citation: Rf. Ramaley et al., Presence of thermophilic Naegleria isolates in the Yellowstone and Grand Teton National Parks, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 41-50
Authors:
Ferris, MJ
Nold, SC
Santegoeds, CM
Ward, DM
Citation: Mj. Ferris et al., Examining bacterial population diversity within the Octopus Spring microbial mat community, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 51-64
Authors:
Stoner, DL
Browning, CK
Bulmer, DK
Ward, TE
MacDonell, MT
Citation: Dl. Stoner et al., Direct 5S rRNA assay for microbial community characterization, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 65-80
Authors:
Graber, JR
Kirshtein, J
Speck, M
Reysenbach, AL
Citation: Jr. Graber et al., Community structure along a thermal gradient in a stream near Obsidian Pool, Yellowstone National Park, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 81-91
Authors:
Burggraf, S
Huber, R
Mayer, T
Rossnagel, P
Rachel, R
Citation: S. Burggraf et al., Isolation of hyperthermophilic Archaea previously detected by sequencing rDNA directly from the environment, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 93-101
Citation: Lj. Rothschild, Algal physiology at high temperature, low pH, and variable pCO(2) - Implications for evolution and ecology, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 125-142
Citation: Dr. Lowe et al., The zonation and structuring of siliceous sinter around Hot Springs, Yellowstone National Park, and the role of thermophilic bacteria in its deposition, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 143-166
Citation: Dm. Ward et al., Use of 16S rRNA, lipid, and naturally preserved components of hot spring mats and microorganisms to help interpret the record of microbial evolution, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 167-181
Citation: J. Combie et K. Runnion, Research accomplishments of a small business using Yellowstone's extremophiles, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 183-189
Citation: Jd. Varley et al., The Yellowstone Microbiology Program - Status and prospects, THERMOPHILES: BIODIVERSITY, ECOLOGY, AND EVOLUTION, 2001, pp. 191-200