Concentration in world's nutrient-poorest sea water
|
Anaerobic Anoxygenic Phototrophic AAP bacteria |
<=194000 |
cells/ml |
103898 |
Lami R, Cottrell MT, Ras J... |
Costs in AAP [aerobic anoxygenic phototrophic] bacteria to construct a PSU [photosynthetic unit]
|
bacteria |
Table - link |
N/A |
111299 |
Kirchman DL, Hanson TE.... |
Fraction of all bacteria in the surface ocean that are aerobic anoxygenic phototrophic (AAP) bacteria
|
bacteria |
1% to 30% |
% |
111294 |
Kirchman DL, Hanson TE.... |
Bacteriochlorophyll a (BChl a) content and the number of PSUs [photosynthetic units] per AAP [aerobic anoxygenic phototrophic] bacterium
|
bacteria |
Table - link |
N/A |
111297 |
Kirchman DL, Hanson TE.... |
Factors used to calculate energy gained from phototrophy for PRP [proteorhodopsin (PR)-based phototrophic] bacteria and AAP [aerobic anoxygenic phototrophic] bacteria in a coastal ocean
|
bacteria |
Table - link |
N/A |
111295 |
Kirchman DL, Hanson TE.... |
Photosynthetic absorption cross-section area for AAP [aerobic anoxygenic phototrophic] bacteria, oxygenic photosynthetic phytoplankton and bacteriorhodopsin measured at the indicated wavelength
|
bacteria |
Table - link |
N/A |
111298 |
Kirchman DL, Hanson TE.... |
Number of PR [proteorhodopsin] molecules in various types of PRP [(PR)-based phototrophic] bacteria
|
bacteria |
Table - link |
proteorhodopsins/cell |
111296 |
Kirchman DL, Hanson TE.... |
Fraction of primary production in lakes harboring anoxygenic phototrophic bacteria that is anoxygenic
|
Biosphere |
28.7 |
% |
113692 |
Jorg Overmann and Ferran... |
Fraction of bacteria in ocean surface waters that carry proteorhodopsin (depending on oceanic region and detection method)
|
bacteria |
15% to > 70% |
% |
111293 |
Kirchman DL, Hanson TE.... |
Fraction of global primary production contributed by lakes and intertidal saltmarshes harboring anoxygenic phototrophic bacteria
|
Biosphere |
4 |
% |
113691 |
Jorg Overmann and Ferran... |
Most frequently isolated infectious microorganisms in intensive care unit
|
bacteria |
30.9 Staphylococcus aureus: 26.8 Acinetobacter spp.: 42.3 others |
% |
105970 |
Meric M, Willke A, Caglayan C... |
Fraction of global primary production contributed by anoxygenic photosynthesis (therefore rubisco is responsible for >99% of carbon fixation globally)
|
Biosphere |
<<1 |
% |
113693 |
Jorg Overmann and Ferran... |
Fraction of primary production carried out by anoxygenic photoautotrophs in some present day stratified lakes
|
Biosphere |
≤83 |
% |
110482 |
Johnston DT, Wolfe-Simon F... |
Major absorption maxima of chlorins in whole cells and in the dissolved state, and fluorescence maxima of whole cells of phototrophic prokaryotes
|
prokaryote |
Table - link |
N/A |
104560 |
Jorg Overmann and Ferran... |
Global carbon dioxide assimilation via anoxygenic photolithotrophy and chemolithotrophy
|
Biosphere |
anoxygenic photolithotrophy 0.03–0.07Pg carbon/year: chemolithotrophy 0.3Pg carbon/year |
Pg carbon/year |
112628 |
Raven JA, Beardall J... |
Cell concentration at 50m depth at sea
|
Cyanobacteria |
46000 (±14000) |
cells/ml |
103899 |
Pitta P, Karakassis I.... |
Cell concentration at 1m depth at sea
|
Cyanobacteria |
22000 (±4000) |
cells/ml |
103900 |
Pitta P, Karakassis I.... |
Cell concentration at 100m depth at sea
|
Cyanobacteria |
12000 (±500) |
cells/ml |
103901 |
Pitta P, Karakassis I.... |
Fraction of aquatic primary productivity that is from anoxygenic photosynthesis
|
Biosphere |
0.1 |
% |
105039 |
John A. Raven Functional... |
Concentration of marine picoplankton collected in Alaska and North Sea
|
Bacterioplankton |
0.11×10^9-1.07×10^9 |
cells/ml |
105119 |
Schut F, de Vries EJ... |