New picture with clear image The introductory passage discusses how Nitrososphae
ID: 146211 • Letter: N
Question
New picture with clear image
The introductory passage discusses how Nitrososphaera viennensis was discovered and made researchers realize that archaeans, not just bacteria, could aerobically oxidize ammonia to nitrite in the soil. Researchers had previously realized that another member of the Thaumarchaeota, the marine organism Nitrosopumilus maritimus, could perform this first step in the important biological process of nitrification. Compare N. maritimus, N. viennensis, and nitrifying bacteria by dragging each characteristic to the most appropriate bin. Drag each characteristic into the correct bin. View Available Hints) Rosot Holp can thrive at very highuse the Calvin cycle NHs concentrations to fix and a NH3 concentrations use the 3-h 4-hydroxybutyrate cycle to fix and assimlate carbon may compete with each other in the same envronment can thrive at very loW have crenarchaeol incan oxidize ammonia NH3 concentrations their cell membranes to nitrite carbon nitrifying bacteria only N. maritimus and N. viennensis N. viennensis and nitrifying bacteria N. maritimus, N. viennensis, and nitrifying bacteriaExplanation / Answer
Nitrifying bacteria - can oxidize ammonia to nitrite
N.viennensis and Nitrifying bacteria- can thrive at very high NH3 concentration, use the Calvin cycle to fix and assimilate carbon.
N.viennensis, N.maritimus and nitrifying bacteria- use the 3-hydroxypropionate/4-hydroxybutryrate cycle to fix and assimilate carbon, have crenarchaeota in their cell membrane, only N.maritimus can thrive at very low ammonia concentartion.