Cryptoendolithic lichen and cyanobacterial communities of the Ross Desert, Antarctica [0.03%]
罗斯荒漠冰川石中栖息在岩石孔隙中的地衣和蓝藻群落(南极洲)
E I Friedmann,M Hua,R Ocampo-Friedmann
E I Friedmann
Cryptoendolithic microbial communities in the Ross Desert (McMurdo Dry Valleys) are characterized on the basis of photosynthetic microorganisms and fungi. Two eukaryotic communities (the lichen-dominated and Hemichloris communities) and thr...
Preliminary report on radiocarbon dating of cryptoendolithic microorganisms [0.03%]
隐生生物体内的微古菌放射性碳素断代的初步报告
G Bonani,E I Friedmann,R Ocampo-Friedmann et al.
G Bonani et al.
Primary production of the cryptoendolithic microbiota from the Antarctic Desert [0.03%]
南极沙漠Cryptoendolithic微生物群的初级生产量
J R Vestal
J R Vestal
Primary production in the Antarctic cryptoendolithic microbiota can be determined from biomass and photosynthetic 14CO2 incorporation measurements. Even though good nanoclimate data are available, it is difficult to determine the amount of ...
Review
Polarforschung. 1988;58(2-3):193-8. DOI: 1988
R J Palmer Jr,E I Friedmann
R J Palmer Jr
Fungi isolated from the cryptoendolithic community of the Ross Desert are capable of fixing inorganic carbon. Results suggest that lichen mycobionts and parasymbionts are adapted to different water regimes in the cryptoendolithic environmen...
Temperature response of Antarctic cryptoendolithic photosynthetic microorganisms [0.03%]
南极隐藻光合微生物的温度响应
R Ocampo-Friedmann,M A Meyer,M Chen et al.
R Ocampo-Friedmann et al.
Growth responses to temperatures between 12.5 [degrees] C and 25 degrees C were determined for five photosynthetic microorganisms isolated from the Ross Desert cryptoendolithic community. Among eukaryotic algae, two strains of Trebouxia sp....
M A Meyer,Huang G-H,G J Morris et al.
M A Meyer et al.
Laboratory experiments show that undercooling to about -5 degrees C occurs in colonized Beacon sandstones of the Ross Desert, Antarctica. High-frequency temperature oscillations between 5 degrees C and -5 degrees C or -10 degrees C (which o...