Add to ORKGpeer reviewedThe recognition of iron microbial mats in terrestrial environments is of great relevance for the search for extraterrestrial life, especially on mars where significant iron minerals were identified in the subsurface. Most researches focused on very ancient microbial mats (e.g. BIFs) since they formed on Earth at a time where similar conditions are supposed to have prevailed on Mars too. However, environmental proxies are often difficult to use for these deposits on Earth which, in addition, may be heavily transformed due to diagenesis or even metamorphism. Here we present modern and phanerozoic iron microbial mats occurrences illustrating the wide variety of environments in which they form, including many marine settings, pond...
Extensive mats of Fe oxyhydroxides and associated Fe-oxidizing microbial organisms form in diverse g...
The question of life on Mars has been in focus of astrobiological research for several decades, and ...
Banded iron formations (BIF) are Precambrian sedimentary rocks characterized by alternating iron- an...
The recognition of iron microbial mats in terrestrial environments is of great relevance for the sea...
A variety of actively precipitating mineral environments preserve morphological evidence of microbia...
Microbial life on Earth seems to have begun almost as soon as the planet cooled enough to allow soli...
We are investigating biological mechanisms of terrestrial iron deposition as analogs for Martian hem...
Banded iron formations (BIFs) are sedimentary records of the coevolutionary history of geosphere and...
Microbial iron oxyhydroxides are common deposits in natural waters, recent sediments, and mine drain...
Traditionally, it was thought that caves formed only through the dissolution of rock by groundwater;...
Poster presentado en EGU General Assembly 2015, held 12-17 April, 2015 in Vienna, Austria. id.14276...
Iron-oxidizing bacteria occupy a distinct environmental niche. These chemolithoautotrophic organisms...
The surface crust that caps highly weathered banded iron formations (BIFs) supports a unique ecosyst...
Iron formations (IF) represent an iron-rich rock type that typifies many Archaean and Proterozoic su...
Robust methods for the characterisation of microbial biosignatures in geological matrices is critica...
Extensive mats of Fe oxyhydroxides and associated Fe-oxidizing microbial organisms form in diverse g...
The question of life on Mars has been in focus of astrobiological research for several decades, and ...
Banded iron formations (BIF) are Precambrian sedimentary rocks characterized by alternating iron- an...
The recognition of iron microbial mats in terrestrial environments is of great relevance for the sea...
A variety of actively precipitating mineral environments preserve morphological evidence of microbia...
Microbial life on Earth seems to have begun almost as soon as the planet cooled enough to allow soli...
We are investigating biological mechanisms of terrestrial iron deposition as analogs for Martian hem...
Banded iron formations (BIFs) are sedimentary records of the coevolutionary history of geosphere and...
Microbial iron oxyhydroxides are common deposits in natural waters, recent sediments, and mine drain...
Traditionally, it was thought that caves formed only through the dissolution of rock by groundwater;...
Poster presentado en EGU General Assembly 2015, held 12-17 April, 2015 in Vienna, Austria. id.14276...
Iron-oxidizing bacteria occupy a distinct environmental niche. These chemolithoautotrophic organisms...
The surface crust that caps highly weathered banded iron formations (BIFs) supports a unique ecosyst...
Iron formations (IF) represent an iron-rich rock type that typifies many Archaean and Proterozoic su...
Robust methods for the characterisation of microbial biosignatures in geological matrices is critica...
Extensive mats of Fe oxyhydroxides and associated Fe-oxidizing microbial organisms form in diverse g...
The question of life on Mars has been in focus of astrobiological research for several decades, and ...
Banded iron formations (BIF) are Precambrian sedimentary rocks characterized by alternating iron- an...