warrawoona.jpg

warrawoona.jpg

Stop 3.6 Centre of Warrawoona Syncline

Stop 3.6 Centre of Warrawoona Syncline

Warrawoona Group, Pilbara Craton, NW Australia

Warrawoona Group, Pilbara Craton, NW Australia

These are multiple images of prokaryotes from the Warrawoona Formation in

These are multiple images of prokaryotes from the Warrawoona Formation in

 Microfossils from the Warrawoona  In Microbiology of Fermented Foods,

Microfossils from the Warrawoona In Microbiology of Fermented Foods,

Warrawoona Group, Pilbara Craton, NW Australia

Warrawoona Group, Pilbara Craton, NW Australia

Click here to enlarge image.

Click here to enlarge image.

 Microfossils from the Warrawoona  In Microbiology of Fermented Foods,

Microfossils from the Warrawoona In Microbiology of Fermented Foods,

 (3.3 billion-to 3.5 billion-year-old) Microfossils from the Warrawoona .

(3.3 billion-to 3.5 billion-year-old) Microfossils from the Warrawoona .

(The Tree of life – Blue represents bacteria, green represents Archaea and

(The Tree of life – Blue represents bacteria, green represents Archaea and

organisms and bacteria that show unusual reproductive strategies. This

organisms and bacteria that show unusual reproductive strategies. This

Formation, Swaziland System, South Africa (ca 3.4 Ga). TEM-micrographs of

Formation, Swaziland System, South Africa (ca 3.4 Ga). TEM-micrographs of

Stop 3.2 Vista: oblique deformation in the Warrawoona Syncline

Stop 3.2 Vista: oblique deformation in the Warrawoona Syncline

From the Poleta formation, lower Cambrian of eastern California,

From the Poleta formation, lower Cambrian of eastern California,

The Chinle Formation at Petrified Forest National Park also

The Chinle Formation at Petrified Forest National Park also

Modes of Biomineralization of Magnetite by Microbes - Geomicrobiology

Modes of Biomineralization of Magnetite by Microbes - Geomicrobiology

Modes of Biomineralization of Magnetite by Microbes - Geomicrobiology

Modes of Biomineralization of Magnetite by Microbes - Geomicrobiology

Microbes would re-colonize the hard sediment shell and form a new

Microbes would re-colonize the hard sediment shell and form a new

 the Middle Jurassic Carmel Formation at Mount Carmel Junction, Utah.

the Middle Jurassic Carmel Formation at Mount Carmel Junction, Utah.

Eocene fossil fish Priscacara liops from Green River Formation of Utah

Eocene fossil fish Priscacara liops from Green River Formation of Utah

 
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