http://endosymbionts.blogspot.com/
http://euarch.blogspot.com/
http://cyanophyta.blogspot.com/
http://abiogenesisevo.blogspot.com/
http://phototroph.blogspot.com/
http://orgbiogen.blogspot.com/
http://biopoiesis.blogspot.com/
http://mechanismsevo.blogspot.com/
http://stromatolites.blogspot.com/
http://paleogeology.blogspot.com
http://chemistryolife.blogspot.com/
http://biochimie.blogspot.com/
http://didmpd.blogspot.com/
http://epigenes.blogspot.com/
http://insidebrain.blogspot.com/
http://karyoti.blogspot.com/
http://krebbing.blogspot.com/
http://macromole.blogspot.com/
http://syndesm.blogspot.com/
http://syndesmreceptor.blogspot.com/
2006/01/28
2006/01/27
stromatolites
http://www.cushmanfoundation.org/resources/slides/stromato.html
Image on Google
The Earliest Reef
http://www.brookes.ac.uk/geology/8313/reeflect3.html
Proterozoic Domical Stromatolites Transvaal
http://www.accessexcellence.org/BF/bf02/lipps/slides/07stromatodom.jpg
Girvanella oncolites
more Girvanella oncolites
more Girvanella
Possible filamentous cyanobacteria in Windyfield chert
http://www.abdn.ac.uk/rhynie/cyano2.htm
Lower power of Windyfield cherthttp://www.abdn.ac.uk/rhynie/images/plants/cyano/cyano1.jpg
Shark Bay Cyanobacteria and Stromatolites
http://www.sharkbay.org/terrestial_enviroment/page_15.htm
http://www.calm.wa.gov.au/national_parks/hamelin_pool_mnr.html
For Microfossils, stromatolites, and cyanobactieria:
http://www.uni-muenster.de/GeoPalaeontologie/Palaeo/Palbot/seite1.html
To find out more about living stromatolites see: http://www.calm.wa.gov.au/national_parks/hamelin_pool_mnr.html
To find out more about fossil stromatolites see: http://www.cushmanfoundation.org/
http://www.cushmanfoundation.org/resources/slides/stromato.html
General Overview: Major Events in the History of Life http://www.peripatus.gen.nz/paleontology/MaiLinEvo.html
Endosymbiosis explained: http://www.sidwell.edu/us/science/vlb5/Labs/Classification_Lab/Bacteria/symbiosis.html
Precambrian cyanobacterial colony in stromatolic carbonaceous chert, NWT, 2 Ga
http://www.cushmanfoundation.org/resources/images/slide04.gif
Precambrian filamentous cyanobacteria from Bitter Springs chert, 850 Ma
http://www.cushmanfoundation.org/resources/images/slide05.gif
cyanococci Bitter Springs chert
http://www.astrobiology.ucla.edu/images/picts/res4b.jpg
comparison of fossil and modern cyanobacteria
http://www.cushmanfoundation.org/resources/images/slide06.gif
Lyngbya confervoides
http://www.cushmanfoundation.org/resources/images/slide07.gif
Gloeocapsa sp.
http://www.cushmanfoundation.org/resources/images/slide08.gif
calcareous nannofossils and coccoliths
http://www.cushmanfoundation.org/resources/slides/calnanno.html
http://www.discoverwest.com.au/western_australia/monkey_mia.html
http://www.discoverwest.com.au/western_australia/hamlin_pool_stromatolites.html
http://www.calm.wa.gov.au/national_parks/hamelin_pool_mnr.html
http://www.soton.ac.uk/~bam2/col-index/fossi-lindex/Algae/index.htm
http://www.soton.ac.uk/~bam2/col-index/fossi-lindex/Algae/images/AL109.jpg
bacterial mats
http://nai.arc.nasa.gov/students/this_month/
http://www.reef.edu.au/asp_pages/secb.asp?FormNo=1
http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookDiversity_2.html
http://waynesword.palomar.edu/ploct97.htm#stromato.gif
Anabaena
Chamaesiphon
Chroococcus
Gleocapsa
Merismopedia
Microchaete
Nostoc
Nostochopsis
Oscillatoria
Phormidium
Scytonema
Spirulina
Euryarchaeota
Halobacteriales
Methanobacteriales
Methanococcales
Methanomicrobiales
Thermoplasmales
Archaeoglobales
Methanosarcinales
Methanosarcinaceae Thermococcales
Synechococcus (images), Xenococcus (images), Microcoleus, Leptolyngbya, Plectonema, Symploca, Cyanothece (images), Pleurocapsa (images) and Nostoc. We also report the discovery of potentially free-living Prochloron (Prochloron & images). The other eubacterial isolates and clones clustered into seven phylogenetic groups: OP9, OP10, Marine A group, Proteobacteria (images), Low G+C Gram-positive, Planctomycetes (Plancomycetes & abstract & images) and Acidobacteria. We also demonstrate the presence of sequences corresponding to members of halophilic archaea of the divisions Euryarchaeota (images) and Crenarchaeota (Crenarchaeota & images) and methanogenic archaea of the order Methanosarcinales.
Image on Google
The Earliest Reef
http://www.brookes.ac.uk/geology/8313/reeflect3.html
Proterozoic Domical Stromatolites Transvaal
http://www.accessexcellence.org/BF/bf02/lipps/slides/07stromatodom.jpg
Girvanella oncolites
more Girvanella oncolites
more Girvanella
Possible filamentous cyanobacteria in Windyfield chert
http://www.abdn.ac.uk/rhynie/cyano2.htm
Lower power of Windyfield cherthttp://www.abdn.ac.uk/rhynie/images/plants/cyano/cyano1.jpg
Shark Bay Cyanobacteria and Stromatolites
http://www.sharkbay.org/terrestial_enviroment/page_15.htm
http://www.calm.wa.gov.au/national_parks/hamelin_pool_mnr.html
For Microfossils, stromatolites, and cyanobactieria:
http://www.uni-muenster.de/GeoPalaeontologie/Palaeo/Palbot/seite1.html
To find out more about living stromatolites see: http://www.calm.wa.gov.au/national_parks/hamelin_pool_mnr.html
To find out more about fossil stromatolites see: http://www.cushmanfoundation.org/
http://www.cushmanfoundation.org/resources/slides/stromato.html
General Overview: Major Events in the History of Life http://www.peripatus.gen.nz/paleontology/MaiLinEvo.html
Endosymbiosis explained: http://www.sidwell.edu/us/science/vlb5/Labs/Classification_Lab/Bacteria/symbiosis.html
Precambrian cyanobacterial colony in stromatolic carbonaceous chert, NWT, 2 Ga
http://www.cushmanfoundation.org/resources/images/slide04.gif
Precambrian filamentous cyanobacteria from Bitter Springs chert, 850 Ma
http://www.cushmanfoundation.org/resources/images/slide05.gif
cyanococci Bitter Springs chert
http://www.astrobiology.ucla.edu/images/picts/res4b.jpg
comparison of fossil and modern cyanobacteria
http://www.cushmanfoundation.org/resources/images/slide06.gif
Lyngbya confervoides
http://www.cushmanfoundation.org/resources/images/slide07.gif
Gloeocapsa sp.
http://www.cushmanfoundation.org/resources/images/slide08.gif
calcareous nannofossils and coccoliths
http://www.cushmanfoundation.org/resources/slides/calnanno.html
http://www.discoverwest.com.au/western_australia/monkey_mia.html
http://www.discoverwest.com.au/western_australia/hamlin_pool_stromatolites.html
http://www.calm.wa.gov.au/national_parks/hamelin_pool_mnr.html
http://www.soton.ac.uk/~bam2/col-index/fossi-lindex/Algae/index.htm
http://www.soton.ac.uk/~bam2/col-index/fossi-lindex/Algae/images/AL109.jpg
bacterial mats
http://nai.arc.nasa.gov/students/this_month/
http://www.reef.edu.au/asp_pages/secb.asp?FormNo=1
http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookDiversity_2.html
http://waynesword.palomar.edu/ploct97.htm#stromato.gif
Anabaena
Chamaesiphon
Chroococcus
Gleocapsa
Merismopedia
Microchaete
Nostoc
Nostochopsis
Oscillatoria
Phormidium
Scytonema
Spirulina
Euryarchaeota
Halobacteriales
Methanobacteriales
Methanococcales
Methanomicrobiales
Thermoplasmales
Archaeoglobales
Methanosarcinales
Methanosarcinaceae Thermococcales
Synechococcus (images), Xenococcus (images), Microcoleus, Leptolyngbya, Plectonema, Symploca, Cyanothece (images), Pleurocapsa (images) and Nostoc. We also report the discovery of potentially free-living Prochloron (Prochloron & images). The other eubacterial isolates and clones clustered into seven phylogenetic groups: OP9, OP10, Marine A group, Proteobacteria (images), Low G+C Gram-positive, Planctomycetes (Plancomycetes & abstract & images) and Acidobacteria. We also demonstrate the presence of sequences corresponding to members of halophilic archaea of the divisions Euryarchaeota (images) and Crenarchaeota (Crenarchaeota & images) and methanogenic archaea of the order Methanosarcinales.
Subscribe to:
Posts (Atom)
