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Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Pilot whale (Globicephala macorhynchus). Tenerife, Canary Islands.Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Pilot whale (Globicephala macorhynchus). Tenerife, Canary Islands.Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Pilot whale (Globicephala macorhynchus). Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Trichodesmium, also called sea sawdust (Trichodesmium

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Myrtle-leaf milkwort (Polygala myrtifolia) attacked by the killer bacterium of olive trees (Xylella fastidiosa). The bacterium is probably much more widespread in Corsica, as has often been the case for infestations of this type.Myrtle-leaf milkwort (Polygala myrtifolia) attacked by the killer bacterium of olive trees (Xylella fastidiosa). The bacterium is probably much more widespread in Corsica, as has often been the case for infestations of this type.Myrtle-leaf milkwort (Polygala myrtifolia) attacked by the killer bacterium of olive trees (Xylella fastidiosa). The bacterium is probably much more widespread in Corsica, as has often been the case for infestations of this type.© Jean-Michel Groult / BiosphotoJPG - RM

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Myrtle-leaf milkwort (Polygala myrtifolia) attacked by the killer

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Colony of Nostoc in a puddle in a lapiaz, France. Nostoc Common, Colonial Cyanobacteria close to the oldest forms of life organized on our planetColony of Nostoc in a puddle in a lapiaz, France. Nostoc Common, Colonial Cyanobacteria close to the oldest forms of life organized on our planetColony of Nostoc in a puddle in a lapiaz, France. Nostoc Common, Colonial Cyanobacteria close to the oldest forms of life organized on our planet© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Colony of Nostoc in a puddle in a lapiaz, France. Nostoc Common,

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Colony of Nostoc in a puddle in a lapiaz, France. Nostoc Common, Colonial Cyanobacteria close to the oldest forms of life organized on our planetColony of Nostoc in a puddle in a lapiaz, France. Nostoc Common, Colonial Cyanobacteria close to the oldest forms of life organized on our planetColony of Nostoc in a puddle in a lapiaz, France. Nostoc Common, Colonial Cyanobacteria close to the oldest forms of life organized on our planet© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Colony of Nostoc in a puddle in a lapiaz, France. Nostoc Common,

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The Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors MassifThe Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors MassifThe Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors Massif© Jean-Philippe Delobelle / BiosphotoJPG - RM

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The Green Cascade, near Saint Eulalie en Royans, in the Vercors,

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The Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors MassifThe Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors MassifThe Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors Massif© Jean-Philippe Delobelle / BiosphotoJPG - RM

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The Green Cascade, near Saint Eulalie en Royans, in the Vercors,

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The Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors MassifThe Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors MassifThe Green Cascade, near Saint Eulalie en Royans, in the Vercors, France. Petrifying source with formation of travertines (Cratoneuron moss, Brachythecium, and Lyngbya encrusting bacteria), remarkable petrifying waterfall, on the course of the Vernaison river, under the Great Gulets, Vercors Massif© Jean-Philippe Delobelle / BiosphotoJPG - RM

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The Green Cascade, near Saint Eulalie en Royans, in the Vercors,

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Star jelly (Nostoc sp) colony on a lapiaz, FranceStar jelly (Nostoc sp) colony on a lapiaz, FranceStar jelly (Nostoc sp) colony on a lapiaz, France© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Star jelly (Nostoc sp) colony on a lapiaz, France

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Red salt marshes at Salins-de-Giraud, Camargue, FranceRed salt marshes at Salins-de-Giraud, Camargue, FranceRed salt marshes at Salins-de-Giraud, Camargue, France© Yann Avril / BiosphotoJPG - RM

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Red salt marshes at Salins-de-Giraud, Camargue, France

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Red salt marshes at Salins-de-Giraud, Camargue, FranceRed salt marshes at Salins-de-Giraud, Camargue, FranceRed salt marshes at Salins-de-Giraud, Camargue, France© Yann Avril / BiosphotoJPG - RM

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Red salt marshes at Salins-de-Giraud, Camargue, France

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Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Pilot whale (Globicephala macorhynchus). Tenerife, Canary Islands.Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Pilot whale (Globicephala macorhynchus). Tenerife, Canary Islands.Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Pilot whale (Globicephala macorhynchus). Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Trichodesmium, also called sea sawdust (Trichodesmium

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Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Tenerife, Canary Islands.Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Tenerife, Canary Islands.Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Trichodesmium, also called sea sawdust (Trichodesmium

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Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Tenerife, Canary Islands.Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Tenerife, Canary Islands.Trichodesmium, also called sea sawdust (Trichodesmium erythraeum). It appears massively in surface, time of heat. It is a natural process. Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Trichodesmium, also called sea sawdust (Trichodesmium

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Nostoc pruniform in a puddle, Very primitive organism living in filamentous coloniesNostoc pruniform in a puddle, Very primitive organism living in filamentous coloniesNostoc pruniform in a puddle, Very primitive organism living in filamentous colonies© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Nostoc pruniform in a puddle, Very primitive organism living in

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Rivularia (Rivularia bullata), Trébeurden, Côtes-d'Armor, Bretagne, FranceRivularia (Rivularia bullata), Trébeurden, Côtes-d'Armor, Bretagne, FranceRivularia (Rivularia bullata), Trébeurden, Côtes-d'Armor, Bretagne, France© Frédéric Tournay / BiosphotoJPG - RM

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Rivularia (Rivularia bullata), Trébeurden, Côtes-d'Armor,

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Pink Lake Region Kalbarri (Port Gregory), Western Australia. The pink color is related to the combined presence of algae : Dunalella sailina and a cyanobacterium : Haloarchaea cutirubrum that mass produce protective pigments against UVPink Lake Region Kalbarri (Port Gregory), Western Australia. The pink color is related to the combined presence of algae : Dunalella sailina and a cyanobacterium : Haloarchaea cutirubrum that mass produce protective pigments against UVPink Lake Region Kalbarri (Port Gregory), Western Australia. The pink color is related to the combined presence of algae : Dunalella sailina and a cyanobacterium : Haloarchaea cutirubrum that mass produce protective pigments against UV© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Pink Lake Region Kalbarri (Port Gregory), Western Australia. The

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Pink Lake Region Kalbarri (Port Gregory), Western Australia. The pink color is related to the combined presence of algae : Dunalella sailina and a cyanobacterium : Haloarchaea cutirubrum that mass produce protective pigments against UVPink Lake Region Kalbarri (Port Gregory), Western Australia. The pink color is related to the combined presence of algae : Dunalella sailina and a cyanobacterium : Haloarchaea cutirubrum that mass produce protective pigments against UVPink Lake Region Kalbarri (Port Gregory), Western Australia. The pink color is related to the combined presence of algae : Dunalella sailina and a cyanobacterium : Haloarchaea cutirubrum that mass produce protective pigments against UV© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Pink Lake Region Kalbarri (Port Gregory), Western Australia. The

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Sodium carbonate deposit - Lake Magadi Rift Valley KenyaSodium carbonate deposit - Lake Magadi Rift Valley KenyaSodium carbonate deposit - Lake Magadi Rift Valley Kenya© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

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Sodium carbonate deposit - Lake Magadi Rift Valley Kenya

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Sodium carbonate deposit - Lake Magadi Rift Valley KenyaSodium carbonate deposit - Lake Magadi Rift Valley KenyaSodium carbonate deposit - Lake Magadi Rift Valley Kenya© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

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Sodium carbonate deposit - Lake Magadi Rift Valley Kenya

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Pink color due to the Archaea - Lake Magadi KenyaPink color due to the Archaea - Lake Magadi KenyaPink color due to the Archaea - Lake Magadi Kenya© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

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Pink color due to the Archaea - Lake Magadi Kenya

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Petrifying waterfall in the gorge of Frou - Alpes France ; Unusual environments such Cratoneurion: petrifying springs with tufa formation (Cratoneuron, Brachythecium and encrusting bacteria Lyngbya)Petrifying waterfall in the gorge of Frou - Alpes FrancePetrifying waterfall in the gorge of Frou - Alpes France ; Unusual environments such Cratoneurion: petrifying springs with tufa formation (Cratoneuron, Brachythecium and encrusting bacteria Lyngbya)© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Petrifying waterfall in the gorge of Frou - Alpes France ;

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Cyanobacteria in geothermal area - Yellowstone USACyanobacteria in geothermal area - Yellowstone USACyanobacteria in geothermal area - Yellowstone USA© Marc Le Fèvre / BiosphotoJPG - RM

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Cyanobacteria in geothermal area - Yellowstone USA

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Cyanobacteria in geothermal area - Yellowstone USACyanobacteria in geothermal area - Yellowstone USACyanobacteria in geothermal area - Yellowstone USA© Marc Le Fèvre / BiosphotoJPG - RM

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Cyanobacteria in geothermal area - Yellowstone USA

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Cyanobacteria in geothermal area - Yellowstone USACyanobacteria in geothermal area - Yellowstone USACyanobacteria in geothermal area - Yellowstone USA© Marc Le Fèvre / BiosphotoJPG - RM

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Cyanobacteria in geothermal area - Yellowstone USA

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Cyanobacteria in geothermal area - Yellowstone USACyanobacteria in geothermal area - Yellowstone USACyanobacteria in geothermal area - Yellowstone USA© Marc Le Fèvre / BiosphotoJPG - RM

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Cyanobacteria in geothermal area - Yellowstone USA

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Stromatolites in Rio Mezquites - Cuatro Cinegas Mexico ; Water supply in the desert ChihuanhuanStromatolites in Rio Mezquites - Cuatro Cinegas MexicoStromatolites in Rio Mezquites - Cuatro Cinegas Mexico ; Water supply in the desert Chihuanhuan© Antoine Boureau / BiosphotoJPG - RM

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Stromatolites in Rio Mezquites - Cuatro Cinegas Mexico ; Water

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Bacterial film on the bottom of Lake Annecy France AlpsBacterial film on the bottom of Lake Annecy France AlpsBacterial film on the bottom of Lake Annecy France Alps© Rémi Masson / BiosphotoJPG - RM

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Bacterial film on the bottom of Lake Annecy France Alps

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Colony of star jelly after rainy daysColony of star jelly after rainy daysColony of star jelly after rainy days© Antoni Agelet / BiosphotoJPG - RMNon exclusive sale, exclusive sale possible in France

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Colony of star jelly after rainy days

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Grand prismatic spring Yellowstone National Park USAGrand prismatic spring Yellowstone National Park USAGrand prismatic spring Yellowstone National Park USA© David Tatin / BiosphotoJPG - RM

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Grand prismatic spring Yellowstone National Park USA

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Filaments of Nostoc  ; Brightfield Illumination, 1000 x immersion lens, Canon EOS 450D 12 million pixels. Filaments of Nostoc Filaments of Nostoc  ; Brightfield Illumination, 1000 x immersion lens, Canon EOS 450D 12 million pixels. © Christian Gautier / BiosphotoJPG - RM

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Filaments of Nostoc  ; Brightfield Illumination, 1000 x

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Bacterial lawn in an oxbow of the Rhône River FranceBacterial lawn in an oxbow of the Rhône River FranceBacterial lawn in an oxbow of the Rhône River France© Rémi Masson / BiosphotoJPG - RM

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Bacterial lawn in an oxbow of the Rhône River France

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Sulfur bacteria in an oxbow of the Ain River France Sulfur bacteria in an oxbow of the Ain River France Sulfur bacteria in an oxbow of the Ain River France © Rémi Masson / BiosphotoJPG - RM

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Sulfur bacteria in an oxbow of the Ain River France 

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Bacterial films in a backwater of the Rhone in France Savoie Bacterial films in a backwater of the Rhone in France Savoie Bacterial films in a backwater of the Rhone in France Savoie © Rémi Masson / BiosphotoJPG - RM

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Bacterial films in a backwater of the Rhone in France Savoie 

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Fossil stromatolites Sahara Merzouga MoroccoFossil stromatolites Sahara Merzouga MoroccoFossil stromatolites Sahara Merzouga Morocco© Juan-Carlos Muñoz / BiosphotoJPG - RMNon exclusive sale, exclusive sale possible in France

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Fossil stromatolites Sahara Merzouga Morocco

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Deposit Geyserite around Double Pool Yellowstone NP ; The waters of the geysers contain dissolved silica precipitates around the hot springs Deposit Geyserite around Double Pool Yellowstone NPDeposit Geyserite around Double Pool Yellowstone NP ; The waters of the geysers contain dissolved silica precipitates around the hot springs © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Deposit Geyserite around Double Pool Yellowstone NP ; The waters

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Deposit Geyserite around Double Pool Yellowstone NP ; The waters of the geysers contain dissolved silica precipitates around the hot springs Deposit Geyserite around Double Pool Yellowstone NPDeposit Geyserite around Double Pool Yellowstone NP ; The waters of the geysers contain dissolved silica precipitates around the hot springs © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Deposit Geyserite around Double Pool Yellowstone NP ; The waters

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Thermophilic blue-green algal mats Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). VaryThermophilic blue-green algal mats Yellowstone NP USAThermophilic blue-green algal mats Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). Vary© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Thermophilic blue-green algal mats Yellowstone NP USA ; These

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Thermophilic blue-green algal mats Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). VaryThermophilic blue-green algal mats Yellowstone NP USAThermophilic blue-green algal mats Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). Vary© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Thermophilic blue-green algal mats Yellowstone NP USA ; These

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Morning Glory Pool Yellowstone NP USA ; The clear waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (protective pigments against UV) species  Morning Glory Pool Yellowstone NP USAMorning Glory Pool Yellowstone NP USA ; The clear waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (protective pigments against UV) species  © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Morning Glory Pool Yellowstone NP USA ; The clear waters at the

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Colony of  thermophile blue-green algae and alga Yellowstone ; These mats (carpet) are form "s by blue-green algae (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.).  Colony of thermophile blue-green algae and alga YellowstoneColony of thermophile blue-green algae and alga Yellowstone ; These mats (carpet) are form "s by blue-green algae (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.).  © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Colony of thermophile blue-green algae and alga Yellowstone ;

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Tufa and thermophilic cyanobacteria Mammoth Hot Springs  ; Travertine deposits covered hot water (white areas) or warm (bright) in which proliferation of thermophilic cyanobacteria (Phormidium and Synechococcus), protected from the sun by orange or brown pigments (carotoïdes)Tufa and thermophilic cyanobacteria Mammoth Hot Springs Tufa and thermophilic cyanobacteria Mammoth Hot Springs  ; Travertine deposits covered hot water (white areas) or warm (bright) in which proliferation of thermophilic cyanobacteria (Phormidium and Synechococcus), protected from the sun by orange or brown pigments (carotoïdes)© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Tufa and thermophilic cyanobacteria Mammoth Hot Springs  ;

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Castle Geyser  Yellowstone NP USA ; Geyser very close to the Old Faithful - burst every 13 hours - microterrasses siliceous tuff areas covered by cyanobacteria Castle Geyser Yellowstone NP USACastle Geyser Yellowstone NP USA ; Geyser very close to the Old Faithful - burst every 13 hours - microterrasses siliceous tuff areas covered by cyanobacteria © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Castle Geyser Yellowstone NP USA ; Geyser very close to the Old

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Norris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria Norris Geyser Basin after the storm Yellowstone NP USANorris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Norris Geyser Basin after the storm Yellowstone NP USA ;

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Norris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria Norris Geyser Basin after the storm Yellowstone NP USANorris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Norris Geyser Basin after the storm Yellowstone NP USA ;

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Norris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria Norris Geyser Basin after the storm Yellowstone NP USANorris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Norris Geyser Basin after the storm Yellowstone NP USA ;

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Norris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria Norris Geyser Basin after the storm Yellowstone NP USANorris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Norris Geyser Basin after the storm Yellowstone NP USA ;

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Norris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria Norris Geyser Basin after the storm Yellowstone NP USANorris Geyser Basin after the storm Yellowstone NP USA ; Yellowstone NP sector of rich geysers and hot springs in cyanobacteria © Jean-Philippe Delobelle / BiosphotoJPG - RM

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Norris Geyser Basin after the storm Yellowstone NP USA ;

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Thermophilic blue-green algal mats Yellowstone NP USA  ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). VaryThermophilic blue-green algal mats Yellowstone NP USA Thermophilic blue-green algal mats Yellowstone NP USA  ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). Vary© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Thermophilic blue-green algal mats Yellowstone NP USA  ; These

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Thermophilic blue-green algae on geyserite Yellowstone NP ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). VaryThermophilic blue-green algae on geyserite Yellowstone NPThermophilic blue-green algae on geyserite Yellowstone NP ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). Vary© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Thermophilic blue-green algae on geyserite Yellowstone NP ; These

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Geysers of Old Faithful area at dusk Yellowstone NP USAGeysers of Old Faithful area at dusk Yellowstone NP USAGeysers of Old Faithful area at dusk Yellowstone NP USA© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Geysers of Old Faithful area at dusk Yellowstone NP USA

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Aquatic weeds in the warm waters Yellowstone NP USAAquatic weeds in the warm waters Yellowstone NP USAAquatic weeds in the warm waters Yellowstone NP USA© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Aquatic weeds in the warm waters Yellowstone NP USA

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Norris Geyser Basin after the storm Yellowstone NP USANorris Geyser Basin after the storm Yellowstone NP USANorris Geyser Basin after the storm Yellowstone NP USA© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Norris Geyser Basin after the storm Yellowstone NP USA

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West thumb geyser basin Black Pool Yellowstone NP USA West thumb geyser basin Black Pool Yellowstone NP USA West thumb geyser basin Black Pool Yellowstone NP USA © Jean-Philippe Delobelle / BiosphotoJPG - RM

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West thumb geyser basin Black Pool Yellowstone NP USA 

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Thermophilic blue-green algal mats Yellowstone NP USA Thermophilic blue-green algal mats Yellowstone NP USA Thermophilic blue-green algal mats Yellowstone NP USA © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289486

Thermophilic blue-green algal mats Yellowstone NP USA 

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Thermophilic blue-green algal mats Yellowstone NP USA  ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). VaryThermophilic blue-green algal mats Yellowstone NP USA Thermophilic blue-green algal mats Yellowstone NP USA  ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments (carotenoids, etc.). Vary© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289480

Thermophilic blue-green algal mats Yellowstone NP USA  ; These

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Castle Geyser  Yellowstone NP USA ; Geyser very close to the Old Faithful - burst every 13 hours - microterrasses siliceous tuff areas covered by cyanobacteriaCastle Geyser Yellowstone NP USACastle Geyser Yellowstone NP USA ; Geyser very close to the Old Faithful - burst every 13 hours - microterrasses siliceous tuff areas covered by cyanobacteria© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289478

Castle Geyser Yellowstone NP USA ; Geyser very close to the Old

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These terraces are formed by the flow of water charged with silica precipitates and mingle with various bacterial colonies (thermophilic blue-green algae)<br> [AT]Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These terraces are formed by the flow of water charged with silica precipitates and mingle with various bacterial colonies (thermophilic blue-green algae)
 [AT]
© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289476

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289417

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289415

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289414

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Tourists on Gateway Grand Prismatic Spring Yellowstone NPTourists on Gateway Grand Prismatic Spring Yellowstone NPTourists on Gateway Grand Prismatic Spring Yellowstone NP© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289412

Tourists on Gateway Grand Prismatic Spring Yellowstone NP

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Tourists on Gateway Grand Prismatic Spring Yellowstone NP ; The blue waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (against UV protective pigment),Tourists on Gateway Grand Prismatic Spring Yellowstone NPTourists on Gateway Grand Prismatic Spring Yellowstone NP ; The blue waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (against UV protective pigment),© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289409

Tourists on Gateway Grand Prismatic Spring Yellowstone NP ; The

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Grand Prismatic Spring Yellowstone NP USA ; The blue waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (against UV protective pigment),Grand Prismatic Spring Yellowstone NP USAGrand Prismatic Spring Yellowstone NP USA ; The blue waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (against UV protective pigment),© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289405

Grand Prismatic Spring Yellowstone NP USA ; The blue waters at

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Grand Prismatic Spring Yellowstone NP USA ; The blue waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (against UV protective pigment),Grand Prismatic Spring Yellowstone NP USAGrand Prismatic Spring Yellowstone NP USA ; The blue waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (against UV protective pigment),© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289403

Grand Prismatic Spring Yellowstone NP USA ; The blue waters at

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Grand Prismatic Spring Yellowstone NP USA ; The blue waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (against UV protective pigment),Grand Prismatic Spring Yellowstone NP USAGrand Prismatic Spring Yellowstone NP USA ; The blue waters at the center are very hot (74 ° C) and hyperthermophilic Archaea contain, on the banks, the colder waters are home to colonies of Cyanophyceae forming mats (carpet) colorful (against UV protective pigment),© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289402

Grand Prismatic Spring Yellowstone NP USA ; The blue waters at

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289397

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289396

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Thermophilic cyanobacterium Grand Prismatic Spring YellowstoneThermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289395

Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ;

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Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Thermophilic cyanobacterium Grand Prismatic Spring YellowstoneThermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289393

Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ;

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Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Thermophilic cyanobacterium Grand Prismatic Spring YellowstoneThermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289392

Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ;

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Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Thermophilic cyanobacterium Grand Prismatic Spring YellowstoneThermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289391

Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ;

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Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Thermophilic cyanobacterium Grand Prismatic Spring YellowstoneThermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289389

Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ;

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Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Thermophilic cyanobacterium Grand Prismatic Spring YellowstoneThermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289387

Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ;

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289384

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74° c, the colors are related to the presence of protective pigments vary with the temperature and season;© Jean-Philippe Delobelle / BiosphotoJPG - RM

1289383

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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JPG

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289380

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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JPG

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289379

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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JPG

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289378

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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JPG

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289376

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289374

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Terraces of tufa Grand Prismatic Spring Yellowstone NP USATerraces of tufa Grand Prismatic Spring Yellowstone NP USA ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289372

Terraces of tufa Grand Prismatic Spring Yellowstone NP USA ;

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Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Thermophilic cyanobacterium Grand Prismatic Spring YellowstoneThermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289369

Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ;

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Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  Thermophilic cyanobacterium Grand Prismatic Spring YellowstoneThermophilic cyanobacterium Grand Prismatic Spring Yellowstone ; These mats (carpet) are formed by cyanobacteria (bacteria capable of photosynthesis) thermophilic genera Phormidium and Synechococcus in waters less than 74 ° c, the colors are related to the presence of protective pigments vary with the temperature and season;  © Jean-Philippe Delobelle / BiosphotoJPG - RM

1289366

Thermophilic cyanobacterium Grand Prismatic Spring Yellowstone ;

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Root nodules on common vetch rootsRoot nodules on common vetch rootsRoot nodules on common vetch roots© Jean-Michel Groult / BiosphotoJPG - RM

1265108

Root nodules on common vetch roots

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Blue algae Rivularia bullata on rock FranceBlue algae Rivularia bullata on rock FranceBlue algae Rivularia bullata on rock France© Alain Le Toquin / BiosphotoJPG - RMNon exclusive sale
Sale of more than 10 images of this subject prohibited in a same book

1062045

Blue algae Rivularia bullata on rock France

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Algae Spirulina dry studio Algae Spirulina dry studio Algae Spirulina dry studio © Pascal Pittorino / BiosphotoJPG - RM

997008

Algae Spirulina dry studio 

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Deposit of sodium carbonate Lake Magadi Rift Valley KenyaDeposit of sodium carbonate Lake Magadi Rift Valley KenyaDeposit of sodium carbonate Lake Magadi Rift Valley Kenya© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

942682

Deposit of sodium carbonate Lake Magadi Rift Valley Kenya

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Deposit of sodium carbonate Lake Magadi Rift Valley KenyaDeposit of sodium carbonate Lake Magadi Rift Valley KenyaDeposit of sodium carbonate Lake Magadi Rift Valley Kenya© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

942681

Deposit of sodium carbonate Lake Magadi Rift Valley Kenya

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A novel actinomycetes isolated from marine biomass collected ; bacterium known to produce antibiotics isolated from marine biomass collected from oil-rig platform, Lab - LA St. University, Baton Rouge - LouisianaA novel actinomycetes isolated from marine biomass collectedA novel actinomycetes isolated from marine biomass collected ; bacterium known to produce antibiotics isolated from marine biomass collected from oil-rig platform, Lab - LA St. University, Baton Rouge - Louisiana© Jeffrey Rotman / BiosphotoJPG - RM

892328

A novel actinomycetes isolated from marine biomass collected ;

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Source of Midway Geyser Basin Yellowstone NP USA ; Thermophiles microbes give yellow colour and of cyanobactéries blue colourSource of Midway Geyser Basin Yellowstone NP USASource of Midway Geyser Basin Yellowstone NP USA ; Thermophiles microbes give yellow colour and of cyanobactéries blue colour© Joël Bricout / BiosphotoJPG - RM

752700

Source of Midway Geyser Basin Yellowstone NP USA ; Thermophiles

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Source of blue hot water Yellowstone NP USASource of blue hot water Yellowstone NP USASource of blue hot water Yellowstone NP USA© Joël Bricout / BiosphotoJPG - RM

752699

Source of blue hot water Yellowstone NP USA

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Soda deposit Lake Magadi Kenya Rift ValleySoda deposit Lake Magadi Kenya Rift ValleySoda deposit Lake Magadi Kenya Rift Valley© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

629196

Soda deposit Lake Magadi Kenya Rift Valley

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Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya © Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

629189

Pink color due to Archaea Lake Magadi Kenya 

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Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya © Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

629188

Pink color due to Archaea Lake Magadi Kenya 

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Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya © Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

629187

Pink color due to Archaea Lake Magadi Kenya 

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Soda deposit Lake Magadi Kenya Rift ValleySoda deposit Lake Magadi Kenya Rift ValleySoda deposit Lake Magadi Kenya Rift Valley© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

628198

Soda deposit Lake Magadi Kenya Rift Valley

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Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya © Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

628197

Pink color due to Archaea Lake Magadi Kenya 

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Soda deposit Lake Magadi Kenya Rift ValleySoda deposit Lake Magadi Kenya Rift ValleySoda deposit Lake Magadi Kenya Rift Valley© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

628195

Soda deposit Lake Magadi Kenya Rift Valley

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Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya Pink color due to Archaea Lake Magadi Kenya © Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

628192

Pink color due to Archaea Lake Magadi Kenya 

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Soda deposit Lake Magadi Kenya Rift ValleySoda deposit Lake Magadi Kenya Rift ValleySoda deposit Lake Magadi Kenya Rift Valley© Michel & Christine Denis-Huot / BiosphotoJPG - RMNon exclusive sale

628188

Soda deposit Lake Magadi Kenya Rift Valley

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