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2652 pictures found

Adult cicada, Peruvian AmazonAdult cicada, Peruvian AmazonAdult cicada, Peruvian Amazon© Raphaël Sané / BiosphotoJPG - RMUse for the promotion of hunting prohibited

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Adult cicada, Peruvian Amazon

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Long-eared jerboa Euchoreutes naso Long-eared jerboa (Euchoreutes naso) to landing after the jump. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: MongoliaLong-eared jerboa Euchoreutes naso Long-eared jerboa (Euchoreutes naso) to landing after the jump. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: MongoliaLong-eared jerboa Euchoreutes naso Long-eared jerboa (Euchoreutes naso) to landing after the jump. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: Mongolia© Aleksey Volkov / BiosphotoJPG - RMSale prohibited in Russian Federation
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2407974

Long-eared jerboa Euchoreutes naso Long-eared jerboa (Euchoreutes

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Northern birch mouse (Sicista betulina) sitting on a dry branch. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: middle RussiaNorthern birch mouse (Sicista betulina) sitting on a dry branch. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: middle RussiaNorthern birch mouse (Sicista betulina) sitting on a dry branch. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: middle Russia© Aleksey Volkov / BiosphotoJPG - RMSale prohibited in Russian Federation
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Northern birch mouse (Sicista betulina) sitting on a dry branch.

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Iceberg on the glacial lake of Jökulsárlón, IcelandIceberg on the glacial lake of Jökulsárlón, IcelandIceberg on the glacial lake of Jökulsárlón, Iceland© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

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Iceberg on the glacial lake of Jökulsárlón, Iceland

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Common jellyfish (Aurelia aurita), Bassin de Thau, Balaruc, Herault, FranceCommon jellyfish (Aurelia aurita), Bassin de Thau, Balaruc, Herault, FranceCommon jellyfish (Aurelia aurita), Bassin de Thau, Balaruc, Herault, France© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

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Common jellyfish (Aurelia aurita), Bassin de Thau, Balaruc,

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Ventral view of gravid female Fleischmann's Glass Frog - GuatemalaVentral view of gravid female Fleischmann's Glass Frog - GuatemalaVentral view of gravid female Fleischmann's Glass Frog - Guatemala© Fred Muller / BiosphotoJPG - RM

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Ventral view of gravid female Fleischmann's Glass Frog - Guatemala

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Fleischmann's Glass Frog egg mass under a leaf in GuatemalaFleischmann's Glass Frog egg mass under a leaf in GuatemalaFleischmann's Glass Frog egg mass under a leaf in Guatemala© Fred Muller / BiosphotoJPG - RM

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Fleischmann's Glass Frog egg mass under a leaf in Guatemala

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Fleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in GuatemalaFleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in GuatemalaFleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in Guatemala© Fred Muller / BiosphotoJPG - RM

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Fleischmann's Glass Frog developed tadpoles in the egg mass under

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Fleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in GuatemalaFleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in GuatemalaFleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in Guatemala© Fred Muller / BiosphotoJPG - RM

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Fleischmann's Glass Frog developed tadpoles in the egg mass under

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Fleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in GuatemalaFleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in GuatemalaFleischmann's Glass Frog developed tadpoles in the egg mass under a leaf in Guatemala© Fred Muller / BiosphotoJPG - RM

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Fleischmann's Glass Frog developed tadpoles in the egg mass under

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Fleischmann's Glass Frogs during amplexus in GuatemalaFleischmann's Glass Frogs during amplexus in GuatemalaFleischmann's Glass Frogs during amplexus in Guatemala© Fred Muller / BiosphotoJPG - RM

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Fleischmann's Glass Frogs during amplexus in Guatemala

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Emerald Glass Frog male in Omar Torrijos N.P. - PanamaEmerald Glass Frog male in Omar Torrijos N.P. - PanamaEmerald Glass Frog male in Omar Torrijos N.P. - Panama© Fred Muller / BiosphotoJPG - RM

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Emerald Glass Frog male in Omar Torrijos N.P. - Panama

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Emerald Glass Frog male in Omar Torrijos N.P. - PanamaEmerald Glass Frog male in Omar Torrijos N.P. - PanamaEmerald Glass Frog male in Omar Torrijos N.P. - Panama© Fred Muller / BiosphotoJPG - RM

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Emerald Glass Frog male in Omar Torrijos N.P. - Panama

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Emerald Glass Frog female in Omar Torrijos N.P. - PanamaEmerald Glass Frog female in Omar Torrijos N.P. - PanamaEmerald Glass Frog female in Omar Torrijos N.P. - Panama© Fred Muller / BiosphotoJPG - RM

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Emerald Glass Frog female in Omar Torrijos N.P. - Panama

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Emerald Glass Frog female in Omar Torrijos N.P. - PanamaEmerald Glass Frog female in Omar Torrijos N.P. - PanamaEmerald Glass Frog female in Omar Torrijos N.P. - Panama© Fred Muller / BiosphotoJPG - RM

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Emerald Glass Frog female in Omar Torrijos N.P. - Panama

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Wandering spider devouring a Fleischmann's Glass Frog in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in Guatemala© Fred Muller / BiosphotoJPG - RM

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Wandering spider devouring a Fleischmann's Glass Frog in Guatemala

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Wandering spider devouring a Fleischmann's Glass Frog in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in Guatemala© Fred Muller / BiosphotoJPG - RM

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Wandering spider devouring a Fleischmann's Glass Frog in Guatemala

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Wandering spider devouring a Fleischmann's Glass Frog in his nest in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in his nest in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in his nest in Guatemala© Fred Muller / BiosphotoJPG - RM

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Wandering spider devouring a Fleischmann's Glass Frog in his nest

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Wandering spider devouring a Fleischmann's Glass Frog and woman thumb in GuatemalaWandering spider devouring a Fleischmann's Glass Frog and woman thumb in GuatemalaWandering spider devouring a Fleischmann's Glass Frog and woman thumb in Guatemala© Fred Muller / BiosphotoJPG - RM

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Wandering spider devouring a Fleischmann's Glass Frog and woman

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Wandering spider devouring a Fleischmann's Glass Frog in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in Guatemala© Fred Muller / BiosphotoJPG - RM

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Wandering spider devouring a Fleischmann's Glass Frog in Guatemala

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Wandering spider devouring a Fleischmann's Glass Frog in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in GuatemalaWandering spider devouring a Fleischmann's Glass Frog in Guatemala© Fred Muller / BiosphotoJPG - RM

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Wandering spider devouring a Fleischmann's Glass Frog in Guatemala

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School of Common Jellyfish (Aurelia aurita) on the Yıldızkoy Bay Submarine Trail in the Marine Protected Area of Gokceada Island, TurkeySchool of Common Jellyfish (Aurelia aurita) on the Yıldızkoy Bay Submarine Trail in the Marine Protected Area of Gokceada Island, TurkeySchool of Common Jellyfish (Aurelia aurita) on the Yıldızkoy Bay Submarine Trail in the Marine Protected Area of Gokceada Island, Turkey© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

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School of Common Jellyfish (Aurelia aurita) on the Yıldızkoy

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Colorful lake, Jiuzhaigou valley, Sichuan, ChinaColorful lake, Jiuzhaigou valley, Sichuan, ChinaColorful lake, Jiuzhaigou valley, Sichuan, China© Sylvain Cordier / BiosphotoJPG - RM

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Colorful lake, Jiuzhaigou valley, Sichuan, China

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Rana de cristal de manchas doradas; Sun's glass frog; (Hyalinobatrachium aureoguttatum) photographed in the chocó forest of La Mana, Ecuador. The Gold spots Glass Frog (Hyalinobatrachium aureoguttatum) is one of the most transparent glass frogs in the world. Through the skin can be distinguished the organs, the heart, and even the eggs as in the case of this beautiful femaleRana de cristal de manchas doradas; Sun's glass frog; (Hyalinobatrachium aureoguttatum) photographed in the chocó forest of La Mana, Ecuador. The Gold spots Glass Frog (Hyalinobatrachium aureoguttatum) is one of the most transparent glass frogs in the world. Through the skin can be distinguished the organs, the heart, and even the eggs as in the case of this beautiful femaleRana de cristal de manchas doradas; Sun's glass frog; (Hyalinobatrachium aureoguttatum) photographed in the chocó forest of La Mana, Ecuador. The Gold spots Glass Frog (Hyalinobatrachium aureoguttatum) is one of the most transparent glass frogs in the world. Through the skin can be distinguished the organs, the heart, and even the eggs as in the case of this beautiful female© Javier Aznar Gonzalez de Rueda / BiosphotoJPG - RM

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Rana de cristal de manchas doradas; Sun's glass frog;

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Ventral view of glass frog on black background ; heart, guts and venous system visible to transparency, the skeleton is white (one of the criteria for identification of this species)Ventral view of glass frog on black backgroundVentral view of glass frog on black background ; heart, guts and venous system visible to transparency, the skeleton is white (one of the criteria for identification of this species)© Françoise Serre-Collet / BiosphotoJPG - RMNon exclusive sale

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Ventral view of glass frog on black background ; heart, guts and

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Glass frog sits atop a large leaf - Costa RicaGlass frog sits atop a large leaf - Costa RicaGlass frog sits atop a large leaf - Costa Rica© Debbie Di Carlo / BiosphotoJPG - RMNon exclusive sale
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Glass frog sits atop a large leaf - Costa Rica

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Jellyfish - Poor knights Island New ZealandJellyfish - Poor knights Island New ZealandJellyfish - Poor knights Island New Zealand© Tobias Bernhard Raff / BiosphotoJPG - RMNon exclusive sale
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1988280

Jellyfish - Poor knights Island New Zealand

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Blue-tailed Demoiselle mating a fence FranceBlue-tailed Demoiselle mating a fence FranceBlue-tailed Demoiselle mating a fence France© Julien Boisard / BiosphotoJPG - RM

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Blue-tailed Demoiselle mating a fence France

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Broadclub Cuttlefish egg with foetusBroadclub Cuttlefish egg with foetusBroadclub Cuttlefish egg with foetus© Claude Guihard / BiosphotoJPG - RM

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Broadclub Cuttlefish egg with foetus

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Vagrant Darter Dragonfly at dusk in the tall grass ArdècheVagrant Darter Dragonfly at dusk in the tall grass ArdècheVagrant Darter Dragonfly at dusk in the tall grass Ardèche© Ghislain Simard / BiosphotoJPG - RM

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Vagrant Darter Dragonfly at dusk in the tall grass Ardèche

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Polyps and skeleton of a Soft Coral in the Red Sea EgyptPolyps and skeleton of a Soft Coral in the Red Sea EgyptPolyps and skeleton of a Soft Coral in the Red Sea Egypt© Didier Brandelet / BiosphotoJPG - RM

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Polyps and skeleton of a Soft Coral in the Red Sea Egypt

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Mauve stinger jellyfish Mediterranean SeaMauve stinger jellyfish Mediterranean SeaMauve stinger jellyfish Mediterranean Sea© Alexis Duclos / BiosphotoJPG - RM

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Mauve stinger jellyfish Mediterranean Sea

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Emerald glass frog (Centrolenella prosoblepon) on a Heliconia leaf at night, Costa RicaEmerald glass frog (Centrolenella prosoblepon) on a Heliconia leaf at night, Costa RicaEmerald glass frog (Centrolenella prosoblepon) on a Heliconia leaf at night, Costa Rica© Greg Basco / BIA / BiosphotoJPG - RMNon exclusive sale
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Emerald glass frog (Centrolenella prosoblepon) on a Heliconia

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Clinging Jellyfish (Gonionemus vertens), Sogn og fjordane, Norway, EuropeClinging Jellyfish (Gonionemus vertens), Sogn og fjordane, Norway, EuropeClinging Jellyfish (Gonionemus vertens), Sogn og fjordane, Norway, Europe© SeaTops / imageBROKER / BiosphotoJPG - RMNon exclusive sale
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2395464

Clinging Jellyfish (Gonionemus vertens), Sogn og fjordane,

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Hydromeduse (Sarsia tubulosa), coast off Stokmarknes, Hadsel, Nordland, Norway, EuropeHydromeduse (Sarsia tubulosa), coast off Stokmarknes, Hadsel, Nordland, Norway, EuropeHydromeduse (Sarsia tubulosa), coast off Stokmarknes, Hadsel, Nordland, Norway, Europe© SeaTops / imageBROKER / BiosphotoJPG - RMNon exclusive sale
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2395449

Hydromeduse (Sarsia tubulosa), coast off Stokmarknes, Hadsel,

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Brush-footed butterfly (Greta oto) sitting on a information panelBrush-footed butterfly (Greta oto) sitting on a information panelBrush-footed butterfly (Greta oto) sitting on a information panel© Siegfried Kramer / imageBROKER / BiosphotoJPG - RMNon exclusive sale
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1167124

Brush-footed butterfly (Greta oto) sitting on a information panel

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Filament glassfish (Gymnochanda filamentosa)Filament glassfish (Gymnochanda filamentosa)Filament glassfish (Gymnochanda filamentosa)© Aqua Press / BiosphotoJPG - RMNon exclusive sale

2431686

Filament glassfish (Gymnochanda filamentosa)

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Black-veined White (Aporia crataegi) imago resting semi-transparent wings, Creuse, FranceBlack-veined White (Aporia crataegi) imago resting semi-transparent wings, Creuse, FranceBlack-veined White (Aporia crataegi) imago resting semi-transparent wings, Creuse, France© Dominique Halleux / BiosphotoJPG - RM

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Black-veined White (Aporia crataegi) imago resting

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Hornet Moth (Sesia apiformis) moth, female, Batésian mimicry of this harmless butterfly with transparent wings whose shape and color resemble those of the Hornet armed with a formidable sting, FranceHornet Moth (Sesia apiformis) moth, female, Batésian mimicry of this harmless butterfly with transparent wings whose shape and color resemble those of the Hornet armed with a formidable sting, FranceHornet Moth (Sesia apiformis) moth, female, Batésian mimicry of this harmless butterfly with transparent wings whose shape and color resemble those of the Hornet armed with a formidable sting, France© Dominique Halleux / BiosphotoJPG - RM

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Hornet Moth (Sesia apiformis) moth, female, Batésian mimicry of

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Colored Glass fish (Parambassis ranga)Colored Glass fish (Parambassis ranga)Colored Glass fish (Parambassis ranga)© Aqua Press / BiosphotoJPG - RMNon exclusive sale

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Colored Glass fish (Parambassis ranga)

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It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n°RP 16-02/32 FIS-5.It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n°RP 16-02/32 FIS-5.It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n°RP 16-02/32 FIS-5.© Franco Banfi / BiosphotoJPG - RMNon exclusive sale, exclusive sale possible in France

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It looks like a plastic bag floating in the ocean, a transparent

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Jersey Tiger (Euplagia quadripunctaria) resting on a glazing, Brittany, FranceJersey Tiger (Euplagia quadripunctaria) resting on a glazing, Brittany, FranceJersey Tiger (Euplagia quadripunctaria) resting on a glazing, Brittany, France© André Pascal / BiosphotoJPG - RM

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Jersey Tiger (Euplagia quadripunctaria) resting on a glazing,

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Ribs of a leaf after digestion of the cellulose in the litter, only lignin ribs remainRibs of a leaf after digestion of the cellulose in the litter, only lignin ribs remainRibs of a leaf after digestion of the cellulose in the litter, only lignin ribs remain© Stéphane Vitzthum / BiosphotoJPG - RM

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Ribs of a leaf after digestion of the cellulose in the litter,

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Long-eared jerboa Euchoreutes naso Long-eared jerboa (Euchoreutes naso) start to move/jump. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: MongoliaLong-eared jerboa Euchoreutes naso Long-eared jerboa (Euchoreutes naso) start to move/jump. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: MongoliaLong-eared jerboa Euchoreutes naso Long-eared jerboa (Euchoreutes naso) start to move/jump. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: Mongolia© Aleksey Volkov / BiosphotoJPG - RMSale prohibited in Russian Federation
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2407976

Long-eared jerboa Euchoreutes naso Long-eared jerboa (Euchoreutes

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Northern birch mouse (Sicista betulina) climbs up the dry branch and maintains the balance of the tail. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: middle RussiaNorthern birch mouse (Sicista betulina) climbs up the dry branch and maintains the balance of the tail. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: middle RussiaNorthern birch mouse (Sicista betulina) climbs up the dry branch and maintains the balance of the tail. Photographing animals in a special transparent camera on the territory of the scientific center of the Moscow zoo Original country: middle Russia© Aleksey Volkov / BiosphotoJPG - RMSale prohibited in Russian Federation
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2407951

Northern birch mouse (Sicista betulina) climbs up the dry branch

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Zebrafish, Danio rerio, swimming in aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish, Danio rerio, swimming in aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish, Danio rerio, swimming in aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Zebrafish, Danio rerio, swimming in aquarium. Since the 1930s,

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Zebrafish, Danio rerio. Veil fin variety above and regular stripes bellow. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish, Danio rerio. Veil fin variety above and regular stripes bellow. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish, Danio rerio. Veil fin variety above and regular stripes bellow. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405139

Zebrafish, Danio rerio. Veil fin variety above and regular

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Zebrafish, Danio rerio, fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish, Danio rerio, fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish, Danio rerio, fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405138

Zebrafish, Danio rerio, fry on aquarium. Since the 1930s, zebra

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Zebrafish (Danio rerio), fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish (Danio rerio), fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish (Danio rerio), fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405137

Zebrafish (Danio rerio), fry on aquarium. Since the 1930s, zebra

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Zebrafish (Danio rerio), used on cancer research. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. FranceZebrafish (Danio rerio), used on cancer research. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. FranceZebrafish (Danio rerio), used on cancer research. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. France© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405135

Zebrafish (Danio rerio), used on cancer research. The use of

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Zebrafish (Danio rerio). Stripe form (above) Casper fish form (bellow). Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USAZebrafish (Danio rerio). Stripe form (above) Casper fish form (bellow). Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USAZebrafish (Danio rerio). Stripe form (above) Casper fish form (bellow). Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405134

Zebrafish (Danio rerio). Stripe form (above) Casper fish form

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Zebrafish (Danio rerio), with human cancer. Zebrafish are a powerful tool for studying human cancers. Transgenic techniques have been employed to model different types of tumors, including leukemia, melanoma, glioblastoma and endocrine tumors. Transplantation of human cancer cells in embryos or adult zebrafish offers the advantage of studying the behavior of human cancer cells in a live organism. Chemical-genetic screens using zebrafish embryos have uncovered novel druggable pathways and new therapeutic strategies, some of which are now tested in clinical trials. Zebrafish has contributed to novel discoveries or approaches to novel therapies for human cancer. FranceZebrafish (Danio rerio), with human cancer. Zebrafish are a powerful tool for studying human cancers. Transgenic techniques have been employed to model different types of tumors, including leukemia, melanoma, glioblastoma and endocrine tumors. Transplantation of human cancer cells in embryos or adult zebrafish offers the advantage of studying the behavior of human cancer cells in a live organism. Chemical-genetic screens using zebrafish embryos have uncovered novel druggable pathways and new therapeutic strategies, some of which are now tested in clinical trials. Zebrafish has contributed to novel discoveries or approaches to novel therapies for human cancer. FranceZebrafish (Danio rerio), with human cancer. Zebrafish are a powerful tool for studying human cancers. Transgenic techniques have been employed to model different types of tumors, including leukemia, melanoma, glioblastoma and endocrine tumors. Transplantation of human cancer cells in embryos or adult zebrafish offers the advantage of studying the behavior of human cancer cells in a live organism. Chemical-genetic screens using zebrafish embryos have uncovered novel druggable pathways and new therapeutic strategies, some of which are now tested in clinical trials. Zebrafish has contributed to novel discoveries or approaches to novel therapies for human cancer. France© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405130

Zebrafish (Danio rerio), with human cancer. Zebrafish are a

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Zebrafish (Danio rerio), with human cancer. Zebrafish are a powerful tool for studying human cancers. Transgenic techniques have been employed to model different types of tumors, including leukemia, melanoma, glioblastoma and endocrine tumors. Transplantation of human cancer cells in embryos or adult zebrafish offers the advantage of studying the behavior of human cancer cells in a live organism. Chemical-genetic screens using zebrafish embryos have uncovered novel druggable pathways and new therapeutic strategies, some of which are now tested in clinical trials. Zebrafish has contributed to novel discoveries or approaches to novel therapies for human cancer. FranceZebrafish (Danio rerio), with human cancer. Zebrafish are a powerful tool for studying human cancers. Transgenic techniques have been employed to model different types of tumors, including leukemia, melanoma, glioblastoma and endocrine tumors. Transplantation of human cancer cells in embryos or adult zebrafish offers the advantage of studying the behavior of human cancer cells in a live organism. Chemical-genetic screens using zebrafish embryos have uncovered novel druggable pathways and new therapeutic strategies, some of which are now tested in clinical trials. Zebrafish has contributed to novel discoveries or approaches to novel therapies for human cancer. FranceZebrafish (Danio rerio), with human cancer. Zebrafish are a powerful tool for studying human cancers. Transgenic techniques have been employed to model different types of tumors, including leukemia, melanoma, glioblastoma and endocrine tumors. Transplantation of human cancer cells in embryos or adult zebrafish offers the advantage of studying the behavior of human cancer cells in a live organism. Chemical-genetic screens using zebrafish embryos have uncovered novel druggable pathways and new therapeutic strategies, some of which are now tested in clinical trials. Zebrafish has contributed to novel discoveries or approaches to novel therapies for human cancer. France© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405129

Zebrafish (Danio rerio), with human cancer. Zebrafish are a

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Human tumor cells, colored red, growing in zebrafish (Danio rerio) embryo. Scientists inserted human cancer cells into zebrafish embryos and allowed them to grow for several days. Then added chemotherapy to the fishes’ water and found that some of the tumors shrank and others didn’t. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. FranceHuman tumor cells, colored red, growing in zebrafish (Danio rerio) embryo. Scientists inserted human cancer cells into zebrafish embryos and allowed them to grow for several days. Then added chemotherapy to the fishes’ water and found that some of the tumors shrank and others didn’t. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. FranceHuman tumor cells, colored red, growing in zebrafish (Danio rerio) embryo. Scientists inserted human cancer cells into zebrafish embryos and allowed them to grow for several days. Then added chemotherapy to the fishes’ water and found that some of the tumors shrank and others didn’t. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. France© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405128

Human tumor cells, colored red, growing in zebrafish (Danio

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Human tumor cells, colored red, growing in zebrafish (Danio rerio) embryo. Scientists inserted human cancer cells into zebrafish embryos and allowed them to grow for several days. Then added chemotherapy to the fishes’ water and found that some of the tumors shrank and others didn’t. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. FranceHuman tumor cells, colored red, growing in zebrafish (Danio rerio) embryo. Scientists inserted human cancer cells into zebrafish embryos and allowed them to grow for several days. Then added chemotherapy to the fishes’ water and found that some of the tumors shrank and others didn’t. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. FranceHuman tumor cells, colored red, growing in zebrafish (Danio rerio) embryo. Scientists inserted human cancer cells into zebrafish embryos and allowed them to grow for several days. Then added chemotherapy to the fishes’ water and found that some of the tumors shrank and others didn’t. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. France© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405127

Human tumor cells, colored red, growing in zebrafish (Danio

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Microinjection of Zebrafish (Danio rerio) embryos to analyse gene function. Embryo being micro-injected into the yolk with RNA (ribonucleic acid) mixed with a red dye. One of the advantages of studying zebrafish is the ease with which specific gene products can be added to or eliminated from the embryo by microinjection. Morpholinos, which are synthetic oligonucleotides with antisense complementarity to target RNAs, can be added to the embryo to reduce the expression of a particular gene product. USAMicroinjection of Zebrafish (Danio rerio) embryos to analyse gene function. Embryo being micro-injected into the yolk with RNA (ribonucleic acid) mixed with a red dye. One of the advantages of studying zebrafish is the ease with which specific gene products can be added to or eliminated from the embryo by microinjection. Morpholinos, which are synthetic oligonucleotides with antisense complementarity to target RNAs, can be added to the embryo to reduce the expression of a particular gene product. USAMicroinjection of Zebrafish (Danio rerio) embryos to analyse gene function. Embryo being micro-injected into the yolk with RNA (ribonucleic acid) mixed with a red dye. One of the advantages of studying zebrafish is the ease with which specific gene products can be added to or eliminated from the embryo by microinjection. Morpholinos, which are synthetic oligonucleotides with antisense complementarity to target RNAs, can be added to the embryo to reduce the expression of a particular gene product. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405126

Microinjection of Zebrafish (Danio rerio) embryos to analyse gene

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Zebrafish (Danio rerio), on casper fish form. Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USAZebrafish (Danio rerio), on casper fish form. Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USAZebrafish (Danio rerio), on casper fish form. Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405125

Zebrafish (Danio rerio), on casper fish form. Casper fish are the

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Paedocypris progenetica. Photographed in aquarium with a milimetric scale to show the diminutive size of the fish. It's a fish endemic to the Indonesian islands of Sumatra and Bintan where it is found in peat swamps and blackwater streams. It is the smallest known fish in the world, with females reaching a maximum standard length of 10.3 mm and males 9.8 mm. A female measuring only 7.9 mm was the smallest known mature specimen. It held the record for the smallest known vertebrate until the frog Paedophryne amauensis was formally described in January 2012. The fish, a member of the carp family, has a partially see-through body and a reduced head skeleton, which leaves the brain completely unprotected by bone. This tiny, translucent fish has the appearance of larvae, possesses some bizarre grasping pelvic fins and lives in dark tea-coloured waters with an acidity of pH3, which is at least 100 times more acidic than rainwater. Those peat swamps have been damaged by large forest fires and they are still being threatened by industries such as logging and agriculture. As a result several populations of Paedocypris have already been lost. FrancePaedocypris progenetica. Photographed in aquarium with a milimetric scale to show the diminutive size of the fish. It's a fish endemic to the Indonesian islands of Sumatra and Bintan where it is found in peat swamps and blackwater streams. It is the smallest known fish in the world, with females reaching a maximum standard length of 10.3 mm and males 9.8 mm. A female measuring only 7.9 mm was the smallest known mature specimen. It held the record for the smallest known vertebrate until the frog Paedophryne amauensis was formally described in January 2012. The fish, a member of the carp family, has a partially see-through body and a reduced head skeleton, which leaves the brain completely unprotected by bone. This tiny, translucent fish has the appearance of larvae, possesses some bizarre grasping pelvic fins and lives in dark tea-coloured waters with an acidity of pH3, which is at least 100 times more acidic than rainwater. Those peat swamps have been damaged by large forest fires and they are still being threatened by industries such as logging and agriculture. As a result several populations of Paedocypris have already been lost. FrancePaedocypris progenetica. Photographed in aquarium with a milimetric scale to show the diminutive size of the fish. It's a fish endemic to the Indonesian islands of Sumatra and Bintan where it is found in peat swamps and blackwater streams. It is the smallest known fish in the world, with females reaching a maximum standard length of 10.3 mm and males 9.8 mm. A female measuring only 7.9 mm was the smallest known mature specimen. It held the record for the smallest known vertebrate until the frog Paedophryne amauensis was formally described in January 2012. The fish, a member of the carp family, has a partially see-through body and a reduced head skeleton, which leaves the brain completely unprotected by bone. This tiny, translucent fish has the appearance of larvae, possesses some bizarre grasping pelvic fins and lives in dark tea-coloured waters with an acidity of pH3, which is at least 100 times more acidic than rainwater. Those peat swamps have been damaged by large forest fires and they are still being threatened by industries such as logging and agriculture. As a result several populations of Paedocypris have already been lost. France© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405124

Paedocypris progenetica. Photographed in aquarium with a

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ANFÍPODO pelagic. It is a species related to the SALPE (lives in its transparent body). Marine invertebrates of the Canary Islands.ANFÍPODO pelagic. It is a species related to the SALPE (lives in its transparent body). Marine invertebrates of the Canary Islands.ANFÍPODO pelagic. It is a species related to the SALPE (lives in its transparent body). Marine invertebrates of the Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

2403892

ANFÍPODO pelagic. It is a species related to the SALPE (lives in

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Salpe, planktonic tunicate. Marine invertebrates of the Canary Islands.Salpe, planktonic tunicate. Marine invertebrates of the Canary Islands.Salpe, planktonic tunicate. Marine invertebrates of the Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

2403891

Salpe, planktonic tunicate. Marine invertebrates of the Canary

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Glasswing butterfly (Greta oto)Glasswing butterfly (Greta oto)Glasswing butterfly (Greta oto)© Juan-Carlos Muñoz / BiosphotoJPG - RMNon exclusive sale, exclusive sale possible in France

2401587

Glasswing butterfly (Greta oto)

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Moon Jellyfish (Aurelia aurita), Lembeh strait, IndonesiaMoon Jellyfish (Aurelia aurita), Lembeh strait, IndonesiaMoon Jellyfish (Aurelia aurita), Lembeh strait, Indonesia© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2397145

Moon Jellyfish (Aurelia aurita), Lembeh strait, Indonesia

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Bois Jolan beach, Sainte-Anne, Guadeloupe, French West IndiesBois Jolan beach, Sainte-Anne, Guadeloupe, French West IndiesBois Jolan beach, Sainte-Anne, Guadeloupe, French West Indies© Marc Le Fèvre / BiosphotoJPG - RM

2396532

Bois Jolan beach, Sainte-Anne, Guadeloupe, French West Indies

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Bois Jolan beach, Sainte-Anne, Guadeloupe, French West IndiesBois Jolan beach, Sainte-Anne, Guadeloupe, French West IndiesBois Jolan beach, Sainte-Anne, Guadeloupe, French West Indies© Marc Le Fèvre / BiosphotoJPG - RM

2396531

Bois Jolan beach, Sainte-Anne, Guadeloupe, French West Indies

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Bois Jolan beach, Sainte-Anne, Guadeloupe, French West IndiesBois Jolan beach, Sainte-Anne, Guadeloupe, French West IndiesBois Jolan beach, Sainte-Anne, Guadeloupe, French West Indies© Marc Le Fèvre / BiosphotoJPG - RM

2396530

Bois Jolan beach, Sainte-Anne, Guadeloupe, French West Indies

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Bois Jolan beach, Sainte-Anne, Guadeloupe, French West IndiesBois Jolan beach, Sainte-Anne, Guadeloupe, French West IndiesBois Jolan beach, Sainte-Anne, Guadeloupe, French West Indies© Marc Le Fèvre / BiosphotoJPG - RM

2396525

Bois Jolan beach, Sainte-Anne, Guadeloupe, French West Indies

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Sunlight crossing ice and water, GreenlandSunlight crossing ice and water, GreenlandSunlight crossing ice and water, Greenland© Vincent Truchet / BiosphotoJPG - RMNon exclusive sale

2168729

Sunlight crossing ice and water, Greenland

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Sunlight crossing ice and water, GreenlandSunlight crossing ice and water, GreenlandSunlight crossing ice and water, Greenland© Vincent Truchet / BiosphotoJPG - RMNon exclusive sale

2168728

Sunlight crossing ice and water, Greenland

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Transparent goby, Aphia minuta. It's a small (7 cm) species of the goby native to the northeastern Atlantic Ocean from Norway to Morocco. It is also found in the Mediterranean, Black Sea and the Sea of Azov. It is a pelagic species that can be found at depths of from the surface to 97 m, over sandy and muddy bottoms and also in eelgrass beds. This fish is appreciated in Spain where they are called chanquetes it is traditionally served deep-fried, with fried eggs and roasted or fried pepper. PortugalTransparent goby, Aphia minuta. It's a small (7 cm) species of the goby native to the northeastern Atlantic Ocean from Norway to Morocco. It is also found in the Mediterranean, Black Sea and the Sea of Azov. It is a pelagic species that can be found at depths of from the surface to 97 m, over sandy and muddy bottoms and also in eelgrass beds. This fish is appreciated in Spain where they are called chanquetes it is traditionally served deep-fried, with fried eggs and roasted or fried pepper. PortugalTransparent goby, Aphia minuta. It's a small (7 cm) species of the goby native to the northeastern Atlantic Ocean from Norway to Morocco. It is also found in the Mediterranean, Black Sea and the Sea of Azov. It is a pelagic species that can be found at depths of from the surface to 97 m, over sandy and muddy bottoms and also in eelgrass beds. This fish is appreciated in Spain where they are called chanquetes it is traditionally served deep-fried, with fried eggs and roasted or fried pepper. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2167958

Transparent goby, Aphia minuta. It's a small (7 cm) species of

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Sunrise and Ice on black sand beach, Jokulsarlon, IcelandSunrise and Ice on black sand beach, Jokulsarlon, IcelandSunrise and Ice on black sand beach, Jokulsarlon, Iceland© Christophe Ravier / BiosphotoJPG - RM

2158185

Sunrise and Ice on black sand beach, Jokulsarlon, Iceland

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Ice on black sand beach Jokulsarlon, IcelandIce on black sand beach Jokulsarlon, IcelandIce on black sand beach Jokulsarlon, Iceland© Christophe Ravier / BiosphotoJPG - RM

2158184

Ice on black sand beach Jokulsarlon, Iceland

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Southern emerald damselfly (Lestes barbarus), Audierne bay, Finistere, Bretagne, FranceSouthern emerald damselfly (Lestes barbarus), Audierne bay, Finistere, Bretagne, FranceSouthern emerald damselfly (Lestes barbarus), Audierne bay, Finistere, Bretagne, France© Emile Barbelette / BiosphotoJPG - RM

2127316

Southern emerald damselfly (Lestes barbarus), Audierne bay,

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Drops of colored water and air bubbles on white backgroundDrops of colored water and air bubbles on white backgroundDrops of colored water and air bubbles on white background© Joël Héras / BiosphotoJPG - RM

2124762

Drops of colored water and air bubbles on white background

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Drops of colored water and soap bubble on black backgroundDrops of colored water and soap bubble on black backgroundDrops of colored water and soap bubble on black background© Joël Héras / BiosphotoJPG - RM

2124760

Drops of colored water and soap bubble on black background

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Drops of water colored on white backgroundDrops of water colored on white backgroundDrops of water colored on white background© Joël Héras / BiosphotoJPG - RM

2124759

Drops of water colored on white background

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Drops of water colored on white backgroundDrops of water colored on white backgroundDrops of water colored on white background© Joël Héras / BiosphotoJPG - RM

2124758

Drops of water colored on white background

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Drop of colored water and soap bubble on black backgroundDrop of colored water and soap bubble on black backgroundDrop of colored water and soap bubble on black background© Joël Héras / BiosphotoJPG - RM

2124755

Drop of colored water and soap bubble on black background

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Drops of colored water and air bubbles on white backgroundDrops of colored water and air bubbles on white backgroundDrops of colored water and air bubbles on white background© Joël Héras / BiosphotoJPG - RM

2124754

Drops of colored water and air bubbles on white background

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Drops of colored water in white backgroundDrops of colored water in white backgroundDrops of colored water in white background© Joël Héras / BiosphotoJPG - RM

2124747

Drops of colored water in white background

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Drops of water colored on white backgroundDrops of water colored on white backgroundDrops of water colored on white background© Joël Héras / BiosphotoJPG - RM

2124745

Drops of water colored on white background

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Drop of colored water and soap bubble on black backgroundDrop of colored water and soap bubble on black backgroundDrop of colored water and soap bubble on black background© Joël Héras / BiosphotoJPG - RM

2124740

Drop of colored water and soap bubble on black background

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Colorful water drop and soap bubble on black backgroundColorful water drop and soap bubble on black backgroundColorful water drop and soap bubble on black background© Joël Héras / BiosphotoJPG - RM

2124739

Colorful water drop and soap bubble on black background

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Drops of colored water and soap bubble on black backgroundDrops of colored water and soap bubble on black backgroundDrops of colored water and soap bubble on black background© Joël Héras / BiosphotoJPG - RM

2124737

Drops of colored water and soap bubble on black background

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Drops of colored water and soap bubble on black backgroundDrops of colored water and soap bubble on black backgroundDrops of colored water and soap bubble on black background© Joël Héras / BiosphotoJPG - RM

2124736

Drops of colored water and soap bubble on black background

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Drops of colored water and soap bubble on black backgroundDrops of colored water and soap bubble on black backgroundDrops of colored water and soap bubble on black background© Joël Héras / BiosphotoJPG - RM

2124735

Drops of colored water and soap bubble on black background

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Drops of colored waterDrops of colored waterDrops of colored water© Joël Héras / BiosphotoJPG - RM

2124734

Drops of colored water

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Single drop of water falling in waterSingle drop of water falling in waterSingle drop of water falling in water© Joël Héras / BiosphotoJPG - RM

2124726

Single drop of water falling in water

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Single drop of water falling in waterSingle drop of water falling in waterSingle drop of water falling in water© Joël Héras / BiosphotoJPG - RM

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Single drop of water falling in water

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Hummingbird Tetra (Trochilocharax ornatus) in nano aquariumHummingbird Tetra (Trochilocharax ornatus) in nano aquariumHummingbird Tetra (Trochilocharax ornatus) in nano aquarium© Bruno Cavignaux / BiosphotoJPG - RM

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Hummingbird Tetra (Trochilocharax ornatus) in nano aquarium

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Honey bee (Apis mellifera) - On a comb under construction, the bees build round cells with the wax that they secrete. The wax of the cera alba bee is made from the white and transparent scales that appear at the opening of the four small pockets situated on each side of its abdomen.Honey bee (Apis mellifera) - On a comb under construction, the bees build round cells with the wax that they secrete. The wax of the cera alba bee is made from the white and transparent scales that appear at the opening of the four small pockets situated on each side of its abdomen.Honey bee (Apis mellifera) - On a comb under construction, the bees build round cells with the wax that they secrete. The wax of the cera alba bee is made from the white and transparent scales that appear at the opening of the four small pockets situated on each side of its abdomen.© Eric Tourneret / BiosphotoJPG - RMNon exclusive sale
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Honey bee (Apis mellifera) - On a comb under construction, the

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Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2099657

Diver in Silfra crack, Iceland.

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Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2099656

Diver in Silfra crack, Iceland.

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Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2099655

Diver in Silfra crack, Iceland.

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Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2099654

Diver in Silfra crack, Iceland.

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Divers exploring an unknown volcanic crack in IcelandDivers exploring an unknown volcanic crack in IcelandDivers exploring an unknown volcanic crack in Iceland© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2099650

Divers exploring an unknown volcanic crack in Iceland

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Divers exploring an unknown volcanic crack in IcelandDivers exploring an unknown volcanic crack in IcelandDivers exploring an unknown volcanic crack in Iceland© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2099649

Divers exploring an unknown volcanic crack in Iceland

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Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.Diver in Silfra crack, Iceland.© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2099645

Diver in Silfra crack, Iceland.

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It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n° 351/12 W-2.It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n° 351/12 W-2.It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n° 351/12 W-2.© Franco Banfi / BiosphotoJPG - RMNon exclusive sale, exclusive sale possible in France

2096386

It looks like a plastic bag floating in the ocean, a transparent

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It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n° 351/12 W-2.It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n° 351/12 W-2.It looks like a plastic bag floating in the ocean, a transparent chunk of skin from a sperm whale. It get rubbed off when they socialise and groom each other by rubbing their massive bodies together. Vulnerable (IUCN). The sperm whale is the largest of the toothed whales. Sperm whales are known to dive as deep as 1,000 meters in search of squid to eat. Image has been shot in Dominica, Caribbean Sea, Atlantic Ocean. Photo taken under permit n° 351/12 W-2.© Franco Banfi / BiosphotoJPG - RMNon exclusive sale, exclusive sale possible in France

2096385

It looks like a plastic bag floating in the ocean, a transparent

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Common jellyfish (Aurelia aurita), Bassin de Thau, Balaruc, Herault, FranceCommon jellyfish (Aurelia aurita), Bassin de Thau, Balaruc, Herault, FranceCommon jellyfish (Aurelia aurita), Bassin de Thau, Balaruc, Herault, France© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

2096136

Common jellyfish (Aurelia aurita), Bassin de Thau, Balaruc,

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