+33 490 162 042 Call us
Facebook About us Français

Search result Transparent

  • Page
  • / 27

2615 pictures found

Unidentified larval Moray Eel with a with an isopod(Cymothoid sp.) attached. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 400 plus feet below. Anilao. Philippines. Pacific OceanUnidentified larval Moray Eel with a with an isopod(Cymothoid sp.) attached. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 400 plus feet below. Anilao. Philippines. Pacific OceanUnidentified larval Moray Eel with a with an isopod(Cymothoid sp.) attached. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 400 plus feet below. Anilao. Philippines. Pacific Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2445459

Unidentified larval Moray Eel with a with an isopod(Cymothoid

RMRight Managed

JPG

LightboxDownload low resolution image

Green Tortoise Beetle (Cassida sp). Green Tortoise Beetle is also called (Cassida circumdata). This beetle comes from the Chrysomelidae family and the genus Cassida. The beetle is green, black and has a transparent cuticle. The size is very small about 4 - 5 mm. SingaporeGreen Tortoise Beetle (Cassida sp). Green Tortoise Beetle is also called (Cassida circumdata). This beetle comes from the Chrysomelidae family and the genus Cassida. The beetle is green, black and has a transparent cuticle. The size is very small about 4 - 5 mm. SingaporeGreen Tortoise Beetle (Cassida sp). Green Tortoise Beetle is also called (Cassida circumdata). This beetle comes from the Chrysomelidae family and the genus Cassida. The beetle is green, black and has a transparent cuticle. The size is very small about 4 - 5 mm. Singapore© Melvyn Yeo / BiosphotoJPG - RMNon exclusive sale

2443191

Green Tortoise Beetle (Cassida sp). Green Tortoise Beetle is also

RMRight Managed

JPG

LightboxDownload low resolution image

Moon Jellyfish (Aurelia aurita) on black background, MayotteMoon Jellyfish (Aurelia aurita) on black background, MayotteMoon Jellyfish (Aurelia aurita) on black background, Mayotte© Gabriel Barathieu / BiosphotoJPG - RM

2433284

Moon Jellyfish (Aurelia aurita) on black background, Mayotte

RMRight Managed

JPG

LightboxDownload low resolution image

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

2418111

Adult cicada, Peruvian Amazon

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Non exclusive sale

2407974

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

RMRight Managed

JPG

LightboxDownload low resolution image

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
Non exclusive sale

2407952

Northern birch mouse (Sicista betulina) sitting on a dry branch.

RMRight Managed

JPG

LightboxDownload low resolution image

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

2122185

Iceberg on the glacial lake of Jökulsárlón, Iceland

RMRight Managed

JPG

LightboxDownload low resolution image

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

2096134

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085938

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085936

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085935

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085934

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085933

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085932

Fleischmann's Glass Frogs during amplexus in Guatemala

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085925

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085924

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085923

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085922

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2085921

Wandering spider devouring a Fleischmann's Glass Frog in Guatemala

RMRight Managed

JPG

LightboxSeriesDownload low resolution image

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

2085920

Wandering spider devouring a Fleischmann's Glass Frog in Guatemala

RMRight Managed

JPG

LightboxSeriesDownload low resolution image

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

2085919

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

RMRight Managed

JPG

LightboxSeriesDownload low resolution image

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

2085918

Wandering spider devouring a Fleischmann's Glass Frog and woman

RMRight Managed

JPG

LightboxSeriesDownload low resolution image

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

2085917

Wandering spider devouring a Fleischmann's Glass Frog in Guatemala

RMRight Managed

JPG

LightboxSeriesDownload low resolution image

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

2085916

Wandering spider devouring a Fleischmann's Glass Frog in Guatemala

RMRight Managed

JPG

LightboxSeriesDownload low resolution image

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

2081609

School of Common Jellyfish (Aurelia aurita) on the Yıldızkoy

RMRight Managed

JPG

LightboxDownload low resolution image

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

2081370

Colorful lake, Jiuzhaigou valley, Sichuan, China

RMRight Managed

JPG

LightboxDownload low resolution image

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

2032471

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

RMRight Managed

JPG

LightboxDownload low resolution image

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
Sale prohibited by Agents

1997511

Glass frog sits atop a large leaf - Costa Rica

RMRight Managed

JPG

LightboxDownload low resolution image

Jellyfish - Poor knights Island New ZealandJellyfish - Poor knights Island New ZealandJellyfish - Poor knights Island New Zealand© Tobias Bernhard Raff / BiosphotoJPG - RMNon exclusive sale
Sale prohibited by some Agents

1988280

Jellyfish - Poor knights Island New Zealand

RMRight Managed

JPG

LightboxDownload low resolution image

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

1274898

Blue-tailed Demoiselle mating a fence France

RMRight Managed

JPG

LightboxDownload low resolution image

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

923830

Broadclub Cuttlefish egg with foetus

RMRight Managed

JPG

LightboxDownload low resolution image

Mountain Apollo in flight Plateau of Vercors FranceMountain Apollo in flight Plateau of Vercors FranceMountain Apollo in flight Plateau of Vercors France© Ghislain Simard / BiosphotoJPG - RM

920568

Mountain Apollo in flight Plateau of Vercors France

RMRight Managed

JPG

LightboxDownload low resolution image

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

919403

Vagrant Darter Dragonfly at dusk in the tall grass Ardèche

RMRight Managed

JPG

LightboxDownload low resolution image

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

643990

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

103926

Mauve stinger jellyfish Mediterranean Sea

RMRight Managed

JPG

LightboxDownload low resolution image

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
Sale prohibited by Agents

2412305

Emerald glass frog (Centrolenella prosoblepon) on a Heliconia

RMRight Managed

JPG

LightboxDownload low resolution image

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
Sale prohibited by Agents

2395464

Clinging Jellyfish (Gonionemus vertens), Sogn og fjordane,

RMRight Managed

JPG

LightboxDownload low resolution image

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
Sale prohibited by Agents

2395449

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

RMRight Managed

JPG

LightboxDownload low resolution image

Nymphalidae - Madagascar ; Clearwing butterflies mating, MadagascarNymphalidae - MadagascarNymphalidae - Madagascar ; Clearwing butterflies mating, Madagascar© Frans Lanting / Mint Images / BiosphotoJPG - RMNon exclusive sale
Sale prohibited by Agents

1933252

Nymphalidae - Madagascar ; Clearwing butterflies mating,

RMRight Managed

JPG

LightboxDownload low resolution image

Blushing Phantom - Manu National Park ; Glass-wing butterfly, Cithaerias aurorina, Manu National Park, PeruBlushing Phantom - Manu National ParkBlushing Phantom - Manu National Park ; Glass-wing butterfly, Cithaerias aurorina, Manu National Park, Peru© Frans Lanting / Mint Images / BiosphotoJPG - RMNon exclusive sale
Sale prohibited by Agents

1933251

Blushing Phantom - Manu National Park ; Glass-wing butterfly,

RMRight Managed

JPG

LightboxDownload low resolution image

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
Sale prohibited by Agents

1167124

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

RMRight Managed

JPG

LightboxDownload low resolution image

Worm and eggs. an Alciopid Worm hugging a ball of eggs off Palm Beach, Florida during a blackwater dive. Atlantic OceanWorm and eggs. an Alciopid Worm hugging a ball of eggs off Palm Beach, Florida during a blackwater dive. Atlantic OceanWorm and eggs. an Alciopid Worm hugging a ball of eggs off Palm Beach, Florida during a blackwater dive. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2449369

Worm and eggs. an Alciopid Worm hugging a ball of eggs off Palm

RMRight Managed

JPG

LightboxDownload low resolution image

European grayling (Thymallus thymallus) in the water, Doubs, Franche Comté, FranceEuropean grayling (Thymallus thymallus) in the water, Doubs, Franche Comté, FranceEuropean grayling (Thymallus thymallus) in the water, Doubs, Franche Comté, France© Bruno Mathieu / BiosphotoJPG - RM

2449071

European grayling (Thymallus thymallus) in the water, Doubs,

RMRight Managed

JPG

LightboxDownload low resolution image

European grayling (Thymallus thymallus) in the water, Doubs, Franche Comté, FranceEuropean grayling (Thymallus thymallus) in the water, Doubs, Franche Comté, FranceEuropean grayling (Thymallus thymallus) in the water, Doubs, Franche Comté, France© Bruno Mathieu / BiosphotoJPG - RM

2449070

European grayling (Thymallus thymallus) in the water, Doubs,

RMRight Managed

JPG

LightboxDownload low resolution image

Old pine tree and night sky in summer, the Milky Way and Jupiter are clearly visible, Hautes Alpes, FranceOld pine tree and night sky in summer, the Milky Way and Jupiter are clearly visible, Hautes Alpes, FranceOld pine tree and night sky in summer, the Milky Way and Jupiter are clearly visible, Hautes Alpes, France© Jean-Philippe Delobelle / BiosphotoJPG - RM

2446343

Old pine tree and night sky in summer, the Milky Way and Jupiter

RMRight Managed

JPG

LightboxDownload low resolution image

Ipnops. the elusive Grideye fish, Ipnops species, found during a blackwater dive. Photographed at 50 feet while drifting in around 600 feet of water. Palm Beach, FLorida, U.S.A. Atlantic OceanIpnops. the elusive Grideye fish, Ipnops species, found during a blackwater dive. Photographed at 50 feet while drifting in around 600 feet of water. Palm Beach, FLorida, U.S.A. Atlantic OceanIpnops. the elusive Grideye fish, Ipnops species, found during a blackwater dive. Photographed at 50 feet while drifting in around 600 feet of water. Palm Beach, FLorida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2444920

Ipnops. the elusive Grideye fish, Ipnops species, found during a

RMRight Managed

JPG

LightboxDownload low resolution image

Camouflaged shrimp on the reef, Misool, Raja Ampat, IndonesiaCamouflaged shrimp on the reef, Misool, Raja Ampat, IndonesiaCamouflaged shrimp on the reef, Misool, Raja Ampat, Indonesia© Gabriel Barathieu / BiosphotoJPG - RM

2443339

Camouflaged shrimp on the reef, Misool, Raja Ampat, Indonesia

RMRight Managed

JPG

LightboxDownload low resolution image

Mating Green Tortoise Beetle (Cassida sp). Green Tortoise Beetle is also called (Cassida circumdata). This beetle comes from the Chrysomelidae family and the genus Cassida. The beetle is green, black and has a transparent cuticle. The size is very small about 4 - 5 mm. SingaporeMating Green Tortoise Beetle (Cassida sp). Green Tortoise Beetle is also called (Cassida circumdata). This beetle comes from the Chrysomelidae family and the genus Cassida. The beetle is green, black and has a transparent cuticle. The size is very small about 4 - 5 mm. SingaporeMating Green Tortoise Beetle (Cassida sp). Green Tortoise Beetle is also called (Cassida circumdata). This beetle comes from the Chrysomelidae family and the genus Cassida. The beetle is green, black and has a transparent cuticle. The size is very small about 4 - 5 mm. Singapore© Melvyn Yeo / BiosphotoJPG - RMNon exclusive sale

2443194

Mating Green Tortoise Beetle (Cassida sp). Green Tortoise Beetle

RMRight Managed

JPG

LightboxDownload low resolution image

Great River, Salmon River, Chaleur Bay, Gaspesie, Quebec, CanadaGreat River, Salmon River, Chaleur Bay, Gaspesie, Quebec, CanadaGreat River, Salmon River, Chaleur Bay, Gaspesie, Quebec, Canada© Jean-Paul Chatagnon / BiosphotoJPG - RM

2439341

Great River, Salmon River, Chaleur Bay, Gaspesie, Quebec, Canada

RMRight Managed

JPG

LightboxDownload low resolution image

unidentified larval Moray Eel, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Oceanunidentified larval Moray Eel, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Oceanunidentified larval Moray Eel, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2437461

unidentified larval Moray Eel, photographed during a Blackwater

RMRight Managed

JPG

LightboxDownload low resolution image

the elusive Grideye fish, Ipnops species, found during a blackwater dive. Photographed at 50 feet while drifting in around 600 feet of water. Palm Beach, FLorida, U.S.A. Atlantic Oceanthe elusive Grideye fish, Ipnops species, found during a blackwater dive. Photographed at 50 feet while drifting in around 600 feet of water. Palm Beach, FLorida, U.S.A. Atlantic Oceanthe elusive Grideye fish, Ipnops species, found during a blackwater dive. Photographed at 50 feet while drifting in around 600 feet of water. Palm Beach, FLorida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436910

the elusive Grideye fish, Ipnops species, found during a

RMRight Managed

JPG

LightboxDownload low resolution image

A larval Pomfret, Brama species, stays close to a Jellyfish for protection. Blackwater dive off Palm Beach, Florida near the surface in 600+ foot depths. Atlantic Ocean.A larval Pomfret, Brama species, stays close to a Jellyfish for protection. Blackwater dive off Palm Beach, Florida near the surface in 600+ foot depths. Atlantic Ocean.A larval Pomfret, Brama species, stays close to a Jellyfish for protection. Blackwater dive off Palm Beach, Florida near the surface in 600+ foot depths. Atlantic Ocean.© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436905

A larval Pomfret, Brama species, stays close to a Jellyfish for

RMRight Managed

JPG

LightboxDownload low resolution image

An extremely rare appearance by a Brachioteuthis species of squid during a Blackwater dive off Palm Beach, Florida. Photographed near the surface in 600+ foot depths. Atlantic Ocean.An extremely rare appearance by a Brachioteuthis species of squid during a Blackwater dive off Palm Beach, Florida. Photographed near the surface in 600+ foot depths. Atlantic Ocean.An extremely rare appearance by a Brachioteuthis species of squid during a Blackwater dive off Palm Beach, Florida. Photographed near the surface in 600+ foot depths. Atlantic Ocean.© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436904

An extremely rare appearance by a Brachioteuthis species of squid

RMRight Managed

JPG

LightboxDownload low resolution image

A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436903

A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot

RMRight Managed

JPG

LightboxDownload low resolution image

A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436902

A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot

RMRight Managed

JPG

LightboxDownload low resolution image

A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot depths off Palm Beach, Florida during a blackwater dive. Atlantic Ocean.© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436900

A Glass Squid, Cranchiidae, photographed at 90 feet in 600 foot

RMRight Managed

JPG

LightboxDownload low resolution image

A larval Pomfret, Brama species, stays close to a Jellyfish for protection. Blackwater dive off Palm Beach, Florida near the surface in 600+ foot depths. Atlantic Ocean.A larval Pomfret, Brama species, stays close to a Jellyfish for protection. Blackwater dive off Palm Beach, Florida near the surface in 600+ foot depths. Atlantic Ocean.A larval Pomfret, Brama species, stays close to a Jellyfish for protection. Blackwater dive off Palm Beach, Florida near the surface in 600+ foot depths. Atlantic Ocean.© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436899

A larval Pomfret, Brama species, stays close to a Jellyfish for

RMRight Managed

JPG

LightboxDownload low resolution image

Unidentified Amphipod riding on a Jellyfish. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified Amphipod riding on a Jellyfish. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified Amphipod riding on a Jellyfish. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436626

Unidentified Amphipod riding on a Jellyfish. Photographed during

RMRight Managed

JPG

LightboxDownload low resolution image

Unidentified deep water Cusk Eel with a parasite attached. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified deep water Cusk Eel with a parasite attached. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified deep water Cusk Eel with a parasite attached. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436622

Unidentified deep water Cusk Eel with a parasite attached.

RMRight Managed

JPG

LightboxDownload low resolution image

Unidentified Amphipod riding on a Jellyfish. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified Amphipod riding on a Jellyfish. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified Amphipod riding on a Jellyfish. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436621

Unidentified Amphipod riding on a Jellyfish. Photographed during

RMRight Managed

JPG

LightboxDownload low resolution image

Larval Sash flounder, Cyclospetta ventralis, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanLarval Sash flounder, Cyclospetta ventralis, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanLarval Sash flounder, Cyclospetta ventralis, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 600 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436619

Larval Sash flounder, Cyclospetta ventralis, photographed during

RMRight Managed

JPG

LightboxDownload low resolution image

unidentified larval Moray Eel, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Oceanunidentified larval Moray Eel, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Oceanunidentified larval Moray Eel, photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436613

unidentified larval Moray Eel, photographed during a Blackwater

RMRight Managed

JPG

LightboxDownload low resolution image

unidentified shrimp riding in a Jellyfish during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600+ feet below. Palm Beach, Florida, U.S.A. Atlantic Oceanunidentified shrimp riding in a Jellyfish during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600+ feet below. Palm Beach, Florida, U.S.A. Atlantic Oceanunidentified shrimp riding in a Jellyfish during a Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600+ feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2436387

unidentified shrimp riding in a Jellyfish during a Blackwater

RMRight Managed

JPG

LightboxDownload low resolution image

Freshly hatched baby land snails (Singapore)Freshly hatched baby land snails (Singapore)Freshly hatched baby land snails (Singapore)© Melvyn Yeo / BiosphotoJPG - RMNon exclusive sale

2435980

Freshly hatched baby land snails (Singapore)

RMRight Managed

JPG

LightboxDownload low resolution image

Unidentified Amphipod riding on a Jellyfish. Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600+ feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified Amphipod riding on a Jellyfish. Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600+ feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified Amphipod riding on a Jellyfish. Blackwater drift dive in open ocean at 20-40 feet with the bottom at 600+ feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2435811

Unidentified Amphipod riding on a Jellyfish. Blackwater drift

RMRight Managed

JPG

LightboxDownload low resolution image

Unidentified Amphipod riding on a Jelly. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified Amphipod riding on a Jelly. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic OceanUnidentified Amphipod riding on a Jelly. Photographed during a Blackwater drift dive in open ocean at 20-40 feet with bottom at 500 plus feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2435803

Unidentified Amphipod riding on a Jelly. Photographed during a

RMRight Managed

JPG

LightboxDownload low resolution image

An unidentified Shrimp rides on a Jellyfish. Photographed on a black water drift dive in 30 feet of water with the bottom more than 500 feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean.An unidentified Shrimp rides on a Jellyfish. Photographed on a black water drift dive in 30 feet of water with the bottom more than 500 feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean.An unidentified Shrimp rides on a Jellyfish. Photographed on a black water drift dive in 30 feet of water with the bottom more than 500 feet below. Palm Beach, Florida, U.S.A. Atlantic Ocean.© Steven Kovacs / BiosphotoJPG - RMNon exclusive sale

2435799

An unidentified Shrimp rides on a Jellyfish. Photographed on a

RMRight Managed

JPG

LightboxDownload low resolution image

Mountain crystal tetra (Protocheirodon pi)Mountain crystal tetra (Protocheirodon pi)Mountain crystal tetra (Protocheirodon pi)© Aqua Press / BiosphotoJPG - RMNon exclusive sale

2432941

Mountain crystal tetra (Protocheirodon pi)

RMRight Managed

JPG

LightboxDownload low resolution image

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

2431686

Filament glassfish (Gymnochanda filamentosa)

RMRight Managed

JPG

LightboxDownload low resolution image

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

2426088

Black-veined White (Aporia crataegi) imago resting

RMRight Managed

JPG

LightboxDownload low resolution image

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

2424681

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2424359

Colored Glass fish (Parambassis ranga)

RMRight Managed

JPG

LightboxDownload low resolution image

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

2424074

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

2421837

Jersey Tiger (Euplagia quadripunctaria) resting on a glazing,

RMRight Managed

JPG

LightboxDownload low resolution image

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

2415760

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

RMRight Managed

JPG

LightboxDownload low resolution image

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
Non exclusive sale

2407976

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

RMRight Managed

JPG

LightboxDownload low resolution image

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
Non exclusive sale

2407951

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

RMRight Managed

JPG

LightboxDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405140

Zebrafish, Danio rerio, swimming in aquarium. Since the 1930s,

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405139

Zebrafish, Danio rerio. Veil fin variety above and regular

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405138

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405137

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405135

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405134

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405130

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405129

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405128

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405127

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405126

Microinjection of Zebrafish (Danio rerio) embryos to analyse gene

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405125

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

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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
Sale prohibited by some Agents
Sale prohibited for poster and Fine art print worlwide

2405124

Paedocypris progenetica. Photographed in aquarium with a

RMRight Managed

JPG

LightboxWarningDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

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)

RMRight Managed

JPG

LightboxDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

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

RMRight Managed

JPG

LightboxDownload low resolution image

Next page
1 / 27

Your request is processing. Please wait...

Galleries General conditions Legal notices Photographers area





Your request has been registered.

To use this feature you must first register or login.

Log in

To organize photos in lightboxes you must first register or login. Registration is FREE! Lightboxes allow you to categorize your photos, to keep them when you sign in and send them by email.

Log in

A Biosphoto authorization has to be granted prior using this feature. We'll get in touch shortly, please check that your contact info is up to date. Feel free to contact us in case of no answer during office hours (Paris time).

Delete permanently this lightbox?

Delete permanently all items?



The lightbox has been duplicated

The lightbox has been copied in your personal account

Your request has been registered. You will receive an e-mail shortly in order to download your images.

You can insert a comment that will appear within your downloads reports.





Your lightbox has been sent.

In case of modification, changes will be seen by your recipient.

If deleted, your lightbox won't be avalaible for your recipient anymore.