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Mushroom coral detail - New CaledoniaMushroom coral detail - New CaledoniaMushroom coral detail - New Caledonia© Tobias Bernhard Raff / BiosphotoJPG - RMNon exclusive sale
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1988783

1988783

Mushroom coral detail - New Caledonia

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Fluorescent  Mushroom Coral Komodo IndonesiaFluorescent Mushroom Coral Komodo IndonesiaFluorescent Mushroom Coral Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64917

64917

Fluorescent Mushroom Coral Komodo Indonesia

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Tara Pacific expedition - november 2017 Nubara Island, Solomon Sea, blue light 450 nm Wideangle view of partial fuorescence in branching corals, D: 15 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea, blue light 450 nm Wideangle view of partial fuorescence in branching corals, D: 15 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea, blue light 450 nm Wideangle view of partial fuorescence in branching corals, D: 15 m© Christoph Gerigk / BiosphotoJPG - RM
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Tara Pacific expedition - november 2017 Nubara Island, Solomon

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Tara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Acropora table corals; center: a gamete? Macro photography, D: 9 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Acropora table corals; center: a gamete? Macro photography, D: 9 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Acropora table corals; center: a gamete? Macro photography, D: 9 m© Christoph Gerigk / BiosphotoJPG - RM
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Tara Pacific expedition - november 2017 Nubara Island, Solomon

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Tara Pacific expedition - november 2017 Nubara Island, Solomon Sea Fuorescence in colony of Pearl bubble coral (Physogyra lichtensteini) Macro photography, D: 8 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea Fuorescence in colony of Pearl bubble coral (Physogyra lichtensteini) Macro photography, D: 8 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea Fuorescence in colony of Pearl bubble coral (Physogyra lichtensteini) Macro photography, D: 8 m© Christoph Gerigk / BiosphotoJPG - RM
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Tara Pacific expedition - november 2017 Nubara Island, Solomon

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Tara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Favia corals, Macro UV photography, D: 7 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Favia corals, Macro UV photography, D: 7 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Favia corals, Macro UV photography, D: 7 m© Christoph Gerigk / BiosphotoJPG - RM
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2417197

Tara Pacific expedition - november 2017 Nubara Island, Solomon

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Tara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Favia corals Macro UV photography, D: 7 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Favia corals Macro UV photography, D: 7 mTara Pacific expedition - november 2017 Nubara Island, Solomon Sea, Fuorescence in colony of Favia corals Macro UV photography, D: 7 m© Christoph Gerigk / BiosphotoJPG - RM
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2417196

Tara Pacific expedition - november 2017 Nubara Island, Solomon

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Tara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guine, Coral fluorescence in Favia colony, D: 9 mTara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guine, Coral fluorescence in Favia colony, D: 9 mTara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guine, Coral fluorescence in Favia colony, D: 9 m© Christoph Gerigk / BiosphotoJPG - RM
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Tara Pacific expedition - november 2017 Outer reef of Egum Atoll,

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Tara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guinea, Coral fluorescence in Favia colony, D: 9 mTara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guinea, Coral fluorescence in Favia colony, D: 9 mTara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guinea, Coral fluorescence in Favia colony, D: 9 m© Christoph Gerigk / BiosphotoJPG - RM
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2417194

Tara Pacific expedition - november 2017 Outer reef of Egum Atoll,

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Tara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guinea, Coral fluorescence in table coral (orange), D: 10 mTara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guinea, Coral fluorescence in table coral (orange), D: 10 mTara Pacific expedition - november 2017 Outer reef of Egum Atoll, Papua New Guinea, Coral fluorescence in table coral (orange), D: 10 m© Christoph Gerigk / BiosphotoJPG - RM
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2417193

Tara Pacific expedition - november 2017 Outer reef of Egum Atoll,

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Tara Pacific expedition - november 2017 Outer reef of Egum Atoll, papua New Guinea, Acropora gemmifera under UV lighting, emitting fluorescence. Coral fluorescence, produced by special fluorescent proteins, is a relatively poorly understood phenomenon, but researchers think it could help protect the coral from damaging sunlight, or possibly other forms of stress. D: 8 mTara Pacific expedition - november 2017 Outer reef of Egum Atoll, papua New Guinea, Acropora gemmifera under UV lighting, emitting fluorescence. Coral fluorescence, produced by special fluorescent proteins, is a relatively poorly understood phenomenon, but researchers think it could help protect the coral from damaging sunlight, or possibly other forms of stress. D: 8 mTara Pacific expedition - november 2017 Outer reef of Egum Atoll, papua New Guinea, Acropora gemmifera under UV lighting, emitting fluorescence. Coral fluorescence, produced by special fluorescent proteins, is a relatively poorly understood phenomenon, but researchers think it could help protect the coral from damaging sunlight, or possibly other forms of stress. D: 8 m© Christoph Gerigk / BiosphotoJPG - RM
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Tara Pacific expedition - november 2017 Outer reef of Egum Atoll,

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Fluorescent coral. Acan Brain Coral, Acanthastrea sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Acan Brain Coral, Acanthastrea sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Acan Brain Coral, Acanthastrea sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408023

2408023

Fluorescent coral. Acan Brain Coral, Acanthastrea sp.. Above

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Fluorescent coral. Mushroom coral, Rhodactis sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many anemones and corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Mushroom coral, Rhodactis sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many anemones and corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Mushroom coral, Rhodactis sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many anemones and corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408021

2408021

Fluorescent coral. Mushroom coral, Rhodactis sp.. Above

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Fluorescent coral. Candy Cane Coral, Caulastrea furcata. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Candy Cane Coral, Caulastrea furcata. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Candy Cane Coral, Caulastrea furcata. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408020

2408020

Fluorescent coral. Candy Cane Coral, Caulastrea furcata. Above

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Fluorescent Zoanthus sp.. Left photographed with daylight and right showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals and anemones are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent Zoanthus sp.. Left photographed with daylight and right showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals and anemones are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent Zoanthus sp.. Left photographed with daylight and right showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals and anemones are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408019

2408019

Fluorescent Zoanthus sp.. Left photographed with daylight and

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Fluorescent soft coral. Button Polyp, Protopalythoa sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many anemones and corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent soft coral. Button Polyp, Protopalythoa sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many anemones and corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent soft coral. Button Polyp, Protopalythoa sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many anemones and corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408018

2408018

Fluorescent soft coral. Button Polyp, Protopalythoa sp.. Above

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Fluorescent coral. Brain coral, Trachyphyllia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Brain coral, Trachyphyllia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Brain coral, Trachyphyllia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408017

2408017

Fluorescent coral. Brain coral, Trachyphyllia sp.. Above

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Fluorescent coral. Pulse coral, Xenia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Pulse coral, Xenia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Pulse coral, Xenia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408016

2408016

Fluorescent coral. Pulse coral, Xenia sp.. Above photographed

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Fluorescent coral. Large-polyped Stony coral, Euphyllia paraglabrescens. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Large-polyped Stony coral, Euphyllia paraglabrescens. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Large-polyped Stony coral, Euphyllia paraglabrescens. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408014

2408014

Fluorescent coral. Large-polyped Stony coral, Euphyllia

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Fluorescent coral. Bubble coral, Plerogyra sinuosa. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Bubble coral, Plerogyra sinuosa. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Bubble coral, Plerogyra sinuosa. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408013

2408013

Fluorescent coral. Bubble coral, Plerogyra sinuosa. Above

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Fluorescent coral. Brain coral, Trachyphyllia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Brain coral, Trachyphyllia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Brain coral, Trachyphyllia sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408012

2408012

Fluorescent coral. Brain coral, Trachyphyllia sp.. Above

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Fluorescent coral. Candy Cane Coral, Caulastrea furcata. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Candy Cane Coral, Caulastrea furcata. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Candy Cane Coral, Caulastrea furcata. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408011

2408011

Fluorescent coral. Candy Cane Coral, Caulastrea furcata. Above

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Fluorescent coral. Stony Coral, Euphyllia paradivisa. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Stony Coral, Euphyllia paradivisa. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Stony Coral, Euphyllia paradivisa. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408009

2408009

Fluorescent coral. Stony Coral, Euphyllia paradivisa. Above

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Fluorescent coral. Bushy Gorgonian, Rumphella sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Bushy Gorgonian, Rumphella sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. PortugalFluorescent coral. Bushy Gorgonian, Rumphella sp.. Above photographed with daylight and bellow showing fluorescent colours photographed under special blue or ultraviolet light and filter. Many corals are intensely fluorescent under certain light wavelengths. Shallow water reef-building fluorescent corals seem to be more resistant to coral bleaching than other corals, and the higher the density of fluorescent pigments, the more likely to resist. This enables them to better protect the zooxanthellae that help sustain them. The pigments that fluoresce are photoproteins, and a current theory is that this acts as a type of sunscreen that prevents too much UV light damaging the zooxanthallae. These corals have the photoproteins above the zooxanthallae to protect them. Corals that grow in deeper water, where light is scarce, are using fluorescence to absorb UV light and reflect it back to the zooxanthallae to give them more light to turn into nutrients. These corals have the photoproteins below the zooxanthallae to reflect it back. Photographed in aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2408007

2408007

Fluorescent coral. Bushy Gorgonian, Rumphella sp.. Above

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Fluorescent Hard Coral, Ambon, Moluccas, IndonesiaFluorescent Hard Coral, Ambon, Moluccas, IndonesiaFluorescent Hard Coral, Ambon, Moluccas, Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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2066564

2066564

Fluorescent Hard Coral, Ambon, Moluccas, Indonesia

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Fluorescent Coral on reef - Solomon IslandsFluorescent Coral on reef - Solomon IslandsFluorescent Coral on reef - Solomon Islands© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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2049479

2049479

Fluorescent Coral on reef - Solomon Islands

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Flourescent coral - New CaledoniaFlourescent coral - New CaledoniaFlourescent coral - New Caledonia© Tobias Bernhard Raff / BiosphotoJPG - RMNon exclusive sale
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1953106

1953106

Flourescent coral - New Caledonia

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Fluorescent Hard Coral Bali IndonesiaFluorescent Hard Coral Bali IndonesiaFluorescent Hard Coral Bali Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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1210283

1210283

Fluorescent Hard Coral Bali Indonesia

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Fluorescent Hard Coral Bali IndonesiaFluorescent Hard Coral Bali IndonesiaFluorescent Hard Coral Bali Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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1210281

1210281

Fluorescent Hard Coral Bali Indonesia

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Detail of green fluorescent Coral New CaledoniaDetail of green fluorescent Coral New CaledoniaDetail of green fluorescent Coral New Caledonia© Jean Cassou / BiosphotoJPG - RM
441682

441682

Detail of green fluorescent Coral New Caledonia

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Coral fluorescent New CaledoniaCoral fluorescent New CaledoniaCoral fluorescent New Caledonia© Jean Cassou / BiosphotoJPG - RM
378878

378878

Coral fluorescent New Caledonia

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Coral fluorescent New CaledoniaCoral fluorescent New CaledoniaCoral fluorescent New Caledonia© Jean Cassou / BiosphotoJPG - RM
378861

378861

Coral fluorescent New Caledonia

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Coral fluorescent New CaledoniaCoral fluorescent New CaledoniaCoral fluorescent New Caledonia© Jean Cassou / BiosphotoJPG - RM
378844

378844

Coral fluorescent New Caledonia

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Coral fluorescent New CaledoniaCoral fluorescent New CaledoniaCoral fluorescent New Caledonia© Jean Cassou / BiosphotoJPG - RM
378828

378828

Coral fluorescent New Caledonia

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Coral fluorescent New CaledoniaCoral fluorescent New CaledoniaCoral fluorescent New Caledonia© Jean Cassou / BiosphotoJPG - RM
378814

378814

Coral fluorescent New Caledonia

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Coral fluorescent New CaledoniaCoral fluorescent New CaledoniaCoral fluorescent New Caledonia© Jean Cassou / BiosphotoJPG - RM
378800

378800

Coral fluorescent New Caledonia

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Coral fluorescent Lifou Loyalty Islands New CaledoniaCoral fluorescent Lifou Loyalty Islands New CaledoniaCoral fluorescent Lifou Loyalty Islands New Caledonia© Jean Cassou / BiosphotoJPG - RM
378751

378751

Coral fluorescent Lifou Loyalty Islands New Caledonia

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Coral fluorescent Lifou Loyalty Islands New CaledoniaCoral fluorescent Lifou Loyalty Islands New CaledoniaCoral fluorescent Lifou Loyalty Islands New Caledonia© Jean Cassou / BiosphotoJPG - RM
378698

378698

Coral fluorescent Lifou Loyalty Islands New Caledonia

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Bleached Mushroom coral Indian Ocean IndonesiaBleached Mushroom coral Indian Ocean IndonesiaBleached Mushroom coral Indian Ocean Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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166614

166614

Bleached Mushroom coral Indian Ocean Indonesia

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Fluoresce Mushroom coral Indian Ocean IndonesiaFluoresce Mushroom coral Indian Ocean IndonesiaFluoresce Mushroom coral Indian Ocean Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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166613

166613

Fluoresce Mushroom coral Indian Ocean Indonesia

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Fluoresce Mushroom coral Indian Ocean IndonesiaFluoresce Mushroom coral Indian Ocean IndonesiaFluoresce Mushroom coral Indian Ocean Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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166612

166612

Fluoresce Mushroom coral Indian Ocean Indonesia

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Fluorescent Hard Coral El Quseir Red Sea EgyptFluorescent Hard Coral El Quseir Red Sea EgyptFluorescent Hard Coral El Quseir Red Sea Egypt© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64927

64927

Fluorescent Hard Coral El Quseir Red Sea Egypt

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Long mushroom Komodo IndonesiaLong mushroom Komodo IndonesiaLong mushroom Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64926

64926

Long mushroom Komodo Indonesia

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Fluorescent hard coral Komodo IndonesiaFluorescent hard coral Komodo IndonesiaFluorescent hard coral Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64925

64925

Fluorescent hard coral Komodo Indonesia

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Fluorescent hard coral Komodo IndonesiaFluorescent hard coral Komodo IndonesiaFluorescent hard coral Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64924

64924

Fluorescent hard coral Komodo Indonesia

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Fluorescent hard coral Komodo IndonesiaFluorescent hard coral Komodo IndonesiaFluorescent hard coral Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64923

64923

Fluorescent hard coral Komodo Indonesia

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Fluorescent coral Komodo IndonesiaFluorescent coral Komodo IndonesiaFluorescent coral Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64922

64922

Fluorescent coral Komodo Indonesia

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Hard coral with white light Komodo IndonesiaHard coral with white light Komodo IndonesiaHard coral with white light Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64921

64921

Hard coral with white light Komodo Indonesia

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Hard coral with white light Komodo IndonesiaHard coral with white light Komodo IndonesiaHard coral with white light Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64920

64920

Hard coral with white light Komodo Indonesia

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Hard coral with white light Komodo IndonesiaHard coral with white light Komodo IndonesiaHard coral with white light Komodo Indonesia© Reinhard Dirscherl / BiosphotoJPG - RMNon exclusive sale
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64919

64919

Hard coral with white light Komodo Indonesia

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