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Titan triggerfish, Balistoides viridescens. Biting a plastic bottled lid. A lot of sea animals ingest plastic garbage because they think it's edible food. Huge amount of plastic garbage at the surface and in midwater. Thilafushi Island. Maldives Digital composite. Composite imageTitan triggerfish, Balistoides viridescens. Biting a plastic bottled lid. A lot of sea animals ingest plastic garbage because they think it's edible food. Huge amount of plastic garbage at the surface and in midwater. Thilafushi Island. Maldives Digital composite. Composite imageTitan triggerfish, Balistoides viridescens. Biting a plastic bottled lid. A lot of sea animals ingest plastic garbage because they think it's edible food. Huge amount of plastic garbage at the surface and in midwater. Thilafushi Island. Maldives Digital composite. Composite image© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Titan triggerfish, Balistoides viridescens. Biting a plastic

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Common cuttlefish (Sepia officinalis) eating a discarded condom floating in the sea, Miseno, Campania, Italy. Tyrrhenian SeaCommon cuttlefish (Sepia officinalis) eating a discarded condom floating in the sea, Miseno, Campania, Italy. Tyrrhenian SeaCommon cuttlefish (Sepia officinalis) eating a discarded condom floating in the sea, Miseno, Campania, Italy. Tyrrhenian Sea© Pasquale Vassallo / BiosphotoJPG - RMNon exclusive sale

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Common cuttlefish (Sepia officinalis) eating a discarded condom

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Photo denunciation, garbage in the sea. No matter the place if not the consequences. Curiously, some waste becomes a refuge for some species. Grey triggerfish (Balistes capriscus).Photo denunciation, garbage in the sea. No matter the place if not the consequences. Curiously, some waste becomes a refuge for some species. Grey triggerfish (Balistes capriscus).Photo denunciation, garbage in the sea. No matter the place if not the consequences. Curiously, some waste becomes a refuge for some species. Grey triggerfish (Balistes capriscus).© Sergio Hanquet / BiosphotoJPG - RM

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Photo denunciation, garbage in the sea. No matter the place if

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Eagle Owl (Bubo bubo) facing the city, Vosges, FranceEagle Owl (Bubo bubo) facing the city, Vosges, FranceEagle Owl (Bubo bubo) facing the city, Vosges, France© Olivier Gutfreund / BiosphotoJPG - RM

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Eagle Owl (Bubo bubo) facing the city, Vosges, France

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Rat (Rattus norvegicus) in a city gutter at night, FranceRat (Rattus norvegicus) in a city gutter at night, FranceRat (Rattus norvegicus) in a city gutter at night, France© Frank Deschandol & Philippe Sabine / BiosphotoJPG - RM

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Rat (Rattus norvegicus) in a city gutter at night, France

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Milky Way above the Mont Blanc - Alps France  ; since Desert Platé, above FlaineMilky Way above the Mont Blanc - Alps France Milky Way above the Mont Blanc - Alps France ; since Desert Platé, above Flaine© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Milky Way above the Mont Blanc - Alps France ; since Desert

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Milky Way and bioluminescent plankton - Isle of Hœdic France ; Bioluminescent plankton light up the shore where small waves come to die. In the sky, the Milky Way at the Three Belles Summer.Milky Way and bioluminescent plankton - Isle of Hœdic FranceMilky Way and bioluminescent plankton - Isle of Hœdic France ; Bioluminescent plankton light up the shore where small waves come to die. In the sky, the Milky Way at the Three Belles Summer.© Laurent Laveder / BiosphotoJPG - RMNon exclusive sale

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Milky Way and bioluminescent plankton - Isle of Hœdic France ;

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Bioluminescent plankton - Isle of Hœdic FranceBioluminescent plankton - Isle of Hœdic FranceBioluminescent plankton - Isle of Hœdic France© Laurent Laveder / BiosphotoJPG - RMNon exclusive sale

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Bioluminescent plankton - Isle of Hœdic France

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Milky Way and phosphorescent plankton - Hœdic France  ; Phosphorescent plankton light up the shore where small waves come to die. In the sky, the Milky Way Scorpio Swan.Milky Way and phosphorescent plankton - Hœdic France Milky Way and phosphorescent plankton - Hœdic France ; Phosphorescent plankton light up the shore where small waves come to die. In the sky, the Milky Way Scorpio Swan.© Laurent Laveder / BiosphotoJPG - RMNon exclusive sale

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Milky Way and phosphorescent plankton - Hœdic France ;

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High tide at Mont Saint-Michel at night - France High tide at Mont Saint-Michel at night - France High tide at Mont Saint-Michel at night - France © Vincent M. & E. Studler / BiosphotoJPG - RMSale prohibited by Agents

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High tide at Mont Saint-Michel at night - France

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High tide at Mont Saint-Michel at night - France High tide at Mont Saint-Michel at night - France High tide at Mont Saint-Michel at night - France © Vincent M. & E. Studler / BiosphotoJPG - RMSale prohibited by Agents

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High tide at Mont Saint-Michel at night - France

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High tide at Mont Saint-Michel at night - France High tide at Mont Saint-Michel at night - France High tide at Mont Saint-Michel at night - France © Vincent M. & E. Studler / BiosphotoJPG - RMSale prohibited by Agents

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High tide at Mont Saint-Michel at night - France

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Green sea turtle trying to eat a plastic bag. It looks like a jellyfish. Shot made between 3 and 4 metres deep.Green sea turtle trying to eat a plastic bag. It looks like a jellyfish. Shot made between 3 and 4 metres deep.Green sea turtle trying to eat a plastic bag. It looks like a jellyfish. Shot made between 3 and 4 metres deep.© Sergi Garcia Fernandez / BiosphotoJPG - RM

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Green sea turtle trying to eat a plastic bag. It looks like a

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Female green turtle swimming above a herbarium ComorosFemale green turtle swimming above a herbarium ComorosFemale green turtle swimming above a herbarium Comoros© Pierre Huguet-Dubief / BiosphotoJPG - RM

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Female green turtle swimming above a herbarium Comoros

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Plastic pollution, The erosion from the sea current is digging out some plastic bottles burried by the sand 20 years ago, Baie d'Authie, Pas-de-Calais, Hauts-de-France, FrancePlastic pollution, The erosion from the sea current is digging out some plastic bottles burried by the sand 20 years ago, Baie d'Authie, Pas-de-Calais, Hauts-de-France, FrancePlastic pollution, The erosion from the sea current is digging out some plastic bottles burried by the sand 20 years ago, Baie d'Authie, Pas-de-Calais, Hauts-de-France, France© Antoine Lorgnier / BiosphotoJPG - RM

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Plastic pollution, The erosion from the sea current is digging

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Plastic pollution, The erosion from the sea current is digging out some plastic bottles burried by the sand 20 years ago, Baie d'Authie, Pas-de-Calais, Hauts-de-France, FrancePlastic pollution, The erosion from the sea current is digging out some plastic bottles burried by the sand 20 years ago, Baie d'Authie, Pas-de-Calais, Hauts-de-France, FrancePlastic pollution, The erosion from the sea current is digging out some plastic bottles burried by the sand 20 years ago, Baie d'Authie, Pas-de-Calais, Hauts-de-France, France© Antoine Lorgnier / BiosphotoJPG - RM

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Plastic pollution, The erosion from the sea current is digging

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Recharge voiture électrique Renault ZoeRecharge voiture électrique Renault ZoeRecharge voiture électrique Renault Zoe© Alain Kubacsi / BiosphotoJPG - RMSale prohibited in Germany

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Recharge voiture électrique Renault Zoe

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Wild deposit of plastic waste and polluting products, cans of vil- ling oil in the undergrowth, FranceWild deposit of plastic waste and polluting products, cans of vil- ling oil in the undergrowth, FranceWild deposit of plastic waste and polluting products, cans of vil- ling oil in the undergrowth, France© Dominique Delfino / BiosphotoJPG - RM

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Wild deposit of plastic waste and polluting products, cans of

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Mid-air half-water view of a digger during work to restore ecological continuity on the Lergue River, Lodève, Hérault, Occitanie region, FranceMid-air half-water view of a digger during work to restore ecological continuity on the Lergue River, Lodève, Hérault, Occitanie region, FranceMid-air half-water view of a digger during work to restore ecological continuity on the Lergue River, Lodève, Hérault, Occitanie region, France© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

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Mid-air half-water view of a digger during work to restore

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Mid-air half-water view of a digger during work to restore ecological continuity on the Lergue River, Lodève, Hérault, Occitanie region, FranceMid-air half-water view of a digger during work to restore ecological continuity on the Lergue River, Lodève, Hérault, Occitanie region, FranceMid-air half-water view of a digger during work to restore ecological continuity on the Lergue River, Lodève, Hérault, Occitanie region, France© Mathieu Foulquié / BiosphotoJPG - RMSale prohibited by some Agents

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Mid-air half-water view of a digger during work to restore

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Discarded waste on a beach in Tel Aviv after a storm, IsraelDiscarded waste on a beach in Tel Aviv after a storm, IsraelDiscarded waste on a beach in Tel Aviv after a storm, Israel© Franck Gueffier / BiosphotoJPG - RM

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Discarded waste on a beach in Tel Aviv after a storm, Israel

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Submarine emissary. In spite of the visual impact that it entails and the fact that the negative effects on the environmental impact can always be reduced, in this image it is a controlled discharge of treated water. AtlanticSubmarine emissary. In spite of the visual impact that it entails and the fact that the negative effects on the environmental impact can always be reduced, in this image it is a controlled discharge of treated water. AtlanticSubmarine emissary. In spite of the visual impact that it entails and the fact that the negative effects on the environmental impact can always be reduced, in this image it is a controlled discharge of treated water. Atlantic© Sergio Hanquet / BiosphotoJPG - RM

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Submarine emissary. In spite of the visual impact that it entails

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Submarine emissary. In spite of the visual impact that it entails and the fact that the negative effects on the environmental impact can always be reduced, in this image it is a controlled discharge of treated water.Submarine emissary. In spite of the visual impact that it entails and the fact that the negative effects on the environmental impact can always be reduced, in this image it is a controlled discharge of treated water.Submarine emissary. In spite of the visual impact that it entails and the fact that the negative effects on the environmental impact can always be reduced, in this image it is a controlled discharge of treated water.© Sergio Hanquet / BiosphotoJPG - RM

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Submarine emissary. In spite of the visual impact that it entails

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Photo complaint, garbage in the sea. Abandoned fishing pots. It does not matter the place if not the consequences.Photo complaint, garbage in the sea. Abandoned fishing pots. It does not matter the place if not the consequences.Photo complaint, garbage in the sea. Abandoned fishing pots. It does not matter the place if not the consequences.© Sergio Hanquet / BiosphotoJPG - RM

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Photo complaint, garbage in the sea. Abandoned fishing pots. It

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Photo complaint, garbage in the sea. Abandoned fishing pots. It does not matter the place if not the consequences.Photo complaint, garbage in the sea. Abandoned fishing pots. It does not matter the place if not the consequences.Photo complaint, garbage in the sea. Abandoned fishing pots. It does not matter the place if not the consequences.© Sergio Hanquet / BiosphotoJPG - RM

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Photo complaint, garbage in the sea. Abandoned fishing pots. It

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.Loggerhead turtle (Caretta caretta). Exemplary entangled with a bag, many of them die because they can not feed or amputate a member. It is not a local problem, it is universal. Tenerife, Canary Islands.© Sergio Hanquet / BiosphotoJPG - RM

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Loggerhead turtle (Caretta caretta). Exemplary entangled with a

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Wrecks of abandoned vintage cars in a wood, Savoie, FranceWrecks of abandoned vintage cars in a wood, Savoie, FranceWrecks of abandoned vintage cars in a wood, Savoie, France© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Wrecks of abandoned vintage cars in a wood, Savoie, France

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Thread algae growing on Cryptocorynes in aquariumThread algae growing on Cryptocorynes in aquariumThread algae growing on Cryptocorynes in aquarium© Aqua Press / BiosphotoJPG - RMNon exclusive sale

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Thread algae growing on Cryptocorynes in aquarium

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Thread algae in aquariumThread algae in aquariumThread algae in aquarium© Aqua Press / BiosphotoJPG - RMNon exclusive sale

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Thread algae in aquarium

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Thread algae growing on aquarium plantThread algae growing on aquarium plantThread algae growing on aquarium plant© Aqua Press / BiosphotoJPG - RMNon exclusive sale

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Thread algae growing on aquarium plant

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A floating, abandoned net in the ocean, Dominica, Caribbean Sea, Atlantic Ocean.A floating, abandoned net in the ocean, Dominica, Caribbean Sea, Atlantic Ocean.A floating, abandoned net in the ocean, Dominica, Caribbean Sea, Atlantic Ocean.© Franco Banfi / BiosphotoJPG - RMNon exclusive sale, exclusive sale possible in France

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A floating, abandoned net in the ocean, Dominica, Caribbean Sea,

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Massif of Mont-Blanc, at sunset, seen from the station of Brasses, in Haute-Savoie, Alps, FranceMassif of Mont-Blanc, at sunset, seen from the station of Brasses, in Haute-Savoie, Alps, FranceMassif of Mont-Blanc, at sunset, seen from the station of Brasses, in Haute-Savoie, Alps, France© Christophe Suarez / BiosphotoJPG - RM

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Massif of Mont-Blanc, at sunset, seen from the station of

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Sea of clouds lit by the Arve valley, by night, and Milky Way, facing the Mole mountain, the Aravis massif, and the Brasses massif, Alps, FranceSea of clouds lit by the Arve valley, by night, and Milky Way, facing the Mole mountain, the Aravis massif, and the Brasses massif, Alps, FranceSea of clouds lit by the Arve valley, by night, and Milky Way, facing the Mole mountain, the Aravis massif, and the Brasses massif, Alps, France© Christophe Suarez / BiosphotoJPG - RM

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Sea of clouds lit by the Arve valley, by night, and Milky Way,

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Pollution lumineuse sur Sallanches et la vallée de l’Arve, Massif du Mont-Blanc éclairé par la lumière de la lune, Alpes, FrancePollution lumineuse sur Sallanches et la vallée de l’Arve, Massif du Mont-Blanc éclairé par la lumière de la lune, Alpes, FrancePollution lumineuse sur Sallanches et la vallée de l’Arve, Massif du Mont-Blanc éclairé par la lumière de la lune, Alpes, France© Christophe Suarez / BiosphotoJPG - RM

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Pollution lumineuse sur Sallanches et la vallée de l’Arve,

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Suez Canal seen from a container ship, Egypt.Suez Canal seen from a container ship, Egypt.Suez Canal seen from a container ship, Egypt.© Michel Gunther / BiosphotoJPG - RM

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Suez Canal seen from a container ship, Egypt.

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Air pollution smog above Passy and the Arve valley, February 24, 2019, Alps, Haute-Savoie, FranceAir pollution smog above Passy and the Arve valley, February 24, 2019, Alps, Haute-Savoie, FranceAir pollution smog above Passy and the Arve valley, February 24, 2019, Alps, Haute-Savoie, France© Christophe Suarez / BiosphotoJPG - RM

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Air pollution smog above Passy and the Arve valley, February 24,

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Air pollution smog above Sallanches and the Arve valley, February 24, 2019, Alps, Haute-Savoie, FranceAir pollution smog above Sallanches and the Arve valley, February 24, 2019, Alps, Haute-Savoie, FranceAir pollution smog above Sallanches and the Arve valley, February 24, 2019, Alps, Haute-Savoie, France© Christophe Suarez / BiosphotoJPG - RM

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Air pollution smog above Sallanches and the Arve valley, February

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Travel sign alerting for air pollution on highway, February 17, 2019, Sallanches, Haute-Savoie, FranceTravel sign alerting for air pollution on highway, February 17, 2019, Sallanches, Haute-Savoie, FranceTravel sign alerting for air pollution on highway, February 17, 2019, Sallanches, Haute-Savoie, France© Christophe Suarez / BiosphotoJPG - RM

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Travel sign alerting for air pollution on highway, February 17,

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Stratus illuminated by the Arve Valley, cloud sea and moon, at night, on the massif des Bornes, in the Prealps, Haute-Savoie, FranceStratus illuminated by the Arve Valley, cloud sea and moon, at night, on the massif des Bornes, in the Prealps, Haute-Savoie, FranceStratus illuminated by the Arve Valley, cloud sea and moon, at night, on the massif des Bornes, in the Prealps, Haute-Savoie, France© Christophe Suarez / BiosphotoJPG - RM

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Stratus illuminated by the Arve Valley, cloud sea and moon, at

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Ski resort Les Carroz, at dusk, and massif of Faucigny, Haute-Savoie, Alps, FranceSki resort Les Carroz, at dusk, and massif of Faucigny, Haute-Savoie, Alps, FranceSki resort Les Carroz, at dusk, and massif of Faucigny, Haute-Savoie, Alps, France© Christophe Suarez / BiosphotoJPG - RM

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Ski resort Les Carroz, at dusk, and massif of Faucigny,

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Stratus on the Geneva basin at dusk. Lights of Collonges-sous-Saleve seen from Mont Salève, Haute-Savoie, Alps, FranceStratus on the Geneva basin at dusk. Lights of Collonges-sous-Saleve seen from Mont Salève, Haute-Savoie, Alps, FranceStratus on the Geneva basin at dusk. Lights of Collonges-sous-Saleve seen from Mont Salève, Haute-Savoie, Alps, France© Christophe Suarez / BiosphotoJPG - RM

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Stratus on the Geneva basin at dusk. Lights of

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The Milky Way in the sky of Jura mountains. Mars is visible at the bottom left, The sky is illuminated by light pollution of nearby cities, despite the altitude.The Milky Way in the sky of Jura mountains. Mars is visible at the bottom left, The sky is illuminated by light pollution of nearby cities, despite the altitude.The Milky Way in the sky of Jura mountains. Mars is visible at the bottom left, The sky is illuminated by light pollution of nearby cities, despite the altitude.© Jean-Philippe Delobelle / BiosphotoJPG - RM

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The Milky Way in the sky of Jura mountains. Mars is visible at

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River polluted at low water. Seran river, in Bugey, Ain, France - Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.River polluted at low water. Seran river, in Bugey, Ain, France - Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.River polluted at low water. Seran river, in Bugey, Ain, France - Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.© Jean-Philippe Delobelle / BiosphotoJPG - RM

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River polluted at low water. Seran river, in Bugey, Ain, France -

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Bacteria and dead leaves on a polluted river. The Seran, in Bugey, Ain, France. Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.Bacteria and dead leaves on a polluted river. The Seran, in Bugey, Ain, France. Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.Bacteria and dead leaves on a polluted river. The Seran, in Bugey, Ain, France. Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.© Jean-Philippe Delobelle / BiosphotoJPG - RM

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Bacteria and dead leaves on a polluted river. The Seran, in

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River polluted at low water. Seran river, in Bugey, Ain, France - Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.River polluted at low water. Seran river, in Bugey, Ain, France - Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.River polluted at low water. Seran river, in Bugey, Ain, France - Very high summer season due to various water withdrawals and drought. The presence of nitrates and phosphates causes proliferation of algae and bacteria.© Jean-Philippe Delobelle / BiosphotoJPG - RM

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River polluted at low water. Seran river, in Bugey, Ain, France -

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Dense fog on Grenoble and Tronche, facing the Massif de Belledonne, at dusk. Foggy situation in the early morning on Grenoble and its suburbs. The chain of the Massif de Belledonne is illuminated by the emerging daylight.Dense fog on Grenoble and Tronche, facing the Massif de Belledonne, at dusk. Foggy situation in the early morning on Grenoble and its suburbs. The chain of the Massif de Belledonne is illuminated by the emerging daylight.Dense fog on Grenoble and Tronche, facing the Massif de Belledonne, at dusk. Foggy situation in the early morning on Grenoble and its suburbs. The chain of the Massif de Belledonne is illuminated by the emerging daylight.© Christophe Suarez / BiosphotoJPG - RM

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Dense fog on Grenoble and Tronche, facing the Massif de

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Arve Valley and Giffre Valley covered by a sea of clouds. Mont Blanc and stratus lit by the moon. Massif du Mont-Blanc and sea of clouds, at night, lit by the moon. Alps, FranceArve Valley and Giffre Valley covered by a sea of clouds. Mont Blanc and stratus lit by the moon. Massif du Mont-Blanc and sea of clouds, at night, lit by the moon. Alps, FranceArve Valley and Giffre Valley covered by a sea of clouds. Mont Blanc and stratus lit by the moon. Massif du Mont-Blanc and sea of clouds, at night, lit by the moon. Alps, France© Christophe Suarez / BiosphotoJPG - RM

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Arve Valley and Giffre Valley covered by a sea of clouds. Mont

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Sea of clouds lit by the Arve valley, at night, and milky way, facing the Mole mountain, the Aravis massif, and the Brasses massif. Typical autumnal stratus situation in the valleys, November 03, 2018. The clouds are illuminated by the light of the cities of the Arve. Above, the sky is clear and the Milky Way clearly visible. Scene on 180 ° (fisheye). Alps, FranceSea of clouds lit by the Arve valley, at night, and milky way, facing the Mole mountain, the Aravis massif, and the Brasses massif. Typical autumnal stratus situation in the valleys, November 03, 2018. The clouds are illuminated by the light of the cities of the Arve. Above, the sky is clear and the Milky Way clearly visible. Scene on 180 ° (fisheye). Alps, FranceSea of clouds lit by the Arve valley, at night, and milky way, facing the Mole mountain, the Aravis massif, and the Brasses massif. Typical autumnal stratus situation in the valleys, November 03, 2018. The clouds are illuminated by the light of the cities of the Arve. Above, the sky is clear and the Milky Way clearly visible. Scene on 180 ° (fisheye). Alps, France© Christophe Suarez / BiosphotoJPG - RM

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Sea of clouds lit by the Arve valley, at night, and milky way,

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Tidal bin on a beach on the Opal Coast in winter, Tardinghen, Pas de Calais, FranceTidal bin on a beach on the Opal Coast in winter, Tardinghen, Pas de Calais, FranceTidal bin on a beach on the Opal Coast in winter, Tardinghen, Pas de Calais, France© Yann Avril / BiosphotoJPG - RM

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Tidal bin on a beach on the Opal Coast in winter, Tardinghen, Pas

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Tidal bin on a beach on the Opal Coast in winter, Tardinghen, Pas de Calais, FranceTidal bin on a beach on the Opal Coast in winter, Tardinghen, Pas de Calais, FranceTidal bin on a beach on the Opal Coast in winter, Tardinghen, Pas de Calais, France© Yann Avril / BiosphotoJPG - RM

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Tidal bin on a beach on the Opal Coast in winter, Tardinghen, Pas

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Beach ashtrays distributed by the municipality of Plérin, Brittany, FranceBeach ashtrays distributed by the municipality of Plérin, Brittany, FranceBeach ashtrays distributed by the municipality of Plérin, Brittany, France© Jean-Luc & Françoise Ziegler / BiosphotoJPG - RM

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Beach ashtrays distributed by the municipality of Plérin,

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Beach ashtrays distributed by the municipality of Plérin, Brittany, FranceBeach ashtrays distributed by the municipality of Plérin, Brittany, FranceBeach ashtrays distributed by the municipality of Plérin, Brittany, France© Jean-Luc & Françoise Ziegler / BiosphotoJPG - RM

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Beach ashtrays distributed by the municipality of Plérin,

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Green algae (Ulva spp) at the exit of a channeled creek, Porz Scaff, Plougrescant, Côtes-d'Armor, Brittany, FranceGreen algae (Ulva spp) at the exit of a channeled creek, Porz Scaff, Plougrescant, Côtes-d'Armor, Brittany, FranceGreen algae (Ulva spp) at the exit of a channeled creek, Porz Scaff, Plougrescant, Côtes-d'Armor, Brittany, France© Frédéric Tournay / BiosphotoJPG - RM

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Green algae (Ulva spp) at the exit of a channeled creek, Porz

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Green algae (Ulva spp) at the exit of a channeled creek, Porz Scaff, Plougrescant, Côtes-d'Armor, Brittany, FranceGreen algae (Ulva spp) at the exit of a channeled creek, Porz Scaff, Plougrescant, Côtes-d'Armor, Brittany, FranceGreen algae (Ulva spp) at the exit of a channeled creek, Porz Scaff, Plougrescant, Côtes-d'Armor, Brittany, France© Frédéric Tournay / BiosphotoJPG - RM

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Green algae (Ulva spp) at the exit of a channeled creek, Porz

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Kitchen salt shaker (sea salt) deposited by the sea on the sand of a beach at low tide, Picardy, France.Kitchen salt shaker (sea salt) deposited by the sea on the sand of a beach at low tide, Picardy, France.Kitchen salt shaker (sea salt) deposited by the sea on the sand of a beach at low tide, Picardy, France.© Samuel Dhier / BiosphotoJPG - RM

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Kitchen salt shaker (sea salt) deposited by the sea on the sand

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Yellow-footed gull ( Larus livens) with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, MexicoYellow-footed gull ( Larus livens) with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, MexicoYellow-footed gull ( Larus livens) with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, Mexico© Sylvain Cordier / BiosphotoJPG - RM

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Yellow-footed gull ( Larus livens) with a plastic bag in the

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Yellow-footed gull ( Larus livens) with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, MexicoYellow-footed gull ( Larus livens) with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, MexicoYellow-footed gull ( Larus livens) with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, Mexico© Sylvain Cordier / BiosphotoJPG - RM

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Yellow-footed gull ( Larus livens) with a plastic bag in the

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Yellow-footed gull ( Larus livens) in flight with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, MexicoYellow-footed gull ( Larus livens) in flight with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, MexicoYellow-footed gull ( Larus livens) in flight with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, Mexico© Sylvain Cordier / BiosphotoJPG - RM

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Yellow-footed gull ( Larus livens) in flight with a plastic bag

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Yellow-footed gull ( Larus livens) in flight with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, MexicoYellow-footed gull ( Larus livens) in flight with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, MexicoYellow-footed gull ( Larus livens) in flight with a plastic bag in the beak, remains of food waste, Loreto Bay National Marine Park, Loreto, Gulf of California (also known as the Sea of Cortez or Sea of Cortés, Baja California Sur, Mexico© Sylvain Cordier / BiosphotoJPG - RM

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Yellow-footed gull ( Larus livens) in flight with a plastic bag

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Microplastics on table salt. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. Polyester microfibres. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.Microplastics on table salt. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. Polyester microfibres. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.Microplastics on table salt. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. Polyester microfibres. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Microplastics on table salt. Tiny fragments and filaments of

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Microplastics on table salt. Polyester microfibres. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.Microplastics on table salt. Polyester microfibres. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.Microplastics on table salt. Polyester microfibres. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Microplastics on table salt. Polyester microfibres. Tiny

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Microplastics on table salt. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.Microplastics on table salt. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.Microplastics on table salt. Tiny fragments and filaments of plastic inside and among cuisine salt crystals photographed with 5x enlargement. The presence of microplastics in the seawater has been revealed as hazardous. Three possible toxic effects of plastic particle have been indicated: first due to the plastic particles themselves, second to the release of persistent organic pollutant (POPs) adsorbed to the plastics and third to the leaching of additives of the plastics. We are eating plastic particles every day indirectly by ingesting contaminated marine animals and directly through the cooking salt with which we season the food. Saline salt collected from the west coast of Portugal.© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Microplastics on table salt. Tiny fragments and filaments of

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GloFish Zebrafish (Danio rerio), in diverse color versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), in diverse color versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), in diverse color versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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GloFish Zebrafish (Danio rerio), in diverse color versions.

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GloFish Zebrafish (Danio rerio), red and yellow versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), red and yellow versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), red and yellow versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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GloFish Zebrafish (Danio rerio), red and yellow versions.

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GloFish Zebrafish (Danio rerio), red and blue versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), red and blue versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), red and blue versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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GloFish Zebrafish (Danio rerio), red and blue versions. Although

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Beach of the Anse à l'eau touched by the arrival of a bench of Sargasses, commune of Saint François, Guadeloupe, French West Indies,Beach of the Anse à l'eau touched by the arrival of a bench of Sargasses, commune of Saint François, Guadeloupe, French West Indies,Beach of the Anse à l'eau touched by the arrival of a bench of Sargasses, commune of Saint François, Guadeloupe, French West Indies,© Laurent Lhoté / BiosphotoJPG - RM

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Beach of the Anse à l'eau touched by the arrival of a bench of

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Club Med or Caravelle Beach affected by the arrival of a bench of Sargasso, municipality of Saint Anne, Guadeloupe, French West IndiesClub Med or Caravelle Beach affected by the arrival of a bench of Sargasso, municipality of Saint Anne, Guadeloupe, French West IndiesClub Med or Caravelle Beach affected by the arrival of a bench of Sargasso, municipality of Saint Anne, Guadeloupe, French West Indies© Laurent Lhoté / BiosphotoJPG - RM

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Club Med or Caravelle Beach affected by the arrival of a bench of

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Club Med or Caravelle Beach affected by the arrival of a bench of Sargasso, municipality of Saint Anne, Guadeloupe, French West IndiesClub Med or Caravelle Beach affected by the arrival of a bench of Sargasso, municipality of Saint Anne, Guadeloupe, French West IndiesClub Med or Caravelle Beach affected by the arrival of a bench of Sargasso, municipality of Saint Anne, Guadeloupe, French West Indies© Laurent Lhoté / BiosphotoJPG - RM

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Club Med or Caravelle Beach affected by the arrival of a bench of

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Eagle Owl (Bubo bubo) with lights from city, Vosges, FranceEagle Owl (Bubo bubo) with lights from city, Vosges, FranceEagle Owl (Bubo bubo) with lights from city, Vosges, France© Olivier Gutfreund / BiosphotoJPG - RM

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Eagle Owl (Bubo bubo) with lights from city, Vosges, France

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Girl throwing a plastic waste in a tidal bin on a beach on the Opal Coast, summer, Pas de Calais, FranceGirl throwing a plastic waste in a tidal bin on a beach on the Opal Coast, summer, Pas de Calais, FranceGirl throwing a plastic waste in a tidal bin on a beach on the Opal Coast, summer, Pas de Calais, France© Yann Avril / BiosphotoJPG - RM

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Girl throwing a plastic waste in a tidal bin on a beach on the

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Tidal bin on a beach on the Opal Coast, summer, Pas de Calais, FranceTidal bin on a beach on the Opal Coast, summer, Pas de Calais, FranceTidal bin on a beach on the Opal Coast, summer, Pas de Calais, France© Yann Avril / BiosphotoJPG - RM

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Tidal bin on a beach on the Opal Coast, summer, Pas de Calais,

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Jellyfishes and plastic bag driffting. For us, humans, a submerged plastic bag hardly resembles a jellyfish but for a sea turtle, a ocean sunfish or a dolphin the difference will not seem so obvious. So they frequently ingest drifting plastic bags or other plastic garbage they find in the ocean. Unlike their natural food plastic is not digestible and causes them obstructions of the digestive tract and a long death with great suffering. PortugalJellyfishes and plastic bag driffting. For us, humans, a submerged plastic bag hardly resembles a jellyfish but for a sea turtle, a ocean sunfish or a dolphin the difference will not seem so obvious. So they frequently ingest drifting plastic bags or other plastic garbage they find in the ocean. Unlike their natural food plastic is not digestible and causes them obstructions of the digestive tract and a long death with great suffering. PortugalJellyfishes and plastic bag driffting. For us, humans, a submerged plastic bag hardly resembles a jellyfish but for a sea turtle, a ocean sunfish or a dolphin the difference will not seem so obvious. So they frequently ingest drifting plastic bags or other plastic garbage they find in the ocean. Unlike their natural food plastic is not digestible and causes them obstructions of the digestive tract and a long death with great suffering. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Jellyfishes and plastic bag driffting. For us, humans, a

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Plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Plastic garbage floating in the ocean. Unlike organic debris,

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Plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Plastic garbage floating in the ocean. Unlike organic debris,

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Plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Plastic garbage floating in the ocean. Unlike organic debris,

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Plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Plastic garbage floating in the ocean. Unlike organic debris,

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Plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401761

Plastic garbage floating in the ocean. Unlike organic debris,

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Plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401760

Plastic garbage floating in the ocean. Unlike organic debris,

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Plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. PortugalPlastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401759

Plastic garbage floating in the ocean. Unlike organic debris,

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Turtle eating a plastic cup drifting in the middle of a huge garbage patch floating in the ocean. The animals ingest these pieces of plastic thought it is natural food and end up with the digestive tract obstructed by plastic and end up dying in great suffering. Composite. Indian Ocean. Composite imageTurtle eating a plastic cup drifting in the middle of a huge garbage patch floating in the ocean. The animals ingest these pieces of plastic thought it is natural food and end up with the digestive tract obstructed by plastic and end up dying in great suffering. Composite. Indian Ocean. Composite imageTurtle eating a plastic cup drifting in the middle of a huge garbage patch floating in the ocean. The animals ingest these pieces of plastic thought it is natural food and end up with the digestive tract obstructed by plastic and end up dying in great suffering. Composite. Indian Ocean. Composite image© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401758

Turtle eating a plastic cup drifting in the middle of a huge

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Common bottlenose dolphin playing with a six pack rings found in the middle of a great patch of floating plastic garbage. Six pack rings or six pack yokes are a set of connected plastic rings that are used in multi-packs of beverage, particularly six packs of beverage cans.These six pack rings cause huge entaglemets in marine animals and are often mistakenly ingested because animals think it is natural food. Its transparent appearance is very similar to that of some jellyfish and certain colonial tunicates. Dolphins, turtles and fish have already been seen in these rings unable to break free. Composite. Indian ocean. Composite imageCommon bottlenose dolphin playing with a six pack rings found in the middle of a great patch of floating plastic garbage. Six pack rings or six pack yokes are a set of connected plastic rings that are used in multi-packs of beverage, particularly six packs of beverage cans.These six pack rings cause huge entaglemets in marine animals and are often mistakenly ingested because animals think it is natural food. Its transparent appearance is very similar to that of some jellyfish and certain colonial tunicates. Dolphins, turtles and fish have already been seen in these rings unable to break free. Composite. Indian ocean. Composite imageCommon bottlenose dolphin playing with a six pack rings found in the middle of a great patch of floating plastic garbage. Six pack rings or six pack yokes are a set of connected plastic rings that are used in multi-packs of beverage, particularly six packs of beverage cans.These six pack rings cause huge entaglemets in marine animals and are often mistakenly ingested because animals think it is natural food. Its transparent appearance is very similar to that of some jellyfish and certain colonial tunicates. Dolphins, turtles and fish have already been seen in these rings unable to break free. Composite. Indian ocean. Composite image© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401757

Common bottlenose dolphin playing with a six pack rings found in

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Plastic toy turtle and other plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source.Plastic toy turtle and other plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source.Plastic toy turtle and other plastic garbage floating in the ocean. Unlike organic debris, which biodegrades, the photodegraded plastic disintegrates into smaller and smaller pieces and it concentrates in the upper water column. As it disintegrates, the plastic ultimately becomes small enough to be ingested by aquatic organisms that reside near the ocean's surface. In this way, plastic may become concentrated in neuston, thereby entering the food chain. While eating their normal sources of food, plastic ingestion can be unavoidable or the animal may mistake the plastic as a food source.© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401756

Plastic toy turtle and other plastic garbage floating in the

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Concept image to ilustrate marine micopastic pollution. Plastic trash, like the duck of this photo, degrades under the effect of sunlight and the mechanical action of wind and waves. It begins to become brittle and slowly fractures into pieces which in turn are also crumbling into smaller and smaller particles. These micro plastics and other directly derived hygiene products are consumed by various marine animals and their larvae which mistake them for food, and can be consumed by humans too via seafood, tap water or other food. The risk to people is still not known, but there are concerns that microplastics can accumulate toxic chemicals and that the tiniest could enter the bloodstream.Concept image to ilustrate marine micopastic pollution. Plastic trash, like the duck of this photo, degrades under the effect of sunlight and the mechanical action of wind and waves. It begins to become brittle and slowly fractures into pieces which in turn are also crumbling into smaller and smaller particles. These micro plastics and other directly derived hygiene products are consumed by various marine animals and their larvae which mistake them for food, and can be consumed by humans too via seafood, tap water or other food. The risk to people is still not known, but there are concerns that microplastics can accumulate toxic chemicals and that the tiniest could enter the bloodstream.Concept image to ilustrate marine micopastic pollution. Plastic trash, like the duck of this photo, degrades under the effect of sunlight and the mechanical action of wind and waves. It begins to become brittle and slowly fractures into pieces which in turn are also crumbling into smaller and smaller particles. These micro plastics and other directly derived hygiene products are consumed by various marine animals and their larvae which mistake them for food, and can be consumed by humans too via seafood, tap water or other food. The risk to people is still not known, but there are concerns that microplastics can accumulate toxic chemicals and that the tiniest could enter the bloodstream.© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401755

Concept image to ilustrate marine micopastic pollution. Plastic

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Marine fish larvae eat microplastics. Small pieces of plastic, termed “micro plastic” in the oceans derive mainly from degradation of big plastics such as beach littering, but also from sources of direct emission from example beauty scrubbers and synthetic sand-blasting. These micro plastics are ingested by marine animals –mistaking them for plankton – or via prey. When ingested, the particles affect the animals due to their physical properties and their chemical properties (the plastic polymer itself and additives) and persistent organic pollutants (POPs) gathered on their surface. The latter because micro plastics have a large hydrophobic surface, which accumulate POPs to a great extent, on micro plastics than in the surrounding water.Marine fish larvae eat microplastics. Small pieces of plastic, termed “micro plastic” in the oceans derive mainly from degradation of big plastics such as beach littering, but also from sources of direct emission from example beauty scrubbers and synthetic sand-blasting. These micro plastics are ingested by marine animals –mistaking them for plankton – or via prey. When ingested, the particles affect the animals due to their physical properties and their chemical properties (the plastic polymer itself and additives) and persistent organic pollutants (POPs) gathered on their surface. The latter because micro plastics have a large hydrophobic surface, which accumulate POPs to a great extent, on micro plastics than in the surrounding water.Marine fish larvae eat microplastics. Small pieces of plastic, termed “micro plastic” in the oceans derive mainly from degradation of big plastics such as beach littering, but also from sources of direct emission from example beauty scrubbers and synthetic sand-blasting. These micro plastics are ingested by marine animals –mistaking them for plankton – or via prey. When ingested, the particles affect the animals due to their physical properties and their chemical properties (the plastic polymer itself and additives) and persistent organic pollutants (POPs) gathered on their surface. The latter because micro plastics have a large hydrophobic surface, which accumulate POPs to a great extent, on micro plastics than in the surrounding water.© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401754

Marine fish larvae eat microplastics. Small pieces of plastic,

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Marine fish larvae eat microplastics. Small pieces of plastic, termed “micro plastic” in the oceans derive mainly from degradation of big plastics such as beach littering, but also from sources of direct emission from example beauty scrubbers and synthetic sand-blasting. These micro plastics are ingested by marine animals –mistaking them for plankton – or via prey. When ingested, the particles affect the animals due to their physical properties and their chemical properties (the plastic polymer itself and additives) and persistent organic pollutants (POPs) gathered on their surface. The latter because micro plastics have a large hydrophobic surface, which accumulate POPs to a great extent, on micro plastics than in the surrounding water.Marine fish larvae eat microplastics. Small pieces of plastic, termed “micro plastic” in the oceans derive mainly from degradation of big plastics such as beach littering, but also from sources of direct emission from example beauty scrubbers and synthetic sand-blasting. These micro plastics are ingested by marine animals –mistaking them for plankton – or via prey. When ingested, the particles affect the animals due to their physical properties and their chemical properties (the plastic polymer itself and additives) and persistent organic pollutants (POPs) gathered on their surface. The latter because micro plastics have a large hydrophobic surface, which accumulate POPs to a great extent, on micro plastics than in the surrounding water.Marine fish larvae eat microplastics. Small pieces of plastic, termed “micro plastic” in the oceans derive mainly from degradation of big plastics such as beach littering, but also from sources of direct emission from example beauty scrubbers and synthetic sand-blasting. These micro plastics are ingested by marine animals –mistaking them for plankton – or via prey. When ingested, the particles affect the animals due to their physical properties and their chemical properties (the plastic polymer itself and additives) and persistent organic pollutants (POPs) gathered on their surface. The latter because micro plastics have a large hydrophobic surface, which accumulate POPs to a great extent, on micro plastics than in the surrounding water.© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401753

Marine fish larvae eat microplastics. Small pieces of plastic,

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Barge with divers who are working on cleaning the bottom of the Tagus River next to Vila Velha de Ródão. These are sludges of organic matter deposited over several years in the river bed because of the reduced flow. These materials come from sewage effluents from several manufacturing companies, mainly from paper mills. As the flow of the Tagus river has been greatly reduced in Spain because of its transfer to the South these organic materials have accumulated over the years forming a thick layer of organic matter in the bed of the river that has killed the whole aquatic life. Organic pollution.These sludges are being conditioned in flexible containers at the bank and then moved to a place where they can be properly treated without environmental impact. Vila Velha de Ródão, Portugal 2018Barge with divers who are working on cleaning the bottom of the Tagus River next to Vila Velha de Ródão. These are sludges of organic matter deposited over several years in the river bed because of the reduced flow. These materials come from sewage effluents from several manufacturing companies, mainly from paper mills. As the flow of the Tagus river has been greatly reduced in Spain because of its transfer to the South these organic materials have accumulated over the years forming a thick layer of organic matter in the bed of the river that has killed the whole aquatic life. Organic pollution.These sludges are being conditioned in flexible containers at the bank and then moved to a place where they can be properly treated without environmental impact. Vila Velha de Ródão, Portugal 2018Barge with divers who are working on cleaning the bottom of the Tagus River next to Vila Velha de Ródão. These are sludges of organic matter deposited over several years in the river bed because of the reduced flow. These materials come from sewage effluents from several manufacturing companies, mainly from paper mills. As the flow of the Tagus river has been greatly reduced in Spain because of its transfer to the South these organic materials have accumulated over the years forming a thick layer of organic matter in the bed of the river that has killed the whole aquatic life. Organic pollution.These sludges are being conditioned in flexible containers at the bank and then moved to a place where they can be properly treated without environmental impact. Vila Velha de Ródão, Portugal 2018© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401752

Barge with divers who are working on cleaning the bottom of the

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Barge with divers who are working on cleaning the bottom of the Tagus River next to Vila Velha de Ródão. These are sludges of organic matter deposited over several years in the river bed because of the reduced flow. These materials come from sewage effluents from several manufacturing companies, mainly from paper mills. As the flow of the Tagus river has been greatly reduced in Spain because of its transfer to the South these organic materials have accumulated over the years forming a thick layer of organic matter in the bed of the river that has killed the whole aquatic life. Organic pollution.These sludges are being conditioned in flexible containers at the bank and then moved to a place where they can be properly treated without environmental impact. Vila Velha de Ródão, Portugal 2018Barge with divers who are working on cleaning the bottom of the Tagus River next to Vila Velha de Ródão. These are sludges of organic matter deposited over several years in the river bed because of the reduced flow. These materials come from sewage effluents from several manufacturing companies, mainly from paper mills. As the flow of the Tagus river has been greatly reduced in Spain because of its transfer to the South these organic materials have accumulated over the years forming a thick layer of organic matter in the bed of the river that has killed the whole aquatic life. Organic pollution.These sludges are being conditioned in flexible containers at the bank and then moved to a place where they can be properly treated without environmental impact. Vila Velha de Ródão, Portugal 2018Barge with divers who are working on cleaning the bottom of the Tagus River next to Vila Velha de Ródão. These are sludges of organic matter deposited over several years in the river bed because of the reduced flow. These materials come from sewage effluents from several manufacturing companies, mainly from paper mills. As the flow of the Tagus river has been greatly reduced in Spain because of its transfer to the South these organic materials have accumulated over the years forming a thick layer of organic matter in the bed of the river that has killed the whole aquatic life. Organic pollution.These sludges are being conditioned in flexible containers at the bank and then moved to a place where they can be properly treated without environmental impact. Vila Velha de Ródão, Portugal 2018© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401751

Barge with divers who are working on cleaning the bottom of the

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Plastic fish food. Concept image of a fish cut in half with a knife and spilling microplastics from within. The image is intended to illustrate the problem of pollution of the oceans by plastic garbage. We are eating plastic on our seafood. Contaminated fish and shellfish have been found everywhere from Europe, Canada and Brazil to China – and plastic-eating fish are now showing up in supermarkets. While most plastic has been found in the guts of fish, and would therefore be removed before eating, some studies have warned that microplastics, particularly at the nanoscale, could transfer from the guts to the meat (and, of course, we eat some species of small fish and shellfish whole). There is growing concern about toxins leaching – laboratory tests have shown that chemicals associated with microplastics can concentrate in the tissues of marine animals. Some commercially important species have seen the majority of their population affected. It confirmed that contamination has been recorded in tens of thousands of organisms and more than 100 species. Last year, the European Food Safety Authority called for urgent research, citing increasing concern for human health and food safety given the potential for microplastic pollution in edible tissues of commercial fish. PortugalPlastic fish food. Concept image of a fish cut in half with a knife and spilling microplastics from within. The image is intended to illustrate the problem of pollution of the oceans by plastic garbage. We are eating plastic on our seafood. Contaminated fish and shellfish have been found everywhere from Europe, Canada and Brazil to China – and plastic-eating fish are now showing up in supermarkets. While most plastic has been found in the guts of fish, and would therefore be removed before eating, some studies have warned that microplastics, particularly at the nanoscale, could transfer from the guts to the meat (and, of course, we eat some species of small fish and shellfish whole). There is growing concern about toxins leaching – laboratory tests have shown that chemicals associated with microplastics can concentrate in the tissues of marine animals. Some commercially important species have seen the majority of their population affected. It confirmed that contamination has been recorded in tens of thousands of organisms and more than 100 species. Last year, the European Food Safety Authority called for urgent research, citing increasing concern for human health and food safety given the potential for microplastic pollution in edible tissues of commercial fish. PortugalPlastic fish food. Concept image of a fish cut in half with a knife and spilling microplastics from within. The image is intended to illustrate the problem of pollution of the oceans by plastic garbage. We are eating plastic on our seafood. Contaminated fish and shellfish have been found everywhere from Europe, Canada and Brazil to China – and plastic-eating fish are now showing up in supermarkets. While most plastic has been found in the guts of fish, and would therefore be removed before eating, some studies have warned that microplastics, particularly at the nanoscale, could transfer from the guts to the meat (and, of course, we eat some species of small fish and shellfish whole). There is growing concern about toxins leaching – laboratory tests have shown that chemicals associated with microplastics can concentrate in the tissues of marine animals. Some commercially important species have seen the majority of their population affected. It confirmed that contamination has been recorded in tens of thousands of organisms and more than 100 species. Last year, the European Food Safety Authority called for urgent research, citing increasing concern for human health and food safety given the potential for microplastic pollution in edible tissues of commercial fish. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401750

Plastic fish food. Concept image of a fish cut in half with a

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Plastic fish food. Concept image of a fish served on a plate with other real food elements. Plastic fish and ships. We are eating plastic on our seafood. Contaminated fish and shellfish have been found everywhere from Europe, Canada and Brazil to China – and plastic-eating fish are now showing up in supermarkets. While most plastic has been found in the guts of fish, and would therefore be removed before eating, some studies have warned that microplastics, particularly at the nanoscale, could transfer from the guts to the meat (and, of course, we eat some species of small fish and shellfish whole). There is growing concern about toxins leaching – laboratory tests have shown that chemicals associated with microplastics can concentrate in the tissues of marine animals. Some commercially important species have seen the majority of their population affected. It confirmed that contamination has been recorded in tens of thousands of organisms and more than 100 species. Last year, the European Food Safety Authority called for urgent research, citing increasing concern for human health and food safety “given the potential for microplastic pollution in edible tissues of commercial fish”. PortugalPlastic fish food. Concept image of a fish served on a plate with other real food elements. Plastic fish and ships. We are eating plastic on our seafood. Contaminated fish and shellfish have been found everywhere from Europe, Canada and Brazil to China – and plastic-eating fish are now showing up in supermarkets. While most plastic has been found in the guts of fish, and would therefore be removed before eating, some studies have warned that microplastics, particularly at the nanoscale, could transfer from the guts to the meat (and, of course, we eat some species of small fish and shellfish whole). There is growing concern about toxins leaching – laboratory tests have shown that chemicals associated with microplastics can concentrate in the tissues of marine animals. Some commercially important species have seen the majority of their population affected. It confirmed that contamination has been recorded in tens of thousands of organisms and more than 100 species. Last year, the European Food Safety Authority called for urgent research, citing increasing concern for human health and food safety “given the potential for microplastic pollution in edible tissues of commercial fish”. PortugalPlastic fish food. Concept image of a fish served on a plate with other real food elements. Plastic fish and ships. We are eating plastic on our seafood. Contaminated fish and shellfish have been found everywhere from Europe, Canada and Brazil to China – and plastic-eating fish are now showing up in supermarkets. While most plastic has been found in the guts of fish, and would therefore be removed before eating, some studies have warned that microplastics, particularly at the nanoscale, could transfer from the guts to the meat (and, of course, we eat some species of small fish and shellfish whole). There is growing concern about toxins leaching – laboratory tests have shown that chemicals associated with microplastics can concentrate in the tissues of marine animals. Some commercially important species have seen the majority of their population affected. It confirmed that contamination has been recorded in tens of thousands of organisms and more than 100 species. Last year, the European Food Safety Authority called for urgent research, citing increasing concern for human health and food safety “given the potential for microplastic pollution in edible tissues of commercial fish”. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2401749

Plastic fish food. Concept image of a fish served on a plate with

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Loggerhead turtle (Caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.Loggerhead turtle (Caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.Loggerhead turtle (Caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.© Sergio Hanquet / BiosphotoJPG - RM

2399587

Loggerhead turtle (Caretta caretta) trapped by a nylon. One of

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Loggerhead turtle (Caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.Loggerhead turtle (Caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.Loggerhead turtle (Caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.© Sergio Hanquet / BiosphotoJPG - RM

2399586

Loggerhead turtle (Caretta caretta) trapped by a nylon. One of

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Loggerhead turtle (caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.Loggerhead turtle (caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.Loggerhead turtle (caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.© Sergio Hanquet / BiosphotoJPG - RM

2399585

Loggerhead turtle (caretta caretta) trapped by a nylon. One of

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Loggerhead turtle (caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.Loggerhead turtle (caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.Loggerhead turtle (caretta caretta) trapped by a nylon. One of them has been rescued alive and the other died. The place does not matter, but the problem generated by the interaction of man in the sea.© Sergio Hanquet / BiosphotoJPG - RM

2399584

Loggerhead turtle (caretta caretta) trapped by a nylon. One of

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Electrical production plant (Ravenswood generating station) in front of the East River, New York, USAElectrical production plant (Ravenswood generating station) in front of the East River, New York, USAElectrical production plant (Ravenswood generating station) in front of the East River, New York, USA© Frédéric Tournay / BiosphotoJPG - RM

2399311

Electrical production plant (Ravenswood generating station) in

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Electrical production plant (Ravenswood generating station) in front of the East River, New York, USAElectrical production plant (Ravenswood generating station) in front of the East River, New York, USAElectrical production plant (Ravenswood generating station) in front of the East River, New York, USA© Frédéric Tournay / BiosphotoJPG - RM

2399310

Electrical production plant (Ravenswood generating station) in

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Several Streaked spinefoot (Siganus javus) eating a piece of a plastic bottle. These fishes feed mostly on seaweeds that grow on the rocks but also eat jellyfishes. This translucent white plastic bottle should look to them very similar to a jellyfish. Kuwait, Persian Gulf - Composite image. Composite imageSeveral Streaked spinefoot (Siganus javus) eating a piece of a plastic bottle. These fishes feed mostly on seaweeds that grow on the rocks but also eat jellyfishes. This translucent white plastic bottle should look to them very similar to a jellyfish. Kuwait, Persian Gulf - Composite image. Composite imageSeveral Streaked spinefoot (Siganus javus) eating a piece of a plastic bottle. These fishes feed mostly on seaweeds that grow on the rocks but also eat jellyfishes. This translucent white plastic bottle should look to them very similar to a jellyfish. Kuwait, Persian Gulf - Composite image. Composite image© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2397562

Several Streaked spinefoot (Siganus javus) eating a piece of a

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