Global Warming Images
 
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IMG_9742_volcanic ash.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9789_warning.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9802_glacier walking.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9806_solheimajokull.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_7708_glacial retreat.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_7710_meltwater.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9745_albedo.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9746_volcanic ash.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9751_volcanic dust.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9754_glacial retreat.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9767_volcanic ash.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9771_glacier snout.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9777_meltwater.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_9785_myrdalsjokull.jpg The snout of the Solheimajokull glacier on the Myrdalsjokull ice cap in Iceland. It was melting rapidly due to climate change, but is now melting even faster after the eruption of Eyjafjallajokull covered it in black ash, meaning that it absorbs more of the suns solar radiation. Scientists predict that all of Icelands glaciers will have disappeared within 100 years.
 
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IMG_8334_ocean acidity.jpg Coral on the Great Barrier Reef, off Cairns, Queensland, Australia. Many area of coral reef around the world are threatened by coral bleaching, where the sea temperatures are getting too warm and stressing the corals, forcing them to eject the algae that give them their colour. This consequence of climate change is seriously threatening many reefs. Additionally much of the excess C02 emmitted by man has been absorbed by the worlds oceans, altering the ph balance and making seawater more acidic. This is bad news for molluscs, animals that create shells, the acidic sea water is starting to affect their ability to form their shells. This shot includes a giant clam amongst the soft coral.
 
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IMG_6493_tree planting.jpg Newly planted woodland in Giggleswick near Settle, Yorkshire, UK. Such tree planting helps to absorb C02 and combat climate change.
 
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IMG_6494_tree planting.jpg Newly planted woodland in Giggleswick near Settle, Yorkshire, UK. Such tree planting helps to absorb C02 and combat climate change.
 
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IMG_6497_woodland.jpg Newly planted woodland in Giggleswick near Settle, Yorkshire, UK. Such tree planting helps to absorb C02 and combat climate change.
 
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IMG_6501_regeneration.jpg Newly planted woodland in Giggleswick near Settle, Yorkshire, UK. Such tree planting helps to absorb C02 and combat climate change.
 
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IMG_6504_woodland.jpg Newly planted woodland in Giggleswick near Settle, Yorkshire, UK. Such tree planting helps to absorb C02 and combat climate change.
 
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IMG_6508_carbon offset.jpg Newly planted woodland in Giggleswick near Settle, Yorkshire, UK. Such tree planting helps to absorb C02 and combat climate change.
 
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IMG_6511_planting.jpg Newly planted woodland in Giggleswick near Settle, Yorkshire, UK. Such tree planting helps to absorb C02 and combat climate change.
 
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IMG_6559_woodland.jpg Newly planted trees as part of the National Forest regeneration poject near Loughborough, leicestershire, UK.
 
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366W0585_tree.jpg Tree planting to absorb C02 emmissions, Geltsdale, Cumbria, UK
 
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366W0596_geltsdale.jpg Tree planting to absorb C02 emmissions, Geltsdale, Cumbria, UK
 
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366W0624_tree planting.jpg Tree planting to absorb C02 emmissions, Geltsdale, Cumbria, UK
 
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IMG_9868_offset.jpg Standen Hey community woodland near Clitheroe Lancashire UK. Tree planting is one way of offsetting carbon emissions as the trees absorb carbon as they grow.
 
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IMG_9873_tree planting.jpg Standen Hey community woodland near Clitheroe Lancashire UK. Tree planting is one way of offsetting carbon emissions as the trees absorb carbon as they grow.
 
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IMG_9877_community woodland.jpg Standen Hey community woodland near Clitheroe Lancashire UK. Tree planting is one way of offsetting carbon emissions as the trees absorb carbon as they grow.
 
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IMG_1491_tree planting.jpg Sand Martin Wood in Faugh near Carlisle, Cumbria, UK, was acquired by the carbon offset company co2balance in September 2006. It has been planted with a broad mix of native trees over 6 hectares and is managed for wildlife as well as the companies offset clients. Though seen as controversial by some carbon offsetting is one way of a company or individual to reduce their emissions, as the trees absorb and sequestrate carbon as they grow.
 
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IMG_1496_tree planting.jpg Sand Martin Wood in Faugh near Carlisle, Cumbria, UK, was acquired by the carbon offset company co2balance in September 2006. It has been planted with a broad mix of native trees over 6 hectares and is managed for wildlife as well as the companies offset clients. Though seen as controversial by some carbon offsetting is one way of a company or individual to reduce their emissions, as the trees absorb and sequestrate carbon as they grow.
 
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IMG_1498_carbon offset.jpg Sand Martin Wood in Faugh near Carlisle, Cumbria, UK, was acquired by the carbon offset company co2balance in September 2006. It has been planted with a broad mix of native trees over 6 hectares and is managed for wildlife as well as the companies offset clients. Though seen as controversial by some carbon offsetting is one way of a company or individual to reduce their emissions, as the trees absorb and sequestrate carbon as they grow.
 
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