Global Warming Images
 
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20120318_IMG_3057.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3058.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3060.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3063.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3067.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3071.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3075.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3077.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3079.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3082.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3083.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3086.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3090.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3097.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3098.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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20120318_IMG_3101.jpg Peat hags near Loadpot Hill above Ullswater in the Lake District, UK. Peat bogs are a great carbon sink, as the sequestrate large amounts of carbon. They are also great natural sponges that are important water reservoors. They help to balance out water flows, balancing the worst excesses of drought and flood.
 
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IMG_8473_energy.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8478_carbon neutral.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8479_Iceland.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8481_Iceland.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8486_electric production.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8495_bolt.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8496_hydro power.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8498_water pressure.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8503_helmet.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows a worker nxt to valves that control the water flow into the turbines.
 
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IMG_8530_turbine.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control water flow into the turbines.
 
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IMG_8532_turbine.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control water flow into the turbines.
 
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IMG_2240_fish ladder.jpg A flow measurement station and fish ladder on the River Dunsop in the Dunsop Valley above Dunsop Bridge in the Trough of Bowland, Lancashire, UK.
 
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IMG_2242_weir.jpg A flow measurement station and fish ladder on the River Dunsop in the Dunsop Valley above Dunsop Bridge in the Trough of Bowland, Lancashire, UK.
 
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IMG_2246_oxygenation.jpg Oxygen bubbles in pat stained water in the river Dunsop, Trough of Bowland, Lancashire, UK.
 
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IMG_8496_hydro electric.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows valves that control the water flow into the turbines.
 
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IMG_8503_hydro turbine.jpg Fljotsdalur hydro power station part of Karahnjukar a massive new contorversial hydro electricity project in North East Iceland, in the wilderness area of Vatnajokull, created by damming the Jokuls a Dal river. Controversial as it flooded a huge area of one of Europes last wilderness areas, that was home to nesting Whooper Swans and Pink Footed Geese. The project does however produce 40% of Icelands electricity from renewables. The projects statistics are as follows, power generation, 700MW, gross head, 600 metres, Max flow 144 M/sec, Halslon Lake area 57KM squared, storage volume 2.1 million metres, dam height 198m (the tallest in Europe) headrace tunnels 73km. 100 % of Icelands electricity is generated from renewables, 70% from hydro and 30% from geothermal. This shot shows a worker nxt to valves that control the water flow into the turbines.
 
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