Global Warming Images
 
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IMG_6393_clean.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6393_tracker.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6530_clean.jpg Solar voltaic panels in new South Wales, Australia.
 
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IMG_6530_green.jpg Solar voltaic panels in new South Wales, Australia.
 
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IMG_6536_elec.jpg Solar voltaic panels in new South Wales, Australia.
 
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IMG_6536_energy.jpg Solar voltaic panels in new South Wales, Australia.
 
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IMG_7424_Newcastle.jpg Solar panels on a building on the campus of Northumbira University, Newcastle upon Tyne, UK.
 
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IMG_6254_p.jpg Protest banners at a climate change rally in London December 2008
 
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IMG_6261_p.jpg Protest banners at a climate change rally in London December 2008
 
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IMG_6338_p.jpg Protestors at a climate change rally in London December 2008
 
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IMG_3332_blue.jpg A poster about cloud seeding in the Snowy mountains, a technique used to increase the rainfall for hydro generation and irrigation water.
 
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IMG_4288_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_4289_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_4300_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_4303_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_4308_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_4309_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6384_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6392_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6393_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6398_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_6399_p.jpg Solar panels being used to generate electricity to power scientific equipment as part of a research project by scientists from Sydney University. Snowy mountains, Australia.
 
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IMG_9745 (1)_p.jpg PHD scientist Ian Bartholomews theodolite tripod being used to measure the speed of the Russelll Glacier near Kangerlussuag Greenland. The study is looking at how increasing quantities of melt water caused by climate change are affecting the glaciers speed which like most glaciers in Greenland has speeded up considerably in the last 20 years. It is thought that the meltwater helps lubricates the glaciers base enabling it to flow faster. As part of the study reflective poles were drilled 4 metres into the ice to measure their speed at various positions on the glacier. Within a month all the poles had fallen over as the glacier melted down over 4 metres
 
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IMG_9752 (1)_p.jpg PHD scientist Ian Bartholomew taking measurements as part of a study to measure the speed of the Russelll Glacier near Kangerlussuag Greenland. The study is looking at how increasing quantities of melt water caused by climate change are affecting the glaciers speed which like most glaciers in Greenland has speeded up considerably in the last 20 years. It is thought that the meltwater helps lubricates the glaciers base enabling it to flow faster. As part of the study reflective poles were drilled 4 metres into the ice to measure their speed at various positions on the glacier. Within a month all the poles had fallen over as the glacier melted down over 4 metres
 
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IMG_9757-p.jpg PHD scientist Ian Bartholomew taking measurements as part of a study to measure the speed of the Russelll Glacier near Kangerlussuag Greenland. The study is looking at how increasing quantities of melt water caused by climate change are affecting the glaciers speed which like most glaciers in Greenland has speeded up considerably in the last 20 years. It is thought that the meltwater helps lubricates the glaciers base enabling it to flow faster. As part of the study reflective poles were drilled 4 metres into the ice to measure their speed at various positions on the glacier. Within a month all the poles had fallen over as the glacier melted down over 4 metres
 
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IMG_a9936_o.jpg PHD scientist Ian Bartholomew taking measurements as part of a study to measure the speed of the Russell Glacier near Kangerlussuag Greenland. The study is looking at how increasing quantities of melt water caused by climate change are affecting the glaciers speed which like most glaciers in Greenland has speeded up considerably in the last 20 years. It is thought that the meltwater helps lubricates the glaciers base enabling it to flow faster. As part of the study reflective poles were drilled 4 metres into the ice to measure their speed at various positions on the glacier. Within a month all the poles had fallen over as the glacier melted down over 4 metres
 
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366W2826_p.jpg Moor House National Nature Reserve in the North Pennines has been a site of scientific research going back 50 years. Weather records show a gradual warming over the last 50 years and a dramatic decline in winter snow cover. This has started to alter some of the specialised arctic plant communities and has also affected the carbon budget of the upland blanket peat bog. Peat bogs should be carbon sinks but due to rising temperatures the carbon budget of the bogs is changeing to a carbon deficit. The picture shows the specialist equipment used to measure carbon release from the peat bog.
 
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366W2827 (1)_p.jpg Moor House National Nature Reserve in the North Pennines has been a site of scientific research going back 50 years. Weather records show a gradual warming over the last 50 years and a dramatic decline in winter snow cover. This has started to alter some of the specialised arctic plant communities and has also affected the carbon budget of the upland blanket peat bog. Peat bogs should be carbon sinks but due to rising temperatures the carbon budget of the bogs is changeing to a carbon deficit. The picture shows the specialist equipment used to measure carbon release from the peat bog.
 
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366W4996_tubing.jpg An AlgaeLink Algae growing system that is harvested to make ethanol and biodiesel. Producing oil from algae in this way is much more efficient than from growing traditional plant oil crops like oil seed rape. It also has the benefit that it does not take up space that could be growing food crops.
 
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366W4997_tube.jpg An AlgaeLink Algae growing system that is harvested to make ethanol and biodiesel. Producing oil from algae in this way is much more efficient than from growing traditional plant oil crops like oil seed rape. It also has the benefit that it does not take up space that could be growing food crops.
 
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366W4998_advert.jpg An AlgaeLink Algae growing system that is harvested to make ethanol and biodiesel. Producing oil from algae in this way is much more efficient than from growing traditional plant oil crops like oil seed rape. It also has the benefit that it does not take up space that could be growing food crops.
 
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366W4999_sign.jpg An AlgaeLink Algae growing system that is harvested to make ethanol and biodiesel. Producing oil from algae in this way is much more efficient than from growing traditional plant oil crops like oil seed rape. It also has the benefit that it does not take up space that could be growing food crops.
 
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