Global Warming Images
 
1042 Media found on 17 pages     
     
l 1 l 2 l 3 l 4 l 5 l 6 l 7 l 8 l  

 
20130506_IMG_7288.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7288
Add to Lightbox - Lightbox

 
20130506_IMG_7299.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panels on the roof. Here a man points out the level of the water outside.
 
20130506_IMG_7299
Add to Lightbox - Lightbox

 
20130506_IMG_7306.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7306
Add to Lightbox - Lightbox

 
20130506_IMG_7313.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
20130506_IMG_7313
Add to Lightbox - Lightbox

 
20130506_IMG_7317.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
20130506_IMG_7317
Add to Lightbox - Lightbox

 
20130506_IMG_7320.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
20130506_IMG_7320
Add to Lightbox - Lightbox

 
20130506_IMG_7325.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
20130506_IMG_7325
Add to Lightbox - Lightbox

 
20130506_IMG_7326.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
20130506_IMG_7326
Add to Lightbox - Lightbox

 
20130506_IMG_7331.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
20130506_IMG_7331
Add to Lightbox - Lightbox

 
20130506_IMG_7342.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7342
Add to Lightbox - Lightbox

 
20130506_IMG_7347.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7347
Add to Lightbox - Lightbox

 
20130506_IMG_7353.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7353
Add to Lightbox - Lightbox

 
20130506_IMG_7377.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7377
Add to Lightbox - Lightbox

 
20130506_IMG_7385.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7385
Add to Lightbox - Lightbox

 
20130506_B18A0663.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_B18A0663
Add to Lightbox - Lightbox

 
20130506_IMG_7282.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7282
Add to Lightbox - Lightbox

 
20130506_IMG_7295.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7295
Add to Lightbox - Lightbox

 
20130506_IMG_7303.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panels on the roof. Here a man points out the level of the water outside.
 
20130506_IMG_7303
Add to Lightbox - Lightbox

 
20130506_IMG_7349.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7349
Add to Lightbox - Lightbox

 
20130506_IMG_7374.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Here one of the pilings that allows the office to move up and own but prevents it from floating away.
 
20130506_IMG_7374
Add to Lightbox - Lightbox

 
20130506_IMG_7380.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Here one of the pilings that allows the office to move up and own but prevents it from floating away.
 
20130506_IMG_7380
Add to Lightbox - Lightbox

 
20130506_IMG_7389.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
20130506_IMG_7389
Add to Lightbox - Lightbox

 
20130130_IMG_2635.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2635
Add to Lightbox - Lightbox

 
20130130_IMG_2636.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2636
Add to Lightbox - Lightbox

 
20130130_IMG_2639.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2639
Add to Lightbox - Lightbox

 
20130130_IMG_2641.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK with wind turbines behind. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2641
Add to Lightbox - Lightbox

 
20130130_IMG_2642.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK with wind turbines behind. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2642
Add to Lightbox - Lightbox

 
20130130_IMG_2646.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK with wind turbines behind. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2646
Add to Lightbox - Lightbox

 
20130130_IMG_2648.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK with wind turbines behind. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2648
Add to Lightbox - Lightbox

 
20130130_IMG_2655.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK with wind turbines behind. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2655
Add to Lightbox - Lightbox

 
20130130_IMG_2663.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK with wind turbines behind. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2663
Add to Lightbox - Lightbox

 
20130130_IMG_2671.jpg The new biofuel power plant at the Iggesund paper board manufacturer in Workington, Cumbria, UK. When commissioned the power station will fuel the pant as well as feeding power into the grid.
 
20130130_IMG_2671
Add to Lightbox - Lightbox

 
20130105_B18A8120.jpg Locals queueing to fill up containers with water at a well in Patan Durbar Square in Kathmandu, Nepal. The square is a UNESCO World Heritage Site.
 
20130105_B18A8120
Add to Lightbox - Lightbox

 
20130105_B18A8121.jpg Locals queueing to fill up containers with water at a well in Patan Durbar Square in Kathmandu, Nepal. The square is a UNESCO World Heritage Site.
 
20130105_B18A8121
Add to Lightbox - Lightbox

 
20070315_366W6994.jpg Funafuti atol, Tuvalu, on the front line of the battle against global warming. Only 15 feet above sea level at the highest point (with many parts of the island lying at or barely above current sea levels) rising sea levels are increasingly putting the island population of 10,000 Tuvaluans at risk. It seems likely that this island nation will be the first country to disapear completely as a result of climate change/global warming. Sea levels in the Pacific have risen slowly over the last 20 years and the rate of rise seems likely to increase as ice sheets and glaciers melt more rapidly with ever warming temperatures. Tuvalu is the smallest country in the world, only 26 Km2, and most vulnerable to sea level rise. It lies close to the equator and virtually on the international date line. Ever rising seas threaten to make the island uninhabitable. Already during the highest tides, sea water is forced up through the porous coral atol and floods many low lying areas of the island during the highest tides. This salt water incursion poisons the thin soils and makes growing crops increasingly difficult, leaving the Tuvaluans increasingly dependant on expensive imports. As well as sea level rise the weather patterns are altering with a shift in the cyclone period by a month and an increase in stormy weather. The stormy weather is creating greater wave erosion and many parts of the island are suffering land loss, as palm trees are washed into the sea as the island is undercut by wave action.
 
20070315_366W6994
Add to Lightbox - Lightbox

 
20100304_IMG_7200.jpg The Yan Lang coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from an open cast coal mine across the road from it, as the Latrobe Valley has massive coal reserves close to the surface. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100304_IMG_7200
Add to Lightbox - Lightbox

 
20100304_IMG_7204.jpg The Yan Lang coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from an open cast coal mine across the road from it, as the Latrobe Valley has massive coal reserves close to the surface. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100304_IMG_7204
Add to Lightbox - Lightbox

 
20100304_IMG_7214.jpg The Yan Lang coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from an open cast coal mine across the road from it, as the Latrobe Valley has massive coal reserves close to the surface. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100304_IMG_7214
Add to Lightbox - Lightbox

 
20100304_IMG_7232.jpg The Yan Lang coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from an open cast coal mine across the road from it, as the Latrobe Valley has massive coal reserves close to the surface. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100304_IMG_7232
Add to Lightbox - Lightbox

 
20100304_IMG_7235.jpg The Yan Lang coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from an open cast coal mine across the road from it, as the Latrobe Valley has massive coal reserves close to the surface. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100304_IMG_7235
Add to Lightbox - Lightbox

 
20100304_IMG_7240.jpg The Yan Lang coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from this open cast coal mine across the road from it, as the Latrobe Valley has massive coal reserves close to the surface. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100304_IMG_7240
Add to Lightbox - Lightbox

 
20100305_IMG_7249.jpg The Hazelwood coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from a nearby open cast coal mine , as the Latrobe Valley has massive coal reserves close to the surface. The Hazelwood power plant is trialling carbon capture and storage. This technology is in its infancy and is as yet unproven on a large scale. The only safe place for coal is to leave it in the ground. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100305_IMG_7249
Add to Lightbox - Lightbox

 
20100305_IMG_7257.jpg The Hazelwood coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from a nearby open cast coal mine , as the Latrobe Valley has massive coal reserves close to the surface. The Hazelwood power plant is trialling carbon capture and storage. This technology is in its infancy and is as yet unproven on a large scale. The only safe place for coal is to leave it in the ground. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100305_IMG_7257
Add to Lightbox - Lightbox

 
20100305_IMG_7258.jpg Emissions from a coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from an open cast coal mine across the road from it, as the Latrobe Valley has massive coal reserves close to the surface. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100305_IMG_7258
Add to Lightbox - Lightbox

 
20100305_IMG_8723.jpg The Yan Lang coal fired power station in the Latrobe Valley, Victoria, Australia. It uses coal from an open cast coal mine across the road from it, as the Latrobe Valley has massive coal reserves close to the surface. The industry is responsible for destruction of the landscape as well as fueling climate change. Around 85% of all Australia's power comes from coal, to power a lifestyle which leaves Australians with the largest carbon footprint on the planet.
 
20100305_IMG_8723
Add to Lightbox - Lightbox

 
20100905_IMG_6108.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
20100905_IMG_6108
Add to Lightbox - Lightbox

 
20100905_IMG_6112.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
20100905_IMG_6112
Add to Lightbox - Lightbox

 
20100905_IMG_6134.jpg Capturing geothermal steam from boreholes to power the Svartsengi geothermal power station in Keflavik near Reykjavik in Iceland. The power station produces 76.5 MW of electricity as well as 475 litres per second of hot water for household heating. Icelands electricity is 100% renewable, made up of about 70% hydro and 30% geothermal.
 
20100905_IMG_6134
Add to Lightbox - Lightbox

 
20100911_IMG_6590 (1).jpg Krafla gwothermal power station near Myvatn, Iceland, it has an installed capacity of 60 MW of renewable electricity production, as well as supplying hot space heating water to the surrounding area. Iceland's electricity is produced 100% from renewables with aprox 70% from Hydro and 30% from geothermal.
 
20100911_IMG_6590 (1)
Add to Lightbox - Lightbox

 
20100911_IMG_6622 (1).jpg Krafla gwothermal power station near Myvatn, Iceland, it has an installed capacity of 60 MW of renewable electricity production, as well as supplying hot space heating water to the surrounding area. Iceland's electricity is produced 100% from renewables with aprox 70% from Hydro and 30% from geothermal.
 
20100911_IMG_6622 (1)
Add to Lightbox - Lightbox

 
20100911_IMG_6624.jpg Krafla gwothermal power station near Myvatn, Iceland, it has an installed capacity of 60 MW of renewable electricity production, as well as supplying hot space heating water to the surrounding area. Iceland's electricity is produced 100% from renewables with aprox 70% from Hydro and 30% from geothermal.
 
20100911_IMG_6624
Add to Lightbox - Lightbox

 
20100911_IMG_7646.jpg Krafla gwothermal power station near Myvatn, Iceland, it has an installed capacity of 60 MW of renewable electricity production, as well as supplying hot space heating water to the surrounding area. Iceland's electricity is produced 100% from renewables with aprox 70% from Hydro and 30% from geothermal.
 
20100911_IMG_7646
Add to Lightbox - Lightbox

 
20100911_IMG_7649.jpg Krafla gwothermal power station near Myvatn, Iceland, it has an installed capacity of 60 MW of renewable electricity production, as well as supplying hot space heating water to the surrounding area. Iceland's electricity is produced 100% from renewables with aprox 70% from Hydro and 30% from geothermal.
 
20100911_IMG_7649
Add to Lightbox - Lightbox

 
20100911_IMG_7655.jpg Krafla gwothermal power station near Myvatn, Iceland, it has an installed capacity of 60 MW of renewable electricity production, as well as supplying hot space heating water to the surrounding area. Iceland's electricity is produced 100% from renewables with aprox 70% from Hydro and 30% from geothermal.
 
20100911_IMG_7655
Add to Lightbox - Lightbox

 
IMG_4266.jpg The Bacton gas terminal at Bacton in Norfolk, UK. It contains five gas terminals and feeds into the National Grid as well as being connected to both Belgium and Holland via pipelines.
 
IMG_4266
Add to Lightbox - Lightbox

 
IMG_4270.jpg The Bacton gas terminal at Bacton in Norfolk, UK. It contains five gas terminals and feeds into the National Grid as well as being connected to both Belgium and Holland via pipelines.
 
IMG_4270
Add to Lightbox - Lightbox

 
20120808IMG_5112.jpg An oil company sponsored leisure centre in Fort McMurray which is the centre of the Athabasca tar sands, the world's third largest oil reserves, and the most environmentally damaging project on the planet. The tar sands have around three times the carbon footprint of conventional oil supplies, are responsible for the second largest rate of deforestation on the planet and are hugely toxic and polluting of the environment, as well as a disaster from a climate change perspective.
 
20120808IMG_5112
Add to Lightbox - Lightbox

 
20120810IMG_0617.jpg Housing in Fort McMurray which is the centre of the Athabasca tar sands, the world's third largest oil reserves, and the most environmentally damaging project on the planet. The tar sands have around three times the carbon footprint of conventional oil supplies, are responsible for the second largest rate of deforestation on the planet and are hugely toxic and polluting of the environment, as well as a disaster from a climate change perspective.
 
20120810IMG_0617
Add to Lightbox - Lightbox

 
20120810IMG_0755.jpg An air quality monitoring board in Fort McMurray which is the centre of the Athabasca tar sands, the world's third largest oil reserves, and the most environmentally damaging project on the planet. The tar sands have around three times the carbon footprint of conventional oil supplies, are responsible for the second largest rate of deforestation on the planet and are hugely toxic and polluting of the environment, as well as a disaster from a climate change perspective.
 
20120810IMG_0755
Add to Lightbox - Lightbox

 
20120810IMG_0759.jpg A leisure centre in Fort McMurray which is the centre of the Athabasca tar sands, the world's third largest oil reserves, and the most environmentally damaging project on the planet. The tar sands have around three times the carbon footprint of conventional oil supplies, are responsible for the second largest rate of deforestation on the planet and are hugely toxic and polluting of the environment, as well as a disaster from a climate change perspective.
 
20120810IMG_0759
Add to Lightbox - Lightbox

 
20120810IMG_0767.jpg A leisure centre in Fort McMurray which is the centre of the Athabasca tar sands, the world's third largest oil reserves, and the most environmentally damaging project on the planet. The tar sands have around three times the carbon footprint of conventional oil supplies, are responsible for the second largest rate of deforestation on the planet and are hugely toxic and polluting of the environment, as well as a disaster from a climate change perspective.
 
20120810IMG_0767
Add to Lightbox - Lightbox

 
20120810IMG_5548.jpg An oil company leisure centre in Fort McMurray which is the centre of the Athabasca tar sands, the world's third largest oil reserves, and the most environmentally damaging project on the planet. The tar sands have around three times the carbon footprint of conventional oil supplies, are responsible for the second largest rate of deforestation on the planet and are hugely toxic and polluting of the environment, as well as a disaster from a climate change perspective.
 
20120810IMG_5548
Add to Lightbox - Lightbox

 
20120811IMG_5584.jpg Helicopters used n the oil industry in Fort McMurray which is the centre of the Athabasca tar sands, the world's third largest oil reserves, and the most environmentally damaging project on the planet. The tar sands have around three times the carbon footprint of conventional oil supplies, are responsible for the second largest rate of deforestation on the planet and are hugely toxic and polluting of the environment, as well as a disaster from a climate change perspective.
 
20120811IMG_5584
Add to Lightbox - Lightbox

 
20120811IMG_5586.jpg Helicopters used n the oil industry in Fort McMurray which is the centre of the Athabasca tar sands, the world's third largest oil reserves, and the most environmentally damaging project on the planet. The tar sands have around three times the carbon footprint of conventional oil supplies, are responsible for the second largest rate of deforestation on the planet and are hugely toxic and polluting of the environment, as well as a disaster from a climate change perspective.
 
20120811IMG_5586
Add to Lightbox - Lightbox
l 1 l 2 l 3 l 4 l 5 l 6 l 7 l 8 l  

Media Per Page