Global Warming Images
 
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20100207_IMG_2426.jpg A farmers watering hole on a farm near Shepperton, Victoria, Australia, almost dried up. Victoria and New South Wales have been gripped by the worst drought in living memory for the last 15 years. River levels have dropped, water holes have dried up and stocking rates on many farms have dropped as the land can no longer support as many beasts.
 
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20100207_IMG_5223.jpg A farmers watering hole on a farm near Shepperton, Victoria, Australia, almost dried up. Victoria and New South Wales have been gripped by the worst drought in living memory for the last 15 years. River levels have dropped, water holes have dried up and stocking rates on many farms have dropped as the land can no longer support as many beasts.
 
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20100208_IMG_5424.jpg A farmers watering hole on a farm near Shepperton, Victoria, Australia, totally dried up. Victoria and New South Wales have been gripped by the worst drought in living memory for the last 15 years. River levels have dropped, water holes have dried up and stocking rates on many farms have dropped as the land can no longer support as many beasts.
 
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20100713_IMG_4176.jpg Thirlmere reservoir in the Lake District UK, with a hosepipe ban in affect in the North West. United Utilities applied for the drought order, after the driest start to the year since 1929, with less than 50% of normal rainfall. The drought comes hot on the heals of the worst floods that Cumbria has ever seen, when in November 2009, United Utilities had to open the emergency valves to let water out, as the dam was in danger of collapsing when the water reached unprecendented high levels. Climate modelling shows that as the atmosphere warms we are more likely to move to a cycle of flood followed by drought.
 
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20120310_0017.jpg Swithland Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling redicts the south and east of the UK will get progressively drier.
 
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20120310_0020.jpg Straw bales in Cropston Reservoir in Leicestershire put in to try and combat the growth of blue green algae. Climate change driven drought and warmer temperatures are increasing the incidence of blue green algae in many water bodies.
 
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20120310_0023.jpg Straw bales in Cropston Reservoir in Leicestershire put in to try and combat the growth of blue green algae. Climate change driven drought and warmer temperatures are increasing the incidence of blue green algae in many water bodies.
 
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20120310_0024.jpg A measuring depth guage at Cropston Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling predicts the south and east of the UK will get progressively drier.
 
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20120310_0025.jpg A measuring depth guage at Cropston Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling predicts the south and east of the UK will get progressively drier.
 
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20120310_0026.jpg A measuring depth guage left high and dry at Cropston Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling predicts the south and east of the UK will get progressively drier.
 
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20120310_0027.jpg A measuring depth guage left high and dry at Cropston Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling predicts the south and east of the UK will get progressively drier.
 
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20120310_0028.jpg A measuring depth guage left high and dry at Cropston Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling predicts the south and east of the UK will get progressively drier.
 
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20120310_20120310_0019.jpg The overflow of Swithland Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling redicts the south and east of the UK will get progressively drier.
 
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20120310_IMG_2930.jpg A measuring depth guage left high and dry at Cropston Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling predicts the south and east of the UK will get progressively drier.
 
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20120310_IMG_2939.jpg A measuring depth guage left high and dry at Cropston Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling predicts the south and east of the UK will get progressively drier.
 
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20120310_IMG_2943.jpg A measuring depth guage left high and dry at Cropston Reservoir near Loughborough in Leicestershire taken in early March 2012. At the end of winter reservoir levels in the UK are normally full and often overflowing the spillway. following 2 dry winters and summers many reservoirs are well down with a hosepipe ban being introduced in many eastern areas. It is the earliest a hosepipe ban has ever been introduced in the UK. Climate change modelling predicts the south and east of the UK will get progressively drier.
 
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IMG_1585_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1587_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1594_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1598_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1607_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1609_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1615_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1625_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1627_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1629_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1633_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1636_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1638_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1656_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1666_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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IMG_1670_p.jpg A geothermal energy project by Newcastle University, funded by the Dept of Energy and Climate Change. This project involves drilling 6,000 feet beneath Newcastle, on the site of the old Newcastle Brown Brewery. At this depth, the geothermally heated water is 80 degrees C. The plan is for this renewable energy source to provide space heating for a shopping centre and University buildings.
 
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