Global Warming Images
 
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20130321_P3210054.jpg Hayeswater reservoir above Hartsop in Patterdale in unseasonally cold weather in late March 2013, Lake District, UK.
 
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20130321_P3210062.jpg Hayeswater reservoir above Hartsop in Patterdale in unseasonally cold weather in late March 2013, Lake District, UK.
 
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20130321_P3210104.jpg Hayeswater reservoir above Hartsop in Patterdale from High Street in unseasonally cold weather in late March 2013, Lake District, UK, looking towards the Helvellyn range.
 
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20130321_P3210188.jpg Hayeswater reservoir above Hartsop in Patterdale in unseasonally cold weather in late March 2013, Lake District, UK.
 
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20130321_P3210204.jpg Looking towards Helvellyn fom Gray Crag in the Lake District, UK during unseasonally cold weather in late March 2013.
 
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20130321_P3210207.jpg A walker on Gray Crag looking towards High Street and the Knott in unseasonally cold weather in late March 2013, Lake District, UK.
 
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20130321_P3210211.jpg A walker on Gray Crag looking towards the Knott in unseasonally cold weather in late March 2013, Lake District, UK.
 
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20130321_P3210221.jpg A walker on Gray Crag looking towards the Helvellyn Range in unseasonally cold weather in late March 2013, Lake District, UK.
 
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20130321_P3210275.jpg A walker on Gray Crag looking north towards Plaice Fell in unseasonally cold weather in late March 2013, Lake District, UK.
 
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20130321_P3210281.jpg Looking towards High Raise fom Gray Crag in the Lake District, UK during unseasonally cold weather in late March 2013.
 
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20130321_P3210336.jpg Wind sculpted snow on Gray Crag in the Lake district, UK, during unseasonally cold weather in late March 2013.
 
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20130321_P3210262.jpg The Knott High Street and Hayeswater in unseasonally cold weather in late March 2013, Lake District, UK, from Gray Crag,
 
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20130321_P3210298.jpg A walker on Gray Crag being battered by spindrift looking towards Stoney Cove Pike in the Lake District, UK during unseasonally cold weather in late March 2013.
 
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20130321_P3210302.jpg A walker on Gray Crag looking towards Stoney Cove Pike in the Lake District, UK during unseasonally cold weather in late March 2013.
 
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20130321_P3210314.jpg Drifting snow on Gray Crag above Pasture Bottom, Lake District, UK.
 
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20130321_P3210319.jpg A walker on Gray Crag being battered by spindrift looking towards the Helvellyn range in the Lake District, UK during unseasonally cold weather in late March 2013.
 
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20130321_P3210255.jpg Looking towards Helvellyn fom Gray Crag in the Lake District, UK during unseasonally cold weather in late March 2013.
 
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20130321_P3210283.jpg Looking towards the Helvellyn range from Gray Crag in the Lake District, UK during unseasonally cold weather in late March 2013.
 
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20130321_P3210242.jpg Looking towards Helvellyn fom Gray Crag in the Lake District, UK during unseasonally cold weather in late March 2013.
 
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20130321_P3210216.jpg Gray Crag looking towards the Helvellyn range in unseasonally cold weather in late March 2013, Lake District, UK, with drifting snow.
 
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20130225_B18A0203.jpg Lichen covered rocks on Great Carrs above Wrynose in the Lake District, Cumbria, UK, looking towards Crinkle Craggs and Bow Fell.
 
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20130225_B18A0216.jpg Lichen covered rocks on Swirl Howe above Wrynose in the Lake District, Cumbria, UK, looking towards Dow Crag and Coniston Old Man.
 
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20130225_B18A0258.jpg A walker passes lichen covered rocks on Great Carrs above Wrynose in the Lake District, Cumbria, UK, looking towards Crinkle Craggs and Bow Fell.
 
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20130225_B18A0268.jpg Sunset over Grey Friar and Harter Fell in the Lake District, UK, from Great Carrs.
 
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20130225_B18A0274.jpg Sunset over Harter Fell in the Lake District, UK, from Great Carrs.
 
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20130225_B18A0276.jpg Sunset over Harter Fell in the Lake District, UK, from Great Carrs.
 
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20070905_366W4224.jpg Mont Blanc from Chamonix France and the Bossons glacier one of the steepest glaciers in the world which is retreating rapidly due to global warming, with a wind turbine in the foreground.
 
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20080709_IMG_9999.jpg The Russells Glacier draining the Greenland icesheet inland from Kangerlussuaq on Greenlands west coast. This glacier has speeded up in recent years and is also receeding rapidly due to human induced climate change. Greenland has warmed nine degrees fahrenheit in the last 60 years. Scientists believe the glacier is moving faster as increased quantities of meltwater are flowing down through moulins to reach the base of the glacier which then acts as a lubricant and allows the glacier to flow faster. With a wind turbine.
 
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20120506_20120506_IMG_9118.jpg The Cuillin mountains and Glamaig on the road from Sligachan, Isle of Skye, Scotland, UK. with a wind turbine in the foreground.
 
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20070905_366W4224_solar.jpg Mont Blanc from Chamonix France and the Bossons glacier one of the steepest glaciers in the world which is retreating rapidly due to global warming, with solar panels in the foreground.
 
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20080709_IMG_9999_solar.jpg The Russells Glacier draining the Greenland icesheet inland from Kangerlussuaq on Greenlands west coast. This glacier has speeded up in recent years and is also receeding rapidly due to human induced climate change. Greenland has warmed nine degrees fahrenheit in the last 60 years. Scientists believe the glacier is moving faster as increased quantities of meltwater are flowing down through moulins to reach the base of the glacier which then acts as a lubricant and allows the glacier to flow faster. with solar panels in the foreground.
 
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20080710_366W5919.jpg An Inuit fishing boat sails through Icebergs from the Jacobshavn glacier or Sermeq Kujalleq drains 7% of the Greenland ice sheet and is the largest glacier outside of Antarctica. It calves enough ice in one day to supply New York with water for one year. It is one of the fastest moving glaciers in the world at up to 40 metres per day (19 metres per day before 2002) and has also receeded rapidly (40 km since 1850) due to human induced climate change as temperatures have risen in Greenland by 9 degrees fahrenheit in the last 60 years. An underwater moraine at the mouth of the fjord grounds the largest icebergs causing a backlog of ice completely blocking the entire length of the fjord with ice. with solar panels in the foreground.
 
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20080723_366W8748.jpg Icebergs from the Jacobshavn glacier or Sermeq Kujalleq drains 7% of the Greenland ice sheet and is the largest glacier outside of Antarctica. It calves enough ice in one day to supply New York with water for one year. It is one of the fastest moving glaciers in the world at up to 40 metres per day (19 metres per day before 2002) and has also receeded rapidly (40 km since 1850) due to human induced climate change as temperatures have risen in Greenland by 9 degrees fahrenheit in the last 60 years. An underwater moraine at the mouth of the fjord grounds the largest icebergs causing a backlog of ice completely blocking the entire length of the fjord with ice. with solar panels in the foreground.
 
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20080723_366W8947.jpg Icebergs from the Jacobshavn glacier or Sermeq Kujalleq drains 7% of the Greenland ice sheet and is the largest glacier outside of Antarctica. It calves enough ice in one day to supply New York with water for one year. It is one of the fastest moving glaciers in the world at up to 40 metres per day (19 metres per day before 2002) and has also receeded rapidly (40 km since 1850) due to human induced climate change as temperatures have risen in Greenland by 9 degrees fahrenheit in the last 60 years. An underwater moraine at the mouth of the fjord grounds the largest icebergs causing a backlog of ice completely blocking the entire length of the fjord with ice. with solar panels in the foreground.
 
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20120526IMG_9097.jpg Watendlath beck off the Borrowdale Valley near Keswick, Lake District, UK.
 
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20120528IMG_9176.jpg A fish ladder in a weir on the River Kent in Kendal, Cumbria, UK.
 
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20120528IMG_9179.jpg Raw sewage mixing with clean clear water in the river Kent in Kendal, Cumbria, UK.
 
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20120528IMG_9181.jpg Raw sewage mixing with clean clear water in the river Kent in Kendal, Cumbria, UK.
 
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20120528IMG_9184.jpg Raw sewage mixing with clean clear water in the river Kent in Kendal, Cumbria, UK.
 
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20120528IMG_9188.jpg A fish ladder in a weir on the River Kent in Kendal, Cumbria, UK.
 
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20120528IMG_9192.jpg A fish ladder in a weir on the River Kent in Kendal, Cumbria, UK.
 
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20120528IMG_9198.jpg A fish ladder in a weir on the River Kent in Kendal, Cumbria, UK.
 
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20120528IMG_9203.jpg A fish ladder in a weir on the River Kent in Kendal, Cumbria, UK.
 
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20120528IMG_9211.jpg Water weed in the River Kent in Kendal, Cumbria, UK.
 
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20120526IMG_9154.jpg Bluebells and woodland in Troutdale, off the Borrowdale valley near Keswick in the Lake District, UK.
 
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20120511_IMG_7675.jpg An old tractor abandoned at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7687.jpg An old tractor abandoned at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7741.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows the inverters for all the various renewable generators on the island.
 
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20120511_IMG_7742.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows the inverters for all the various renewable generators on the island.
 
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20120511_IMG_7744.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows Jamie Ardagh, a crofter and Eigg Electric employee checking the inverters from the various renewable sources.
 
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20120511_IMG_7746.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows Jamie Ardagh, a crofter and Eigg Electric employee checking the inverters from the various renewable sources.
 
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20120511_IMG_7748.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows Jamie Ardagh, a crofter and Eigg Electric employee checking the inverters from the various renewable sources.
 
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20120511_IMG_7755.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows the inverters from the various renewable devices.
 
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20120511_IMG_7756.jpg The Isle of Eigg off Scotland's west coast, shows the way forward to a renewable future. in 1997 the island was purchased from its fuedal landlord by the Eigg Heritage Trust, a partnership between the islanders, the Highland Council and the Scottish Wildlife Trust. At that point the elctricity was provided by each house haviong a noisy, polluting and expensive diesel generator, as the island is not connected to the grid. In 2008 the islanders decided to turn to a green solution. Eigg Electric was set up and developed a grid for the island with the energy produced by 3 hydro schemes, one 100 Kw and two 5-6 Kw, four wind turbines producing 24 Kw and 2 aarrays of solar panels producing 10Kw, a total of 144 Kw. This is enough to power the homes of the 90 residents. Each is restricted to using 5Kw maximum at any one time. This avoids spikes in demand, which is the curse of all electric grids. The renewables power the island 98% of the time, with diesel generators automatically kicking in when needed. An array of batteries also stores excess production, giving the island a 24 hour backup if everything fails. This shot shows the inverters from the various renewable devices.
 
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20120511_IMG_7788.jpg A house at Laig Bay on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7800.jpg The Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7814.jpg The Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7821.jpg The Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7822.jpg Rock formations and sea weed at the Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7859.jpg Rock formations and sea weed at the Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7870.jpg Rock formations and sea weed at the Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7876.jpg Rock formations and sea weed at the Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7889.jpg Rock formations and sea weed at the Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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20120511_IMG_7890.jpg Rock formations and sea weed at the Bay of Laig at Cleadale on the Isle of Eigg, looking towards the Isle of Rhum, Scotland, UK.
 
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