Global Warming Images
 
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20121229_B18A6198.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6204.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6207.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6211.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6218.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6221.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6224.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_PC290076.jpg A gaping hole left where a massive block of ice detached causing an avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_PC290080.jpg A gaping hole left where a massive block of ice detached causing an avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121230_B18A6778.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121230_PC300115.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121230_PC300117.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121230_PC300122.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121231_B18A6978.jpg Debris from an avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121231_B18A6979.jpg Debris from an avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6210.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6216.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20121229_B18A6220.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
20121229_B18A6220
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20121229_B18A6222.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
20121229_B18A6222
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20121229_B18A6227.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
20121229_B18A6227
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20121230_PC300116.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
20121230_PC300116
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20121230_PC300121.jpg An avalanche on Machapuchare or Fishtail Peak in the Annapurna Himalaya, Nepal. It was caused by a massive block of glacial ice detaching from the summit cliffs of this 6993 metre tall peak on 29th December 2012. Such ice avalanches are more common in Spring and summer, as in winter, the ice is normally frozen and more stable. The avalanche descended around 12,000 feet, and covered trekkers on the valley path below in a dusting of snow.
 
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20110601_IMG_3721.jpg The Iznajar hydro electric power station near Antequera in Andalucia, Spain.
 
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20110601_IMG_3728.jpg The Iznajar hydro electric power station near Antequera in Andalucia, Spain.
 
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20110601_IMG_5037.jpg The Iznajar hydro electric power station near Antequera in Andalucia, Spain.
 
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20110601_IMG_5052.jpg The Iznajar hydro electric power station near Antequera in Andalucia, Spain.
 
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20110601_IMG_5078.jpg The Iznajar hydro electric power station near Antequera in Andalucia, Spain.
 
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20110601_IMG_5083.jpg The Iznajar hydro electric power station near Antequera in Andalucia, Spain.
 
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20110601_IMG_5085.jpg The Iznajar hydro electric power station near Antequera in Andalucia, Spain.
 
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20120516_IMG_0021.jpg The Shard in London, UK. The Shard at 310m or over 1000 feet tall, is the tallest building in Europe, with a plane flying past.
 
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20120516_IMG_0023.jpg The Shard in London, UK. The Shard at 310m or over 1000 feet tall, is the tallest building in Europe, with a plane flying past.
 
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20120516_IMG_0069.jpg The Shard in London, UK. The Shard at 310m or over 1000 feet tall, is the tallest building in Europe, with a plane flying past.
 
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20120516_IMG_0105.jpg The Shard in London, UK. The Shard at 310m or over 1000 feet tall, is the tallest building in Europe, with a plane flying past.
 
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20120516_IMG_0107.jpg The Shard in London, UK. The Shard at 310m or over 1000 feet tall, is the tallest building in Europe, with a plane flying past.
 
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20111214_20111214_0055.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20120226_IMG_1406.jpg England's tallest tree, a Grand Fir (Abies grandis), which was confirmed as the champion by the Tree Register last week. It is a towering 57.8 metres or 190 feet. It was planted around 1860 as part of an arboretum at the Wansfell Holme Country Estate (which can bee seen in the background), now known as Skelghyll woods in Ambleside, in the Lake District. This record breaking English tree is higher than Nelsons Column and taller than a dozen double decker buses stacked on top of each other.
 
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20120226_IMG_1407.jpg England's tallest tree, a Grand Fir (Abies grandis), which was confirmed as the champion by the Tree Register last week. It is a towering 57.8 metres or 190 feet. It was planted around 1860 as part of an arboretum at the Wansfell Holme Country Estate (which can bee seen in the background), now known as Skelghyll woods in Ambleside, in the Lake District. This record breaking English tree is higher than Nelsons Column and taller than a dozen double decker buses stacked on top of each other.
 
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20120226_IMG_1422.jpg England's tallest tree, a Grand Fir (Abies grandis), which was confirmed as the champion by the Tree Register last week. It is a towering 57.8 metres or 190 feet. It was planted around 1860 as part of an arboretum at the Wansfell Holme Country Estate (which can bee seen in the background), now known as Skelghyll woods in Ambleside, in the Lake District. This record breaking English tree is higher than Nelsons Column and taller than a dozen double decker buses stacked on top of each other.
 
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20120226_IMG_1436.jpg England's tallest tree, a Grand Fir (Abies grandis), which was confirmed as the champion by the Tree Register last week. It is a towering 57.8 metres or 190 feet. It was planted around 1860 as part of an arboretum at the Wansfell Holme Country Estate (which can bee seen in the background), now known as Skelghyll woods in Ambleside, in the Lake District. This record breaking English tree is higher than Nelsons Column and taller than a dozen double decker buses stacked on top of each other.
 
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20120226_IMG_1437.jpg England's tallest tree, a Grand Fir (Abies grandis), which was confirmed as the champion by the Tree Register last week. It is a towering 57.8 metres or 190 feet. It was planted around 1860 as part of an arboretum at the Wansfell Holme Country Estate (which can bee seen in the background), now known as Skelghyll woods in Ambleside, in the Lake District. This record breaking English tree is higher than Nelsons Column and taller than a dozen double decker buses stacked on top of each other.
 
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20111214_0040.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0041.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0042.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0044.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0046.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0047.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0048.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0050.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0051.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0052.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0053.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall, with a flock of Cormorants battling the wind.
 
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20111214_0054.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0055.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0056.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0057.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0058.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0060.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0061.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall.
 
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20111214_0062.jpg After 2 days of storm force winds the Irish sea on the West coast of Cumbria at Whitehaven was whipped up into a fury, with waves crashing over the tall harbour wall. With a flock of cormorants battling the wind
 
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366W4573 (1)_dammed.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4575 (1)_curve.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4584_Emerson.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4585 (1)_carriage.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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366W4588 (1)_dam wall.jpg Lake Emerson on the Swiss French border dammed to generate hydro electric power
 
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