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DUKAS_181695820_SON
PILLARS OF NORTHERN LIGHTS BY OLIVIER JARRY-LACOMBE
PILLARS OF NORTHERN LIGHTS! Recent solar activity across the Arctic regions has afforded some exceptional aerial phenomena caused by ice fog. Light pillars were spotted in the skies above Karesuvanto in Finland and Kiruna in Sweden this week.
Photographer, Olivier Jarry-Lacombe said, “Sometimes, a thin layer of ice fog is present and it is then that an exceptional phenomenon can occur that is only visible in the Arctic or Antarctic polar territory, known as light pillars. A light pillar or ice pillar is an atmospheric optical phenomenon in which a vertical beam of light appears to extend above and sometimes below a light source, over the entire height of the ice cloud.”
“The effect is created by the reflection of light from tiny ice crystals suspended in the atmosphere or that make up high-altitude clouds. Pillars of light can be caused by the Sun, Moon or terrestrial sources, such as street lights, vehicles and illuminated signs. And when you are very lucky, auroras and pillars of light come together for an exceptional spectacle.” (FOTO: DUKAS/SOLENT NEWS)
(c) Dukas -
DUKAS_181695814_SON
PILLARS OF NORTHERN LIGHTS BY OLIVIER JARRY-LACOMBE
PILLARS OF NORTHERN LIGHTS! Recent solar activity across the Arctic regions has afforded some exceptional aerial phenomena caused by ice fog. Light pillars were spotted in the skies above Karesuvanto in Finland and Kiruna in Sweden this week.
Photographer, Olivier Jarry-Lacombe said, “Sometimes, a thin layer of ice fog is present and it is then that an exceptional phenomenon can occur that is only visible in the Arctic or Antarctic polar territory, known as light pillars. A light pillar or ice pillar is an atmospheric optical phenomenon in which a vertical beam of light appears to extend above and sometimes below a light source, over the entire height of the ice cloud.”
“The effect is created by the reflection of light from tiny ice crystals suspended in the atmosphere or that make up high-altitude clouds. Pillars of light can be caused by the Sun, Moon or terrestrial sources, such as street lights, vehicles and illuminated signs. And when you are very lucky, auroras and pillars of light come together for an exceptional spectacle.” (FOTO: DUKAS/SOLENT NEWS)
(c) Dukas -
DUKAS_181695809_SON
PILLARS OF NORTHERN LIGHTS BY OLIVIER JARRY-LACOMBE
PILLARS OF NORTHERN LIGHTS! Recent solar activity across the Arctic regions has afforded some exceptional aerial phenomena caused by ice fog. Light pillars were spotted in the skies above Karesuvanto in Finland and Kiruna in Sweden this week.
Photographer, Olivier Jarry-Lacombe said, “Sometimes, a thin layer of ice fog is present and it is then that an exceptional phenomenon can occur that is only visible in the Arctic or Antarctic polar territory, known as light pillars. A light pillar or ice pillar is an atmospheric optical phenomenon in which a vertical beam of light appears to extend above and sometimes below a light source, over the entire height of the ice cloud.”
“The effect is created by the reflection of light from tiny ice crystals suspended in the atmosphere or that make up high-altitude clouds. Pillars of light can be caused by the Sun, Moon or terrestrial sources, such as street lights, vehicles and illuminated signs. And when you are very lucky, auroras and pillars of light come together for an exceptional spectacle.” (FOTO: DUKAS/SOLENT NEWS)
(c) Dukas -
DUK10123628_012
NEWS - Bedrohte Gletscher auf Grönland
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat on July 2, 2016.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves. Greenland//KONRADK_cryosphere-001/1909240910/Credit:KONRAD K./SIPA/1909240913 (FOTO: DUKAS/SIPA) *** Local Caption *** 00924874
(c) Dukas -
DUK10123628_003
NEWS - Bedrohte Gletscher auf Grönland
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat on July 2, 2016.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves. Greenland//KONRADK_cryosphere-009/1909240911/Credit:KONRAD K./SIPA/1909240913 (FOTO: DUKAS/SIPA) *** Local Caption *** 00924874
(c) Dukas -
DUK10123628_010
NEWS - Bedrohte Gletscher auf Grönland
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat on July 2, 2016.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves. Greenland//KONRADK_cryosphere-013/1909240911/Credit:KONRAD K./SIPA/1909240913 (FOTO: DUKAS/SIPA) *** Local Caption *** 00924874
(c) Dukas -
DUK10123628_009
NEWS - Bedrohte Gletscher auf Grönland
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat on July 2, 2016.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves. Greenland//KONRADK_cryosphere-010/1909240911/Credit:KONRAD K./SIPA/1909240913 (FOTO: DUKAS/SIPA) *** Local Caption *** 00924874
(c) Dukas -
DUK10123628_015
NEWS - Bedrohte Gletscher auf Grönland
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat on July 2, 2016.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves. Greenland//KONRADK_cryosphere-011/1909240911/Credit:KONRAD K./SIPA/1909240913 (FOTO: DUKAS/SIPA) *** Local Caption *** 00924874
(c) Dukas -
DUK10123628_014
NEWS - Bedrohte Gletscher auf Grönland
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat on July 2, 2016.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves. Greenland//KONRADK_cryosphere-012/1909240911/Credit:KONRAD K./SIPA/1909240913 (FOTO: DUKAS/SIPA) *** Local Caption *** 00924874
(c) Dukas -
DUK10031081_004
FEATURE - Eisberge in Grönland
On the picture a calving event in front of equi glacier.
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat. It is possible by boat to get very close to the glacier and experience huge pieces of ice breaking off. The sounds are enormous and the sight of the icebergs, crashing into the water, is breathtaking.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves, generally these tsunami are moderate, but in some case big events can occur, during the collapse of a 200m high ice cliff caused a tsunami wave of 50m heights. July 2, 2016.//KONRADK_1243.009/Credit:KONRAD K./SIPA/1607131313 (FOTO: DUKAS/SIPA) *** Local Caption *** 00764211
(c) Dukas -
DUK10031081_005
FEATURE - Eisberge in Grönland
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat. It is possible by boat to get very close to the glacier and experience huge pieces of ice breaking off. The sounds are enormous and the sight of the icebergs, crashing into the water, is breathtaking.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves, generally these tsunami are moderate, but in some case big events can occur, during the collapse of a 200m high ice cliff caused a tsunami wave of 50m heights. June 30, 2016.//KONRADK_1243.017/Credit:KONRAD K./SIPA/1607131313 (FOTO: DUKAS/SIPA) *** Local Caption *** 00764211
(c) Dukas -
DUK10031081_011
FEATURE - Eisberge in Grönland
The Eqi Glacier in west Greenland, which ends in the fiord 80 kilometres north of Ilulissat. It is possible by boat to get very close to the glacier and experience huge pieces of ice breaking off. The sounds are enormous and the sight of the icebergs, crashing into the water, is breathtaking.
Eqip Sermia, an ocean-terminating glacier, shows lots calving of iceberg. In some cases, these calving events can cause tsunami waves, generally these tsunami are moderate, but in some case big events can occur, during the collapse of a 200m high ice cliff caused a tsunami wave of 50m heights. June 29, 2016.//KONRADK_1243.011/Credit:KONRAD K./SIPA/1607131313 (FOTO: DUKAS/SIPA) *** Local Caption *** 00764210
(c) Dukas