Kolahoi Peak Explained

Elevation M:5425
Range:Himalayas
Listing:Mountains of India
Map:India Jammu and Kashmir
Label Position:right
Location:Anantnag Jammu and Kashmir, India
Coordinates:34.1644°N 75.3269°W
First Ascent:1912 by Dr Ernest Neve,
United Kingdom
Easiest Route:Aru Pahalgam

Kolahoi Peak (locally called 'Gashe-braed' meaning Illuminated Cat) is a mountain with peak elevation of 5425m (17,799feet) located in Lidder Valley, Jammu and Kashmir. Kolahoi Peak is easily accessible through Aru Pahalgam. The mountain is the highest mountain in Kashmir Division. Kolahoi Peak is part of the Great Himalayan range, and is located 16 km south of Kashmir. Accessible through the pathway of Aru Pahalgam, this mountain stands tall as the crowned jewel of the Kashmir Division.

Kolahoi Peak proudly claims its title as the highest peak in the Great Himalayan range.

From the icy embrace of Kolahoi's glacier emerges the lifeblood of the region, the Lidder River Pahalgam. Meandering southward, this tributary is a vital source for both drinking and irrigation in south Kashmir.

Kolahoi Peak rises from the Kolahoi Glacier is a pyramid-shaped peak with ice falls and ice fields at its bottom. The rock formation of the peak is extraordinary stable with aretes and ridges.[1]

Climbing history and routes

Kolahoi Peak was first climbed by a British medical team headed by Dr Ernest Neve in 1912.[2]

The easiest route to climb Kolahoi Peak is its southern face via the Aru village near Pahalgam, from which a 21 km high altitude alpine trek leads to the glacier of the peak.

On 7 September 2018, a team of mountaineers while descending after successful summit were hit by rockfall debris, which killed two of them.[3]

The first ever Kolahoi Greater traverse was completed successfully on 11 to 13 September of 2023 led by Inayat Ullah Bhat with Raja Waseem and Laway Mudasir. They traversed a total of 6.21 miles from the Southern glacier to the Northern glacier reaching the summit of Neve-Mason couloir of Kolahoi peak.

Kolahoi Glacier

Kolhai Glacier
Type:Mountain glacier
Location:Anantnag Jammu and Kashmir, India
Coords:34.1722°N 75.3361°W
Length:5km (03miles) in 1974

Kolahoi glacier lies at an average elevation of . The origin of the glacier is below the cirques on the north flank of Kolahoi Peak. It is the main source of Lidder River, whose water serves the population of Anantnag district, where it is mainly used for drinking and agricultural purposes. It finally drains into the Jhelum River near Khanaba.

Kolahoi Glacier is among the victims of global warming,[4] and has shrunk in area[5] from 13.57 km2 in 1963 to 10.69 km2 in 2005 or a loss of 2.88 km2 in three decades.[6] In 1974 the glacier was about 5 km long and is known to have extended for at least 35 km during the Pleistocene.[7] A detailed analysis by Rafiq and Mishra[8] reported that the glacier has shrunk from 35 to 09.88 Sq Km. The rate of recession measured from 1922 to 2015 is reported to be 73.26 m per year. Furthermore, the rate of recession of snout is found to be 16.41 m per year from 1857 to 2015. The shirking of glacier area is linked to reduction in snow depth which in turn is affected by the increase in black carbon concentration, temperature and reduction in precipitation. Reanalysis data show that there is decrease of about 1.08 ± 0.65 cm per decade in snow depth over Kolahoi glacier during 1979 to 2013. There are decadal increasing trends of about 76 nanogram/m2 (statistically significant) and 0.39 °C (insignificant) in black carbon concentration and temperature, respectively, over Kolahoi. A decreasing trend of about 2.9 mm/month per decade in precipitation over the study area is also reported. It is reported that there is decrease of about 71 ± 24% in snow depth for each degree increase in temperature over Kolahoi.[9] Reduction in snow depth as a result of increase in black carbon concentration, temperature and reduction in precipitation might have resulted in the shrinking of the Kolahoi glacier. According to another report,[10] Kolahoi is a hanging glacier and hollowed inside. It is a matter of great concern for Kashmir Valley. Many expeditions have failed here.

See also

Notes and References

  1. Web site: EXPEDITIONS : Himalayan Journal vol.16/8. www.himalayanclub.org. 2019-01-28.
  2. Web site: Kolahoi first climbed. Alpine Journal . 2012-04-25.
  3. Web site: KAS officer among 2 feared dead in Kolahoi glacier accident. greaterkashmir.com. 2018-09-08. 8 September 2018.
  4. Web site: Goddess glacier melting in war-torn Kashmir. https://web.archive.org/web/20100327105027/http://news.nationalgeographic.com/news/2010/03/100324-himalaya-glacier-melt-water/. dead. 27 March 2010. national geographic.com. 2012-04-24. 26 March 2010.
  5. Web site: Kashmir's crown Kolahoi glacier is in deep water. TERI.
  6. http://recent-science.com/index.php/rrst/article/viewFile/8645/4404 Kanth, T.A., Aijaz Ahmad Shah and Zahoor ul Hassan; Geomorphologic Character & Receding Trend of Kolahoi Glacier in Kashmir Himalaya, Recent Research in Science and Technology 2011, 3(9): 68-73
  7. Glacial History of Kolahoi Glacier, Kashmir, India . https://web.archive.org/web/20131211170052/http://www.igsoc.org/journal.old/13/68/igs_journal_vol13_issue068_pg279-283.pdf . dead . 2013-12-11 . N. Ahmed . N. H. Hashimi . Journal of Glaciology . 13 . 68 . 279–283 . 1974 . 2012-04-16 . 1974JGlac..13..279A . 10.1017/S002214300002308X . free .
  8. Rafiq. Mohammd. Mishra. Anoop. 2016-11-25. Investigating changes in Himalayan glacier in warming environment: a case study of Kolahoi glacier. Environmental Earth Sciences. 75. 23. 10.1007/s12665-016-6282-1. 1866-6280.
  9. Mishra. Anoop Kumar. Rafiq. Mohammd. September 2017. Analyzing snowfall variability over two locations in Kashmir, India in the context of warming climate. Dynamics of Atmospheres and Oceans. 79. 1–9. 10.1016/j.dynatmoce.2017.05.002. 0377-0265. 2017DyAtO..79....1M.
  10. Web site: Kolahoi: Hanging and hollowed inside. hoparoundindia.com. 2012-04-27.
  11. Web site: Kolahoi: His life would come to an end on the alpines he had become synonymous with. . Mahmood A. Shah. 2018-09-25. 16 September 2018 .