Discharge and suspended sediment dynamics in an Indian Himalayan river system

A pure, clean and reliable water supply is of paramount importance in India where meeting the requirements of a rising population is one of the big challenges of the 21st century. Climate change in the Indian subcontinent, identified by the Intergovernmental Panel on Climate Change (IPCC, 2013) as t...

Full description

Bibliographic Details
Main Authors: Stott, TA, NUTTALL, A
Format: Article in Journal/Newspaper
Language:English
Published: Indian Association of Hydrologists 2016
Subjects:
GB Physical geography
Antarctic
The Antarctic
Greenland
Indian
Morton
Antarc*
Online Access:http://researchonline.ljmu.ac.uk/id/eprint/4012/
https://researchonline.ljmu.ac.uk/id/eprint/4012/3/STOTT%20Ladakh%20Q%20and%20suspended%20sediment%20paper%20v1%2024-Dec-14.pdf
http://117.252.14.242/iah/chp3.html
id ftliverpooljmu:oai:researchonline.ljmu.ac.uk:4012
record_format openpolar
spelling ftliverpooljmu:oai:researchonline.ljmu.ac.uk:4012 2023-05-15T14:00:10+02:00 Discharge and suspended sediment dynamics in an Indian Himalayan river system Stott, TA NUTTALL, A 2016-12-01 text http://researchonline.ljmu.ac.uk/id/eprint/4012/ https://researchonline.ljmu.ac.uk/id/eprint/4012/3/STOTT%20Ladakh%20Q%20and%20suspended%20sediment%20paper%20v1%2024-Dec-14.pdf http://117.252.14.242/iah/chp3.html en eng Indian Association of Hydrologists https://researchonline.ljmu.ac.uk/id/eprint/4012/3/STOTT%20Ladakh%20Q%20and%20suspended%20sediment%20paper%20v1%2024-Dec-14.pdf Stott, TA and NUTTALL, A (2016) Discharge and suspended sediment dynamics in an Indian Himalayan river system. Hydrology Journal, Indian Association of Hydrologists, 38/39. p. 28. GB Physical geography Article NonPeerReviewed 2016 ftliverpooljmu 2022-01-09T06:51:28Z A pure, clean and reliable water supply is of paramount importance in India where meeting the requirements of a rising population is one of the big challenges of the 21st century. Climate change in the Indian subcontinent, identified by the Intergovernmental Panel on Climate Change (IPCC, 2013) as the region with the highest level of climate instability, is of major concern (Immerzeel et al., 2010; Morton, 2011). In 2010 the floods in the Indus basin were the worst in history (Hobley et al., 2012). Two thousand people died in Pakistan and in the high-altitude desert of Ladakh, intense rain and floods centred around Leh, washed away homes and villages and killed 200 people. At present, 10 % of the earth’s land-mass is covered with snow. Of this total area, 84.16 % is in the Antarctic, 13.9 % in Greenland, 0.77 % in the Himalaya, 0.51 % in North America, 0.37 % in Africa, 0.15 % in South America, and 0.06 % in Europe. Outside the Polar Regions, the Himalaya has the maximum concentration of glaciers – 9.04 % of its area. An additional 30-to-40 % is covered with snow. The glaciers of the Himalaya are the Third Pole (Dyhrenfurth, 2011). They feed the giant rivers of Asia, support half of humanity and can have a significant influence on regional water availability (Immerzeel et al., 2009). Recent studies have confirmed the important role of high mountain areas of the world as sources of freshwater for the population living in the adjacent lowlands (eg. Bandyopadhyay et al., 1997; Viviroli &Weingartner, 2004; Barnett et al., 2005; Viviroli et al., 2007; Thayyen & Gergan, 2010) Despite the hydrological importance of glaciers for the adjoining lowlands, data on the glaciers of the Himalaya, Karakorum, and Hindu Kush ranges are sparse and inconsistent. There is a lack of long-term series and field investigations, especially for glaciers at higher altitudes (Armstrong, 2010; Schmidt & Nüsser, 2012). Article in Journal/Newspaper Antarc* Antarctic Greenland Liverpool John Moores University: LJMU Research Online Antarctic The Antarctic Greenland Indian Morton ENVELOPE(-61.220,-61.220,-62.697,-62.697)
institution Open Polar
collection Liverpool John Moores University: LJMU Research Online
op_collection_id ftliverpooljmu
language English
topic GB Physical geography
spellingShingle GB Physical geography
Stott, TA
NUTTALL, A
Discharge and suspended sediment dynamics in an Indian Himalayan river system
topic_facet GB Physical geography
description A pure, clean and reliable water supply is of paramount importance in India where meeting the requirements of a rising population is one of the big challenges of the 21st century. Climate change in the Indian subcontinent, identified by the Intergovernmental Panel on Climate Change (IPCC, 2013) as the region with the highest level of climate instability, is of major concern (Immerzeel et al., 2010; Morton, 2011). In 2010 the floods in the Indus basin were the worst in history (Hobley et al., 2012). Two thousand people died in Pakistan and in the high-altitude desert of Ladakh, intense rain and floods centred around Leh, washed away homes and villages and killed 200 people. At present, 10 % of the earth’s land-mass is covered with snow. Of this total area, 84.16 % is in the Antarctic, 13.9 % in Greenland, 0.77 % in the Himalaya, 0.51 % in North America, 0.37 % in Africa, 0.15 % in South America, and 0.06 % in Europe. Outside the Polar Regions, the Himalaya has the maximum concentration of glaciers – 9.04 % of its area. An additional 30-to-40 % is covered with snow. The glaciers of the Himalaya are the Third Pole (Dyhrenfurth, 2011). They feed the giant rivers of Asia, support half of humanity and can have a significant influence on regional water availability (Immerzeel et al., 2009). Recent studies have confirmed the important role of high mountain areas of the world as sources of freshwater for the population living in the adjacent lowlands (eg. Bandyopadhyay et al., 1997; Viviroli &Weingartner, 2004; Barnett et al., 2005; Viviroli et al., 2007; Thayyen & Gergan, 2010) Despite the hydrological importance of glaciers for the adjoining lowlands, data on the glaciers of the Himalaya, Karakorum, and Hindu Kush ranges are sparse and inconsistent. There is a lack of long-term series and field investigations, especially for glaciers at higher altitudes (Armstrong, 2010; Schmidt & Nüsser, 2012).
format Article in Journal/Newspaper
author Stott, TA
NUTTALL, A
author_facet Stott, TA
NUTTALL, A
author_sort Stott, TA
title Discharge and suspended sediment dynamics in an Indian Himalayan river system
title_short Discharge and suspended sediment dynamics in an Indian Himalayan river system
title_full Discharge and suspended sediment dynamics in an Indian Himalayan river system
title_fullStr Discharge and suspended sediment dynamics in an Indian Himalayan river system
title_full_unstemmed Discharge and suspended sediment dynamics in an Indian Himalayan river system
title_sort discharge and suspended sediment dynamics in an indian himalayan river system
publisher Indian Association of Hydrologists
publishDate 2016
url http://researchonline.ljmu.ac.uk/id/eprint/4012/
https://researchonline.ljmu.ac.uk/id/eprint/4012/3/STOTT%20Ladakh%20Q%20and%20suspended%20sediment%20paper%20v1%2024-Dec-14.pdf
http://117.252.14.242/iah/chp3.html
long_lat ENVELOPE(-61.220,-61.220,-62.697,-62.697)
geographic Antarctic
The Antarctic
Greenland
Indian
Morton
geographic_facet Antarctic
The Antarctic
Greenland
Indian
Morton
genre Antarc*
Antarctic
Greenland
genre_facet Antarc*
Antarctic
Greenland
op_relation https://researchonline.ljmu.ac.uk/id/eprint/4012/3/STOTT%20Ladakh%20Q%20and%20suspended%20sediment%20paper%20v1%2024-Dec-14.pdf
Stott, TA and NUTTALL, A (2016) Discharge and suspended sediment dynamics in an Indian Himalayan river system. Hydrology Journal, Indian Association of Hydrologists, 38/39. p. 28.
_version_ 1766269151909773312

Similar Items