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Meltwater

October 15, 2023

For other uses, see Meltwater (disambiguation).

Meltwater (or melt water) is water released by the melting of snow or ice, including glacial ice, tabular icebergs and ice shelves over oceans. Meltwater is often found during early spring when snow packs and frozen rivers melt with rising temperatures, and in the ablation zone of glaciers where the rate of snow cover is reducing. Meltwater can be produced during volcanic eruptions, in a similar way in which the more dangerous lahars form.

Meltwater in early spring in a stream in Pennsylvania, USA
Meltwater from Mount Edith Cavell Cavell Glacier
Meltwater transfer from sea ice surface melt ponds to the ocean during MOSAiC Expedition

When meltwater pools on the surface rather than flowing, it forms melt ponds. As the weather gets colder meltwater will often re-freeze. Meltwater can also collect or melt under the ice's surface. These pools of water, known as subglacial lakes can form due to geothermal heat and friction. Melt ponds may also form above and below Arctic sea ice, decreasing its albedo and causing the formation of thin underwater ice layers or false bottoms.

Water source Edit

See also: Water resources

Meltwater provides drinking water for a large proportion of the world's population, as well as providing water for irrigation and hydroelectric plants. This meltwater can originate from seasonal snowfall, or from the melting of more permanent glaciers. Climate change threatens the precipitation of snow[1] and the shrinking volume of glaciers.[2]

Some cities around the world have large lakes that collect snow melt to supplement water supply. Others have artificial reservoirs that collect water from rivers, which receive large influxes of meltwater from their higher elevation tributaries. Snow melt hundreds of miles away can contribute to river replenishment.[3] Snowfall can also replenish groundwater in a highly variable process.[4] Cities that indirectly source water from meltwater include Melbourne, Canberra, Los Angeles, Las Vegas among others.[3]

In North America, 78% of meltwater flows west of the Continental Divide, and 22% flows east of the Continental Divide.[5] Agriculture in Wyoming and Alberta relies on water sources made more stable during the growing season by glacial meltwater.[2]

The Tian Shan region in China once had such significant glacial runoff that it was known as the "Green Labyrinth", but it has faced significant reduction in glacier volume from 1964 to 2004 and become more arid, already impacting the sustainability of water sources.[2]

In tropical regions, there is much seasonal variability in the flow of mountainous rivers, and glacial meltwater provides a buffer for this variability providing more water security year-round, but this is threatened by climate change and aridification.[6] Cities that rely heavily on glacial meltwater include La Paz and El Alto in Bolivia, about 30%.[6][2] Changes in the glacial meltwater are a concern in more remote highland regions of the Andes, where the proportion of water from glacial melt is much greater than in lower elevations.[6] In parts of the Bolivian Andes, surface water contributions from glaciers are as high as 31-65% in the wet season and 39-71% in the dry season.[7]

Glacial meltwater Edit

See also: Glacier ice accumulation
 
Refrozen glacial meltwater from the Canada Glacier, in Antarctica

Glacial meltwater comes from glacial melt due to external forces or by pressure and geothermal heat. Often, there will be rivers flowing through glaciers into lakes. These brilliantly blue lakes get their color from "rock flour", sediment that has been transported through the rivers to the lakes. This sediment comes from rocks grinding together underneath the glacier. The fine powder is then suspended in the water and absorbs and scatters varying colors of sunlight,[8] giving a milky turquoise appearance.

 
Meltwater in Skaftafellsjökull, Iceland

Meltwater also acts as a lubricant in the basal sliding of glaciers. GPS measurements of ice flow have revealed that glacial movement is greatest in summer when the meltwater levels are highest.[9]

Glacial meltwater can also affect important fisheries, such as in Kenai River, Alaska.[2]

Rapid changes Edit

Meltwater can be an indication of abrupt climate change. An instance of a large meltwater body is the case of the region of a tributary of Bindschadler Ice Stream, West Antarctica where rapid vertical motion of the ice sheet surface has suggested shifting of a subglacial water body.[10]

It can also destabilize glacial lakes leading to sudden floods, and destabilize snowpack causing avalanches.[11] Dammed glacial meltwater from a moraine-dammed lake that is released suddenly can result in the floods, such as those that created the granite chasms in Purgatory Chasm State Reservation.

Global warming Edit

In a report published in June 2007, the United Nations Environment Programme estimated that global warming could lead to 40% of the world population being affected by the loss of glaciers, snow and the associated meltwater in Asia.[11] The predicted trend of glacial melt signifies seasonal climate extremes in these regions of Asia.[12] Historically Meltwater pulse 1A was a prominent feature of the last deglaciation and took place 14.7-14.2 thousand years ago.[13]

The snow of glaciers in the central Andes melted rapidly due to a heatwave,[14] increasing the proportion of darker-coloured mountains. With alpine glacier volume in decline, much of the environment is affected.

These black particles are recognized for their propensity to change the albedo – or reflectance – of a glacier. Pollution particles affect albedo by preventing sun energy from bouncing off a glacier's white, gleaming surface and instead absorbing the heat, causing the glacier to melt.

See also Edit

In the media Edit

  • June 4, 2007, BBC: UN warning over global ice loss

References Edit

  1. ^ Qin, Yue; Abatzoglou, John T.; Siebert, Stefan; Huning, Laurie S.; AghaKouchak, Amir; Mankin, Justin S.; Hong, Chaopeng; Tong, Dan; Davis, Steven J.; Mueller, Nathaniel D. (May 2020). "Agricultural risks from changing snowmelt". Nature Climate Change. 10 (5): 459–465. Bibcode:2020NatCC..10..459Q. doi:10.1038/s41558-020-0746-8. ISSN 1758-6798. S2CID 216031932.
  2. ^ a b c d e Milner, Alexander M.; Khamis, Kieran; Battin, Tom J.; Brittain, John E.; Barrand, Nicholas E.; Füreder, Leopold; Cauvy-Fraunié, Sophie; Gíslason, Gísli Már; Jacobsen, Dean; Hannah, David M.; Hodson, Andrew J. (2017-09-12). "Glacier shrinkage driving global changes in downstream systems". Proceedings of the National Academy of Sciences. 114 (37): 9770–9778. Bibcode:2017PNAS..114.9770M. doi:10.1073/pnas.1619807114. ISSN 0027-8424. PMC 5603989. PMID 28874558.
  3. ^ a b "Snowfall giving Lake Mead a lift". Las Vegas Review-Journal. 2011-08-07. Retrieved 2021-05-30.
  4. ^ "Melting snow and groundwater levels in Sierra Nevadas". ScienceDaily. Retrieved 2021-05-30.
  5. ^ Castellazzi, P.; Burgess, D.; Rivera, A.; Huang, J.; Longuevergne, L.; Demuth, M. N. (2019). "Glacial Melt and Potential Impacts on Water Resources in the Canadian Rocky Mountains". Water Resources Research. 55 (12): 10191–10217. Bibcode:2019WRR....5510191C. doi:10.1029/2018WR024295. ISSN 1944-7973. S2CID 210271648.
  6. ^ a b c "Glacier melt and water security". Imperial College London. Retrieved 2021-05-30.
  7. ^ Guido, Zack; McIntosh, Jennifer C.; Papuga, Shirley A.; Meixner, Thomas (2016-12-01). "Seasonal glacial meltwater contributions to surface water in the Bolivian Andes: A case study using environmental tracers". Journal of Hydrology: Regional Studies. 8: 260–273. doi:10.1016/j.ejrh.2016.10.002. hdl:10150/626096. ISSN 2214-5818.
  8. ^ Aas, Eyvind; Bogen, Jim (1988-04-01). "Colors of glacier water". Water Resources Research. 24 (4): 561–565. Bibcode:1988WRR....24..561A. doi:10.1029/WR024i004p00561. ISSN 1944-7973.
  9. ^ Garner, Rob (2013-07-22). "'Like Butter': Study Explains Surprising Acceleration of Greenland's Inland Ice". NASA. Retrieved 2016-05-12.
  10. ^ Peters, Leo E.; Anandakrishnan, Sridhar; Alley, Richard B.; Smith, Andrew M. (2007-03-01). "Extensive storage of basal meltwater in the onset region of a major West Antarctic ice stream". Geology. 35 (3): 251–254. Bibcode:2007Geo....35..251P. doi:10.1130/G23222A.1. ISSN 0091-7613.
  11. ^ a b "Melting Ice—A Hot Topic? New UNEP Report Shows Just How Hot It's Getting". United Nations Environment Programme (UNEP). 2007-06-04. Archived from the original on 2009-07-07. Retrieved 2016-05-12.
  12. ^ Goudie, Andrew (September 2006). "Global warming and fluvial geomorphology". Geomorphology. 79 (3–4): 384–394. Bibcode:2006Geomo..79..384G. doi:10.1016/j.geomorph.2006.06.023.
  13. ^ Webster, Jody M.; Clague, David A.; Riker-Coleman, Kristin; Gallup, Christina; Braga, Juan C.; Potts, Donald; Moore, James G.; Winterer, Edward L.; Paull, Charles K. (2004). "Drowning of the −150 m reef off Hawaii: A casualty of global meltwater pulse 1A?". Geology. 32 (3): 249. Bibcode:2004Geo....32..249W. doi:10.1130/g20170.1.
  14. ^ "Losing a Layer of Protection". NASA Earth Observatory. June 14, 2022. p. 1. Retrieved June 14, 2022.

External links Edit

  • United Nations Environment Program: Global Outlook for Ice and Snow 2007-06-08 at the Wayback Machine

October 15, 2023
meltwater, other, uses, disambiguation, melt, water, water, released, melting, snow, including, glacial, tabular, icebergs, shelves, over, oceans, often, found, during, early, spring, when, snow, packs, frozen, rivers, melt, with, rising, temperatures, ablatio. For other uses see Meltwater disambiguation Meltwater or melt water is water released by the melting of snow or ice including glacial ice tabular icebergs and ice shelves over oceans Meltwater is often found during early spring when snow packs and frozen rivers melt with rising temperatures and in the ablation zone of glaciers where the rate of snow cover is reducing Meltwater can be produced during volcanic eruptions in a similar way in which the more dangerous lahars form Meltwater in early spring in a stream in Pennsylvania USAMeltwater from Mount Edith Cavell Cavell GlacierMeltwater transfer from sea ice surface melt ponds to the ocean during MOSAiC ExpeditionWhen meltwater pools on the surface rather than flowing it forms melt ponds As the weather gets colder meltwater will often re freeze Meltwater can also collect or melt under the ice s surface These pools of water known as subglacial lakes can form due to geothermal heat and friction Melt ponds may also form above and below Arctic sea ice decreasing its albedo and causing the formation of thin underwater ice layers or false bottoms Contents 1 Water source 2 Glacial meltwater 3 Rapid changes 3 1 Global warming 4 See also 4 1 In the media 5 References 6 External linksWater source EditThis section needs expansion You can help by adding to it May 2008 See also Water resources Meltwater provides drinking water for a large proportion of the world s population as well as providing water for irrigation and hydroelectric plants This meltwater can originate from seasonal snowfall or from the melting of more permanent glaciers Climate change threatens the precipitation of snow 1 and the shrinking volume of glaciers 2 Some cities around the world have large lakes that collect snow melt to supplement water supply Others have artificial reservoirs that collect water from rivers which receive large influxes of meltwater from their higher elevation tributaries Snow melt hundreds of miles away can contribute to river replenishment 3 Snowfall can also replenish groundwater in a highly variable process 4 Cities that indirectly source water from meltwater include Melbourne Canberra Los Angeles Las Vegas among others 3 In North America 78 of meltwater flows west of the Continental Divide and 22 flows east of the Continental Divide 5 Agriculture in Wyoming and Alberta relies on water sources made more stable during the growing season by glacial meltwater 2 The Tian Shan region in China once had such significant glacial runoff that it was known as the Green Labyrinth but it has faced significant reduction in glacier volume from 1964 to 2004 and become more arid already impacting the sustainability of water sources 2 In tropical regions there is much seasonal variability in the flow of mountainous rivers and glacial meltwater provides a buffer for this variability providing more water security year round but this is threatened by climate change and aridification 6 Cities that rely heavily on glacial meltwater include La Paz and El Alto in Bolivia about 30 6 2 Changes in the glacial meltwater are a concern in more remote highland regions of the Andes where the proportion of water from glacial melt is much greater than in lower elevations 6 In parts of the Bolivian Andes surface water contributions from glaciers are as high as 31 65 in the wet season and 39 71 in the dry season 7 Glacial meltwater EditSee also Glacier ice accumulation nbsp Refrozen glacial meltwater from the Canada Glacier in AntarcticaGlacial meltwater comes from glacial melt due to external forces or by pressure and geothermal heat Often there will be rivers flowing through glaciers into lakes These brilliantly blue lakes get their color from rock flour sediment that has been transported through the rivers to the lakes This sediment comes from rocks grinding together underneath the glacier The fine powder is then suspended in the water and absorbs and scatters varying colors of sunlight 8 giving a milky turquoise appearance nbsp Meltwater in Skaftafellsjokull IcelandMeltwater also acts as a lubricant in the basal sliding of glaciers GPS measurements of ice flow have revealed that glacial movement is greatest in summer when the meltwater levels are highest 9 Glacial meltwater can also affect important fisheries such as in Kenai River Alaska 2 Rapid changes EditMeltwater can be an indication of abrupt climate change An instance of a large meltwater body is the case of the region of a tributary of Bindschadler Ice Stream West Antarctica where rapid vertical motion of the ice sheet surface has suggested shifting of a subglacial water body 10 It can also destabilize glacial lakes leading to sudden floods and destabilize snowpack causing avalanches 11 Dammed glacial meltwater from a moraine dammed lake that is released suddenly can result in the floods such as those that created the granite chasms in Purgatory Chasm State Reservation Global warming Edit In a report published in June 2007 the United Nations Environment Programme estimated that global warming could lead to 40 of the world population being affected by the loss of glaciers snow and the associated meltwater in Asia 11 The predicted trend of glacial melt signifies seasonal climate extremes in these regions of Asia 12 Historically Meltwater pulse 1A was a prominent feature of the last deglaciation and took place 14 7 14 2 thousand years ago 13 The snow of glaciers in the central Andes melted rapidly due to a heatwave 14 increasing the proportion of darker coloured mountains With alpine glacier volume in decline much of the environment is affected These black particles are recognized for their propensity to change the albedo or reflectance of a glacier Pollution particles affect albedo by preventing sun energy from bouncing off a glacier s white gleaming surface and instead absorbing the heat causing the glacier to melt See also Edit nbsp Water portal nbsp Energy portalExtreme Ice Survey Groundwater Kryal Moulin geology Snowmelt Surface water False bottom sea ice In the media Edit June 4 2007 BBC UN warning over global ice lossReferences Edit Qin Yue Abatzoglou John T Siebert Stefan Huning Laurie S AghaKouchak Amir Mankin Justin S Hong Chaopeng Tong Dan Davis Steven J Mueller Nathaniel D May 2020 Agricultural risks from changing snowmelt Nature Climate Change 10 5 459 465 Bibcode 2020NatCC 10 459Q doi 10 1038 s41558 020 0746 8 ISSN 1758 6798 S2CID 216031932 a b c d e Milner Alexander M Khamis Kieran Battin Tom J Brittain John E Barrand Nicholas E Fureder Leopold Cauvy Fraunie Sophie Gislason Gisli Mar Jacobsen Dean Hannah David M Hodson Andrew J 2017 09 12 Glacier shrinkage driving global changes in downstream systems Proceedings of the National Academy of Sciences 114 37 9770 9778 Bibcode 2017PNAS 114 9770M doi 10 1073 pnas 1619807114 ISSN 0027 8424 PMC 5603989 PMID 28874558 a b Snowfall giving Lake Mead a lift Las Vegas Review Journal 2011 08 07 Retrieved 2021 05 30 Melting snow and groundwater levels in Sierra Nevadas ScienceDaily Retrieved 2021 05 30 Castellazzi P Burgess D Rivera A Huang J Longuevergne L Demuth M N 2019 Glacial Melt and Potential Impacts on Water Resources in the Canadian Rocky Mountains Water Resources Research 55 12 10191 10217 Bibcode 2019WRR 5510191C doi 10 1029 2018WR024295 ISSN 1944 7973 S2CID 210271648 a b c Glacier melt and water security Imperial College London Retrieved 2021 05 30 Guido Zack McIntosh Jennifer C Papuga Shirley A Meixner Thomas 2016 12 01 Seasonal glacial meltwater contributions to surface water in the Bolivian Andes A case study using environmental tracers Journal of Hydrology Regional Studies 8 260 273 doi 10 1016 j ejrh 2016 10 002 hdl 10150 626096 ISSN 2214 5818 Aas Eyvind Bogen Jim 1988 04 01 Colors of glacier water Water Resources Research 24 4 561 565 Bibcode 1988WRR 24 561A doi 10 1029 WR024i004p00561 ISSN 1944 7973 Garner Rob 2013 07 22 Like Butter Study Explains Surprising Acceleration of Greenland s Inland Ice NASA Retrieved 2016 05 12 Peters Leo E Anandakrishnan Sridhar Alley Richard B Smith Andrew M 2007 03 01 Extensive storage of basal meltwater in the onset region of a major West Antarctic ice stream Geology 35 3 251 254 Bibcode 2007Geo 35 251P doi 10 1130 G23222A 1 ISSN 0091 7613 a b Melting Ice A Hot Topic New UNEP Report Shows Just How Hot It s Getting United Nations Environment Programme UNEP 2007 06 04 Archived from the original on 2009 07 07 Retrieved 2016 05 12 Goudie Andrew September 2006 Global warming and fluvial geomorphology Geomorphology 79 3 4 384 394 Bibcode 2006Geomo 79 384G doi 10 1016 j geomorph 2006 06 023 Webster Jody M Clague David A Riker Coleman Kristin Gallup Christina Braga Juan C Potts Donald Moore James G Winterer Edward L Paull Charles K 2004 Drowning of the 150 m reef off Hawaii A casualty of global meltwater pulse 1A Geology 32 3 249 Bibcode 2004Geo 32 249W doi 10 1130 g20170 1 Losing a Layer of Protection NASA Earth Observatory June 14 2022 p 1 Retrieved June 14 2022 External links EditUnited Nations Environment Program Global Outlook for Ice and Snow Archived 2007 06 08 at the Wayback Machine Retrieved from https en wikipedia org w index php title Meltwater amp oldid 1170348425, wikipedia, wiki, book, books, library,

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