Glacier shrinkage driving global changes in downstream systems

Alexander M. Milner; Kieran Khamis; Tom J. Battin; John E. Brittain; Nicholas E. Barrand; Leopold Füreder; Sophie Cauvy-Fraunié; Gísli Már Gíslason; Dean Jacobsen; David M. Hannah; Andrew J. Hodson; Eran Hood; Valeria Lencioni; Jón S. Ólafsson; Christopher T. Robinson; Martyn Tranter; Lee E. Brown

doi:10.1073/pnas.1619807114

Glacier shrinkage driving global changes in downstream systems

Alexander M. Milner^*, Kieran Khamis, Tom J. Battin, John E. Brittain, Nicholas E. Barrand, Leopold Füreder, Sophie Cauvy-Fraunié, Gísli Már Gíslason, Dean Jacobsen, David M. Hannah, Andrew J. Hodson, Eran Hood, Valeria Lencioni, Jón S. Ólafsson, Christopher T. Robinson, Martyn Tranter, Lee E. Brown

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

Glaciers cover ~10% of the Earth’s land surface, but they are shrinking rapidly across most parts of the world, leading to cascading impacts on downstream systems. Glaciers impart unique footprints on river flow at times when other water sources are low. Changes in river hydrology and morphology caused by climate-induced glacier loss are projected to be the greatest of any hydrological system, with major implications for riverine and near-shore marine environments. Here, we synthesize current evidence of how glacier shrinkage will alter hydrological regimes, sediment transport, and biogeochemical and contaminant fluxes from rivers to oceans. This will profoundly influence the natural environment, including many facets of biodiversity, and the ecosystem services that glacier-fed rivers provide to humans, particularly provision of water for agriculture, hydropower, and consumption. We conclude that human society must plan adaptation and mitigation measures for the full breadth of impacts in all affected regions caused by glacier shrinkage.

Original language	English
Pages (from-to)	9770-9778
Number of pages	9
Journal	National Academy of Sciences. Proceedings
Volume	114
Issue number	37
DOIs	https://doi.org/10.1073/pnas.1619807114
Publication status	Published - 12 Sept 2017

Keywords

Biodiversity
Biogeochemistry
Ecosystem services
Glacier
Runoff

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1073/pnas.1619807114Licence: None: All rights reserved

Milner et al. 10.1073_pnas 1619807114
Published in Proceedings of the National Academy of Sciences, vol. 114 no. 37, Alexander M. Milner, 9770–9778, doi: 10.1073/pnas.1619807114
Licence: None: All rights reserved

Cite this

Milner, A. M., Khamis, K., Battin, T. J., Brittain, J. E., Barrand, N. E., Füreder, L., Cauvy-Fraunié, S., Gíslason, G. M., Jacobsen, D., Hannah, D. M., Hodson, A. J., Hood, E., Lencioni, V., Ólafsson, J. S., Robinson, C. T., Tranter, M., & Brown, L. E. (2017). Glacier shrinkage driving global changes in downstream systems. National Academy of Sciences. Proceedings, 114(37), 9770-9778. https://doi.org/10.1073/pnas.1619807114

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title = "Glacier shrinkage driving global changes in downstream systems",

abstract = "Glaciers cover ~10% of the Earth{\textquoteright}s land surface, but they are shrinking rapidly across most parts of the world, leading to cascading impacts on downstream systems. Glaciers impart unique footprints on river flow at times when other water sources are low. Changes in river hydrology and morphology caused by climate-induced glacier loss are projected to be the greatest of any hydrological system, with major implications for riverine and near-shore marine environments. Here, we synthesize current evidence of how glacier shrinkage will alter hydrological regimes, sediment transport, and biogeochemical and contaminant fluxes from rivers to oceans. This will profoundly influence the natural environment, including many facets of biodiversity, and the ecosystem services that glacier-fed rivers provide to humans, particularly provision of water for agriculture, hydropower, and consumption. We conclude that human society must plan adaptation and mitigation measures for the full breadth of impacts in all affected regions caused by glacier shrinkage.",

keywords = "Biodiversity, Biogeochemistry, Ecosystem services, Glacier, Runoff",

author = "Milner, {Alexander M.} and Kieran Khamis and Battin, {Tom J.} and Brittain, {John E.} and Barrand, {Nicholas E.} and Leopold F{\"u}reder and Sophie Cauvy-Frauni{\'e} and G{\'i}slason, {G{\'i}sli M{\'a}r} and Dean Jacobsen and Hannah, {David M.} and Hodson, {Andrew J.} and Eran Hood and Valeria Lencioni and {\'O}lafsson, {J{\'o}n S.} and Robinson, {Christopher T.} and Martyn Tranter and Brown, {Lee E.}",

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Milner, AM , Khamis, K, Battin, TJ, Brittain, JE, Barrand, NE, Füreder, L, Cauvy-Fraunié, S, Gíslason, GM, Jacobsen, D, Hannah, DM, Hodson, AJ, Hood, E, Lencioni, V, Ólafsson, JS, Robinson, CT, Tranter, M & Brown, LE 2017, 'Glacier shrinkage driving global changes in downstream systems', National Academy of Sciences. Proceedings, vol. 114, no. 37, pp. 9770-9778. https://doi.org/10.1073/pnas.1619807114

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AU - Milner, Alexander M.

AU - Khamis, Kieran

AU - Battin, Tom J.

AU - Brittain, John E.

AU - Barrand, Nicholas E.

AU - Füreder, Leopold

AU - Cauvy-Fraunié, Sophie

AU - Gíslason, Gísli Már

AU - Jacobsen, Dean

AU - Hannah, David M.

AU - Hodson, Andrew J.

AU - Hood, Eran

AU - Lencioni, Valeria

AU - Ólafsson, Jón S.

AU - Robinson, Christopher T.

AU - Tranter, Martyn

AU - Brown, Lee E.

PY - 2017/9/12

Y1 - 2017/9/12

N2 - Glaciers cover ~10% of the Earth’s land surface, but they are shrinking rapidly across most parts of the world, leading to cascading impacts on downstream systems. Glaciers impart unique footprints on river flow at times when other water sources are low. Changes in river hydrology and morphology caused by climate-induced glacier loss are projected to be the greatest of any hydrological system, with major implications for riverine and near-shore marine environments. Here, we synthesize current evidence of how glacier shrinkage will alter hydrological regimes, sediment transport, and biogeochemical and contaminant fluxes from rivers to oceans. This will profoundly influence the natural environment, including many facets of biodiversity, and the ecosystem services that glacier-fed rivers provide to humans, particularly provision of water for agriculture, hydropower, and consumption. We conclude that human society must plan adaptation and mitigation measures for the full breadth of impacts in all affected regions caused by glacier shrinkage.

AB - Glaciers cover ~10% of the Earth’s land surface, but they are shrinking rapidly across most parts of the world, leading to cascading impacts on downstream systems. Glaciers impart unique footprints on river flow at times when other water sources are low. Changes in river hydrology and morphology caused by climate-induced glacier loss are projected to be the greatest of any hydrological system, with major implications for riverine and near-shore marine environments. Here, we synthesize current evidence of how glacier shrinkage will alter hydrological regimes, sediment transport, and biogeochemical and contaminant fluxes from rivers to oceans. This will profoundly influence the natural environment, including many facets of biodiversity, and the ecosystem services that glacier-fed rivers provide to humans, particularly provision of water for agriculture, hydropower, and consumption. We conclude that human society must plan adaptation and mitigation measures for the full breadth of impacts in all affected regions caused by glacier shrinkage.

KW - Biodiversity

KW - Biogeochemistry

KW - Ecosystem services

KW - Glacier

KW - Runoff

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SN - 1091-6490

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JO - National Academy of Sciences. Proceedings

JF - National Academy of Sciences. Proceedings

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ER -

Glacier shrinkage driving global changes in downstream systems

Abstract

Keywords

UN SDGs

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