12 results
Search Results
2. Contribution of glaciers to water, energy and food security in mountain regions: current perspectives and future priorities.
- Author
-
Clason, Caroline, Rangecroft, Sally, Owens, Philip N., Łokas, Edyta, Baccolo, Giovanni, Selmes, Nick, Beard, Dylan, Kitch, Jessica, Dextre, Rosa María, Morera, Sergio, and Blake, Will
- Subjects
CALORIC content of foods ,ALPINE glaciers ,GLACIERS ,FOOD security ,MELTWATER ,WATER quality ,ENERGY security ,DRINKING water - Abstract
Mountain glaciers are crucial sources of fresh water, contributing directly and indirectly to water, energy and food supplies for hundreds of millions of people. Assessing the impact of diminishing glacial meltwater contributions to the security of this resource is critical as we seek to manage and adapt to changing freshwater dynamics in a warming world. Both water quantity and quality influence water (in)security, so understanding the fluxes of water, sediment and contaminants through glacial and proglacial systems is required for holistic assessment of meltwater contribution to downstream resource security. In this paper we consider the socio-environmental role of and pressures on glacier-fed waters, discuss key research priorities for the assessment of both the quantity and quality of meltwater and reflect on the importance of situating our understanding within a transdisciplinary and inclusive research landscape. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
3. Inequalities of ice loss: a framework for addressing sociocryospheric change.
- Author
-
Carey, Mark and Moulton, Holly
- Subjects
SCIENTIFIC community ,RACE ,EQUALITY ,GREENHOUSE gases ,ALPINE glaciers ,SUSTAINABILITY - Abstract
Cryospheric change occurs in unequal spaces. Societies living near ice are divided by race, class, gender, geography, politics and other factors. Consequently, impacts of ice loss are not shared equally, and everyone experiences cryospheric changes differently. Responsibility for recent ice loss is also driven by a relatively small portion of humanity: those who emit the most greenhouse gases. Additionally, people who study the cryosphere come from institutions and societies where inequality is often systemic, making research on ice and snow a symptom of and contributor to social inequality. To better understand unequal effects of cryospheric change within and across diverse communities, including research communities, this paper focuses on three areas, drawing primarily from glacier-related work: (1) the social context of cryospheric changes; (2) attribution and responsibility for cryospheric changes and (3) imbalances in knowledge about the cryosphere. Addressing these dimensions of ice loss requires transdisciplinary approaches that connect research to societies and link glaciology and other cryospheric sciences with social sciences and humanities. These concepts, cases and suggestions to help address inequalities also reveal that no singular conceptualization of sustainability exists. Different societies, residents and researchers possess distinct understandings of and goals for 'ice in a sustainable society'. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
4. An introduction to the Annals of Glaciology special issue on the 'International Glaciological Society Global Seminar Series: New Research Directions '.
- Author
-
Murray, Tavi, Jiskoot, Hester, Magnússon, Magnús Már, Schlegel, Rebecca, Vargo, Lauren J., and MacAyeal, Doug
- Subjects
GLACIOLOGY ,SEMINARS ,SCIENTIFIC communication ,HISTORICAL source material ,SERVER farms (Computer network management) ,ALPINE glaciers - Abstract
In March 2020, COVID-19 lockdowns in many countries resulted in university classes moving online and scientific meetings being cancelled. Shortly afterwards the International Glaciological Society (IGS) started a weekly I IGS Global Seminar Series i . This special edition of the I Annals of Glaciology i celebrates the success of the I IGS Global Seminar Series i by showcasing 31 Letters (short papers) resulting from seminars presented during the first two years of the series. [Extracted from the article]
- Published
- 2022
- Full Text
- View/download PDF
5. Snow and ice in the desert: reflections from a decade of connecting cryospheric science with communities in the semiarid Chilean Andes.
- Author
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MacDonell, Shelley, Núñez Farías, Paloma, Aliste, Valentina, Ayala, Álvaro, Guzmán, Camilo, Jofré Díaz, Patricio, Schaffer, Nicole, Schauwecker, Simone, Sproles, Eric A., and Yáñez San Francisco, Eduardo
- Subjects
CRYOSPHERE ,DESERTS ,ALPINE glaciers ,ALGAL communities ,SELF-efficacy ,CITIZEN science - Abstract
Citizen science and related engagement programmes have proliferated in recent years throughout the sciences but have been reasonably limited in the cryospheric sciences. In the semiarid Andes we at the Centro de Estudios Avanzados en Zonas Áridas have developed a range of initiatives together with the wider community and stakeholder institutions to improve our understanding of the role snow and ice play in headwater catchments. In this paper we reflect on ongoing engagement with communities living and working in and near study sites of cryospheric science in northern Chile as a strategy that can both strengthen the research being done and empower local communities. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
6. Contribution of glaciers to water, energy and food security in mountain regions: current perspectives and future priorities.
- Author
-
Clason, Caroline, Rangecroft, Sally, Owens, Philip N., Łokas, Edyta, Baccolo, Giovanni, Selmes, Nick, Beard, Dylan, Kitch, Jessica, Dextre, Rosa María, Morera, Sergio, and Blake, Will
- Subjects
CALORIC content of foods ,ALPINE glaciers ,GLACIERS ,FOOD security ,MELTWATER ,WATER quality ,ENERGY security ,DRINKING water - Abstract
Mountain glaciers are crucial sources of fresh water, contributing directly and indirectly to water, energy and food supplies for hundreds of millions of people. Assessing the impact of diminishing glacial meltwater contributions to the security of this resource is critical as we seek to manage and adapt to changing freshwater dynamics in a warming world. Both water quantity and quality influence water (in)security, so understanding the fluxes of water, sediment and contaminants through glacial and proglacial systems is required for holistic assessment of meltwater contribution to downstream resource security. In this paper we consider the socio-environmental role of and pressures on glacier-fed waters, discuss key research priorities for the assessment of both the quantity and quality of meltwater and reflect on the importance of situating our understanding within a transdisciplinary and inclusive research landscape. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
7. Geological and glacial-hydrologic controls on chemical weathering in the subglacial environment.
- Author
-
Graly, Joseph A. and Rezvanbehbahani, Soroush
- Subjects
CHEMICAL weathering ,ALPINE glaciers ,ICE sheets ,GREENLAND ice ,ANTARCTIC ice ,GLACIERS - Abstract
A comparison of major ion chemistry of subglacial boreholes and discharging subglacial waters reveals three fundamentally different glacier hydrochemical regimes. Subglacial waters from alpine glaciers have chemistry distinct from the subglacial waters of Greenland or Antarctica. Greenland and Antarctica also differ fundamentally from each other, with Greenland Ice Sheet waters, at least during the summer melt season, remaining dilute and unaffected by saturation reactions and Antarctic Ice Sheet waters controlled by a range of saturation states. Some Antarctic waters form concentrated brines, capable of depressing the freezing point by >10°C. While these waters have only been directly sampled where they rarely emerge, geophysical observations from Devon Ice Cap and Greenland show liquid water at the glacier bed in locations where ice is thin and slowly moving and a cold bed is otherwise expected. This raises the possibility that lithogenic subglacial brines could be widespread and that our existing subglacial hydrochemical measurements might be biased by seasonal sampling of freely discharging water. The potential for diverse ranges of subglacial environments under ice sheets suggests the need for new and ambitious sampling programs to characterize difficult to access subglacial waters and quantify their impact on glacier dynamics, geobiology and global geochemical cycling. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
8. Topographic modulation of outlet glaciers in Greenland: a review.
- Author
-
Catania, Ginny and Felikson, Denis
- Subjects
ICE sheets ,GLACIAL erosion ,GLACIOLOGY ,SEAWATER ,GLACIERS ,ALPINE glaciers ,TOPOGRAPHY - Abstract
Bed topography is a critical parameter for determining the modern-day and future dynamics of ice sheets and their outlet glaciers. This is because the topography controls the state of stress for glaciers. At glacier termini, topography can influence the timing of terminus retreat by controlling access to warm ocean waters and/or by influencing the ability of a glacier terminus to retreat over bed bumps (moraines). Inland from the terminus, the topography can also influence where glacier retreat and thinning can stabilize. In part, this is because of knickpoints in bed topography created through glacial erosion that may influence the extent to which thinning can diffuse inland for an individual glacier and thus, the timing and magnitude of long-term mass loss. Here we provide a review of the current literature on these topics. While much of the reviewed literature assumes that topography is stable on relevant timescales to humans, new research suggests that topography may change much faster than previously thought and this further complicates our ability to project future outlet glacier change. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
9. GHOSTly flute music: drumlins, moats and the bed of Thwaites Glacier.
- Author
-
Alley, Richard B., Holschuh, Nick, Parizek, Byron, Zoet, Lucas K., Riverman, Kiya, Muto, Atsuhiro, Christianson, Knut, Clyne, Elisabeth, Anandakrishnan, Sridhar, and Stevens, Nathan T.
- Subjects
ICE shelves ,FLUTE music ,DRUMLINS ,GLACIERS ,ABSOLUTE sea level change ,BEDROCK ,ALPINE glaciers ,TOPOGRAPHY ,ICE sheets - Abstract
Glacier-bed characteristics that are poorly known and modeled are important in projected sea-level rise from ice-sheet changes under strong warming, especially in the Thwaites Glacier drainage of West Antarctica. Ocean warming may induce ice-shelf thinning or loss, or thinning of ice in estuarine zones, reducing backstress on grounded ice. Models indicate that, in response, more-nearly-plastic beds favor faster ice loss by causing larger flow acceleration, but more-nearly-viscous beds favor localized near-coastal thinning that could speed grounding-zone retreat into interior basins where marine-ice-sheet instability or cliff instability could develop and cause very rapid ice loss. Interpretation of available data indicates that the bed is spatially mosaicked, with both viscous and plastic regions. Flow against bedrock topography removes plastic lubricating tills, exposing bedrock that is eroded on up-glacier sides of obstacles to form moats with exposed bedrock tails extending downglacier adjacent to lee-side soft-till bedforms. Flow against topography also generates high-ice-pressure zones that prevent inflow of lubricating water over distances that scale with the obstacle size. Extending existing observations to sufficiently large regions, and developing models assimilating such data at the appropriate scale, present large, important research challenges that must be met to reliably project future forced sea-level rise. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
10. GHOSTly flute music: drumlins, moats and the bed of Thwaites Glacier.
- Author
-
Alley, Richard B., Holschuh, Nick, Parizek, Byron, Zoet, Lucas K., Riverman, Kiya, Muto, Atsuhiro, Christianson, Knut, Clyne, Elisabeth, Anandakrishnan, Sridhar, and Stevens, Nathan T.
- Subjects
ICE shelves ,FLUTE music ,DRUMLINS ,GLACIERS ,ABSOLUTE sea level change ,BEDROCK ,ALPINE glaciers ,TOPOGRAPHY ,ICE sheets - Abstract
Glacier-bed characteristics that are poorly known and modeled are important in projected sea-level rise from ice-sheet changes under strong warming, especially in the Thwaites Glacier drainage of West Antarctica. Ocean warming may induce ice-shelf thinning or loss, or thinning of ice in estuarine zones, reducing backstress on grounded ice. Models indicate that, in response, more-nearly-plastic beds favor faster ice loss by causing larger flow acceleration, but more-nearly-viscous beds favor localized near-coastal thinning that could speed grounding-zone retreat into interior basins where marine-ice-sheet instability or cliff instability could develop and cause very rapid ice loss. Interpretation of available data indicates that the bed is spatially mosaicked, with both viscous and plastic regions. Flow against bedrock topography removes plastic lubricating tills, exposing bedrock that is eroded on up-glacier sides of obstacles to form moats with exposed bedrock tails extending downglacier adjacent to lee-side soft-till bedforms. Flow against topography also generates high-ice-pressure zones that prevent inflow of lubricating water over distances that scale with the obstacle size. Extending existing observations to sufficiently large regions, and developing models assimilating such data at the appropriate scale, present large, important research challenges that must be met to reliably project future forced sea-level rise. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
11. Geological and glacial-hydrologic controls on chemical weathering in the subglacial environment.
- Author
-
Graly, Joseph A. and Rezvanbehbahani, Soroush
- Subjects
CHEMICAL weathering ,ALPINE glaciers ,ICE sheets ,GREENLAND ice ,ANTARCTIC ice ,GLACIERS - Abstract
A comparison of major ion chemistry of subglacial boreholes and discharging subglacial waters reveals three fundamentally different glacier hydrochemical regimes. Subglacial waters from alpine glaciers have chemistry distinct from the subglacial waters of Greenland or Antarctica. Greenland and Antarctica also differ fundamentally from each other, with Greenland Ice Sheet waters, at least during the summer melt season, remaining dilute and unaffected by saturation reactions and Antarctic Ice Sheet waters controlled by a range of saturation states. Some Antarctic waters form concentrated brines, capable of depressing the freezing point by >10°C. While these waters have only been directly sampled where they rarely emerge, geophysical observations from Devon Ice Cap and Greenland show liquid water at the glacier bed in locations where ice is thin and slowly moving and a cold bed is otherwise expected. This raises the possibility that lithogenic subglacial brines could be widespread and that our existing subglacial hydrochemical measurements might be biased by seasonal sampling of freely discharging water. The potential for diverse ranges of subglacial environments under ice sheets suggests the need for new and ambitious sampling programs to characterize difficult to access subglacial waters and quantify their impact on glacier dynamics, geobiology and global geochemical cycling. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
12. Topographic modulation of outlet glaciers in Greenland: a review.
- Author
-
Catania, Ginny and Felikson, Denis
- Subjects
ICE sheets ,GLACIAL erosion ,GLACIOLOGY ,SEAWATER ,GLACIERS ,ALPINE glaciers ,TOPOGRAPHY - Abstract
Bed topography is a critical parameter for determining the modern-day and future dynamics of ice sheets and their outlet glaciers. This is because the topography controls the state of stress for glaciers. At glacier termini, topography can influence the timing of terminus retreat by controlling access to warm ocean waters and/or by influencing the ability of a glacier terminus to retreat over bed bumps (moraines). Inland from the terminus, the topography can also influence where glacier retreat and thinning can stabilize. In part, this is because of knickpoints in bed topography created through glacial erosion that may influence the extent to which thinning can diffuse inland for an individual glacier and thus, the timing and magnitude of long-term mass loss. Here we provide a review of the current literature on these topics. While much of the reviewed literature assumes that topography is stable on relevant timescales to humans, new research suggests that topography may change much faster than previously thought and this further complicates our ability to project future outlet glacier change. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
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