Evolution of the dynamics of Airdrop Glacier, western Axel Heiberg Island, over a seven-decade-long advance by Benoît Lauzon, Luke Copland, Wesley Van Wychen, William Kochtitzky, Robert McNabb

Subjects: “…glacier dynamics…”
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Dynamics throughout a complete surge of Iceberg Glacier on western Axel Heiberg Island, Canadian High Arctic by Benoît Lauzon, Luke Copland, Wesley Van Wychen, William Kochtitzky, Robert McNabb, Dorthe Dahl-Jensen

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Ablation from calving and surface melt at lake-terminating Bridge Glacier, British Columbia, 1984–2013 by M. Chernos, M. Koppes, R. D. Moore

“…Bridge Glacier is a lake-calving glacier in the Coast Mountains of British Columbia and has retreated over 3.55 km since 1972. …”
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Characteristics of glacier ice melt runoff in three sub-basins in Urumqi River basin, eastern Tien Shan by Yufeng Jia, Zhongqin Li, Feiteng Wang, Chunhai Xu, Weibo Zhao, Meiping Sun, Pengbin Liang

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Remote Sensing Investigation of the Offset Effect between Reservoir Impoundment and Glacier Meltwater Supply in Tibetan Highland Catchment by Jingying Zhu, Chunqiao Song, Linghong Ke, Kai Liu, Tan Chen

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Estimation of the total sub-debris ablation from point-scale ablation data on a debris-covered glacier by Sunil Singh Shah, Argha Banerjee, Harish Chandra Nainwal, R. Shankar

Subjects: “…Debris-covered glaciers…”
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Climatically Driven Holocene Glacier Advances in the Russian Altai Based on Radiocarbon and OSL Dating and Tree Ring Analysis by Anna Agatova, Roman Nepop, Andrey Nazarov, Ivan Ovchinnikov, Piotr Moska

Subjects: “…Holocene glaciers advances…”
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Velocity increases at Cook Glacier, East Antarctica, linked to ice shelf loss and a subglacial flood event by B. W. J. Miles, C. R. Stokes, S. S. R. Jamieson

“…<p>Cook Glacier drains a large proportion of the Wilkes Subglacial Basin in East Antarctica, a region thought to be vulnerable to marine ice sheet instability and with potential to make a significant contribution to sea level. …”
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Spatio-temporal variations in seasonal ice tongue submarine melt rate at a tidewater glacier in southwest Greenland by A. N. MOYER, P. W. NIENOW, N. GOURMELEN, A. J. SOLE, D. A. SLATER, M. TRUFFER, M. FAHNESTOCK

Subjects: “…glacier calving…”
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Efficiency of artificial neural networks for glacier ice-thickness estimation: a case study in western Himalaya, India by Mohd Anul Haq, Mohd Farooq Azam, Christian Vincent

Subjects: “…Glacier modelling…”
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A cross-validated three-dimensional model of an englacial and subglacial drainage system in a High-Arctic glacier by Lena U. Hansen, Jan A. Piotrowski, Douglas I. Benn, Heidi Sevestre

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A Wireless Real-Time Continuous Monitoring System for the Internal Movements of Mountain Glaciers Using Sensor Networks by Shimeng Wang, Aihong Xie, Jiangping Zhu

Subjects: “…glacier internal movement…”
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Datation dendrochronologique des maxima du Petit Âge Glaciaire des glaciers d’Arolla (Valais, Suisse) by Melaine Le Roy, Kurt Nicolussi, Christian Schlüchter

“…Les variations des glaciers lors du Petit Âge Glaciaire (PAG) sont bien connues dans les Alpes, en partie grâce à un ensemble inégalé de sources historiques. …”
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Calving of Fuerza Aérea Glacier (Greenwich Island, Antarctica) observed with terrestrial laser scanning and continuous video monitoring by MICHAŁ PĘTLICKI, CHRISTOPHE KINNARD

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Radarsat Constellation Mission Derived Winter Glacier Velocities for the St. Elias Icefield, Yukon/Alaska: 2022 and 2023 by Wesley Van Wychen, Courtney Bayer, Luke Copland, Erika Brummell, Christine Dow

“…We also identify two new glacier surges within the icefields: the surge of Nàłùdäy (Lowell) Glacier in Winter 2022, and Chitina Glacier in Winter 2023, and track the progression of each surge from January to March utilizing ∼4-day repeat RCM imagery. …”
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Differences in the Synergic Accumulation of Toxic Elements in Pelagic and Benthic Fish from Glacier-Fed Rivers of the Dzungarian Alatau by Janiga Marián, Janiga Martin, Brecelj Samuel, Feješ Samuel, Abduakasov Aibek, Oxikbayev Berikzhan, Haas Martina

“…The aim of this study was to assess the concentrations of S, K, Ca, Cr, Mn, Fe, Zn, Rb, Sr, Mo, and P in benthic and pelagic fish species in the Karatal river, which is fed by melting glaciers from the Dzungarian Alatau in Kazakhstan. …”
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Projecting the Impact of Climate Change on Runoff in the Tarim River Simulated by the Soil and Water Assessment Tool Glacier Model by Gonghuan Fang, Zhi Li, Yaning Chen, Wenting Liang, Xueqi Zhang, Qifei Zhang

“…For catchments located in the north Kunlun Mountains (e.g., the Yarkant and Hotan Rivers which are mix-recharged by glacier melt, snowmelt, and rainfall), the runoff will increase significantly, especially in summer due to increased glacier melt and precipitation. …”
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Application of an improved surface energy balance model to two large valley glaciers in the St. Elias Mountains, Yukon by Tim Hill, Christine F. Dow, Eleanor A. Bash, Luke Copland

“…We drive the model with 6 years of in situ meteorological data from Kaskawulsh Glacier and Nàłùdäy (Lowell) Glacier in the St. Elias Mountains, Yukon, Canada, and validate outputs against in situ measurements. …”
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The Potential of Sentinel-1A Data for Identification of Debris-Covered Alpine Glacier Based on Machine Learning Approach by Guohui Yao, Xiaobing Zhou, Changqing Ke, Lhakpa Drolma, Haidong Li

“…Microwave remote sensing is one of the main approaches to glacier monitoring. This paper provides a comparative analysis of how different types of radar information differ in identifying debris-covered alpine glaciers using machine learning algorithms. …”
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Contrasted geomorphological and limnological properties of thermokarst lakes formed in buried glacier ice and ice-wedge polygon terrain by S. Coulombe, S. Coulombe, S. Coulombe, D. Fortier, D. Fortier, F. Bouchard, F. Bouchard, M. Paquette, S. Charbonneau, S. Charbonneau, D. Lacelle, I. Laurion, I. Laurion, R. Pienitz, R. Pienitz

“…<p>In formerly glaciated permafrost regions, extensive areas are still underlain by a considerable amount of glacier ice buried by glacigenic sediments. It is expected that large parts of glacier ice buried in the permafrost will melt in the near future, although the intensity and timing will depend on local terrain conditions and the magnitude and rate of future climate trends in different Arctic regions. …”
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