Authors: Jing Luo, Guo-An Yin, Fu-Jun Niu, Tian-Chun Dong, Ze-Yong Gao, Ming-Hao Liu, Fan Yu
Superior Title: Advances in Climate Change Research, Vol 15, Iss 2, Pp 253-264 (2024)
Subject Terms: Retrogressive thaw slump, Machine learning, Susceptibility map, Permafrost, Northern Hemisphere, Meteorology. Climatology, QC851-999, Social sciences (General), H1-99
File Description: electronic resource
Authors: Niu, FujunAff1, Aff2, Jiao, ChenglongAff1, Aff2, Luo, JingAff3, IDs1375302300503z_cor3, He, JunlinAff1, Aff2, He, PeifengAff1, Aff2
Superior Title: International Journal of Disaster Risk Science. 14(4):566-585
Authors: Jiao, ZhipingAff1, Aff2, Xu, ZhidaAff1, Aff2, Guo, RuiAff1, Aff2, Zhou, Zhiwei, Jiang, LimingAff1, Aff2, IDs1375302300505x_cor5
Superior Title: International Journal of Disaster Risk Science. 14(4):523-538
Authors: Fujun Niu, Chenglong Jiao, Jing Luo, Junlin He, Peifeng He
Superior Title: International Journal of Disaster Risk Science, Vol 14, Iss 4, Pp 566-585 (2023)
Subject Terms: Permafrost, Retrogressive thaw slump, Ground ice ablation, Hydrological ecosystem, Qinghai-Tibet Plateau, Disasters and engineering, TA495
File Description: electronic resource
Authors: Zhiping Jiao, Zhida Xu, Rui Guo, Zhiwei Zhou, Liming Jiang
Superior Title: International Journal of Disaster Risk Science, Vol 14, Iss 4, Pp 523-538 (2023)
Subject Terms: Multi-temporal InSAR, Permafrost thawing, Qinghai-Tibet Plateau (QTP), Retrogressive thaw slump, Disasters and engineering, TA495
File Description: electronic resource
Authors: Julius Kunz, T. Ullmann, C. Kneisel, R. Baumhauer
Superior Title: Arctic, Antarctic, and Alpine Research, Vol 55, Iss 1 (2023)
Subject Terms: Retrogressive thaw slump, permafrost, spatiotemporal slump development, near-surface geophysics, remote sensing, Environmental sciences, GE1-350, Ecology, QH540-549.5
File Description: electronic resource
Authors: Haitao Sun, Pei Wang, Yuhua Xing, Dapeng Zhang, Siying Li
Superior Title: Water, Vol 16, Iss 4, p 571 (2024)
Subject Terms: retrogressive thaw slumps, thaw slump stages, soil water retention, soil organic carbon, soil hydraulic properties, Qinghai-Tibet Plateau, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
File Description: electronic resource
Superior Title: Nitrogen, Vol 3, Iss 4, Pp 608-627 (2022)
Subject Terms: ammonification, nitrification, N2O, denitrification, thermoerosion, retrogressive thaw slumps, Ecology, QH540-549.5
File Description: electronic resource
Authors: Thomas, Maxime, Jongejans, Loeka L., Strauss, Jens, Vermylen, Chloé, Calcus, Sacha, Monhonval, Arthur, Opel, Thomas, Grosse, Guido, Opfergelt, Sophie, 6th European Conference on Permafrost
Contributors: UCL - SST/ELI/ELIE - Environmental Sciences
Subject Terms: mineral-organic carbon interactions, retrogressive thaw slump, mass wasting, thermokarst landform, Batagay
Relation: info:eu-repo/grantAgreement/European Research Council (ERC)/European Union’s Horizon 2020 research and innovation program/714617; info:eu-repo/grantAgreement/FRS-FNRS//FC69480; info:eu-repo/grantAgreement/Leverhulme Trust//RPG-2020-334; info:eu-repo/grantAgreement/AWI/baseline funds/; info:eu-repo/grantAgreement/German Federal Environmental Foundation/DBU/; boreal:276026; http://hdl.handle.net/2078.1/276026
Availability: http://hdl.handle.net/2078.1/276026
Authors: Thomas, Maxime, Monhonval, Arthur, Hirst, Catherine, Bröder, Lisa, Zolkos, Scott, Vonk, Jorien, Tank, Suzanne E., Keskitalo, Kirsi, Shakil, Sarah, Kokelj, Steven V., van der Sluijs, Jurjen, Opfergelt, Sophie
Superior Title: Thomas , M , Monhonval , A , Hirst , C , Bröder , L , Zolkos , S , Vonk , J , Tank , S E , Keskitalo , K , Shakil , S , Kokelj , S V , van der Sluijs , J & Opfergelt , S 2023 , ' Evidence for preservation of organic carbon interacting with iron in material displaced from retrogressive thaw slumps : Case study in Peel Plateau, western Canadian Arctic ' , Geoderma , vol. 433 , 116443 , pp. 1-17 . https://doi.org/10.1016/j.geoderma.2023.116443
Subject Terms: Iron, Mass wasting, Mineral-organic carbon interactions, Peel Plateau, Retrogressive thaw slumps
Availability:
https://doi.org/10.1016/j.geoderma.2023.116443
https://research.vu.nl/en/publications/e0b08c60-b7e5-479d-8fd6-216e449dcabc
https://hdl.handle.net/1871.1/e0b08c60-b7e5-479d-8fd6-216e449dcabc
http://www.scopus.com/inward/record.url?scp=85151720177&partnerID=8YFLogxK
http://www.scopus.com/inward/citedby.url?scp=85151720177&partnerID=8YFLogxK
Authors: M. O. Leibman, A. I. Kizyakov, N. B. Nesterova, I. I. Tarasevich, М. О. Лейбман, А. И. Кизяков, Н. Б. Нестерова, И. И. Тарасевич
Contributors: The study was funded by the Russian Science Foundation, project number 22-27-00644., Исследование выполнено за счет гранта Российского научного фонда № 22-27-00644.
Superior Title: Arctic and Antarctic Research; Том 69, № 4 (2023); 486-500 ; Проблемы Арктики и Антарктики; Том 69, № 4 (2023); 486-500 ; 2618-6713 ; 0555-2648
Subject Terms: формы рельефа, cryogenic landsliding, ground ice, landform, retrogressive-thaw slump, thermocirque, thermoterrace, криогенное оползание, оползень течения, подземный лед, термотерраса, термоцирк
File Description: application/pdf
Relation: https://www.aaresearch.science/jour/article/view/576/270; Лейбман М.О., Кизяков А.И. Криогенные оползни Ямала и Югорского полуострова. М.: Институт криосферы земли СО РАН; 2007. 206 с.; Leibman M., Khomutov A., Kizyakov A. Cryogenic landslides in the West-Siberian plain of Russia: classification, mechanisms, and landforms. In: W. Shan et al. (eds.). Landslides in cold regions in the context of climate change. Environmental Science and Engineering. Springer International Publishing, Switzerland; 2014. P. 143–162.; Кизяков А.И., Лейбман М.О., Передня Д.Д. Деструктивные рельефообразующие процессы побережий арктических равнин с пластовыми подземными льдами. Криосфера Земли. 2006; 10(2): 79–89.; Крицук Л.Н., Дубровин В.А., Ястреба Н.В. Результаты комплексного изучения динамики береговой зоны Карского моря в районе метеостанции Марре-Сале с использованием ГИСтехнологий. Криосфера Земли. 2014; 18(4): 59–69.; Khomutov A., Leibman M., Dvornikov Yu., Gubarkov A., Mullanurov D., Khairullin R. Activation of cryogenic earth flows and formation of thermocirques in Central Yamal as a result of climate fluctuations. In: Mikoš K., Vilímek V., Yin Y., Sassa K. (eds). Advancing culture of living with landslides. VLF 2017. Cham: Springer International Publishing AG; 2017. P. 209–216. https://doi.org/10.1007/978-3-319-53483-1_24; Lewkowicz A.G., Way R.G. Extremes of summer climate trigger thousands of thermokarst landslides in a high Arctic environment. Nature Communications. 2019; 10(1): 1329. https://doi.org/10.1038/s41467-019-09314-7; Нестерова Н.Б., Хомутов А.В., Лейбман М.О., Сафонов Т.А., Белова Н.Г. Инвентаризация термоцирков на Севере Западной Сибири по данным мозаики спутниковых снимков 2016- 2018 годов. Криосфера Земли. 2021; 25(6): 41–50. https://doi.org/10.15372/KZ20210604; Маслаков А.А., Кузякин Л.П., Комова Н.Н. Динамика развития термоцирка, вмещающего залежь пластового льда, вблизи села Лаврентия (Чукотский АО) за 2018–2021 гг. Арктика и Антарктика. 2021; (4): 32–46. https://doi.org/10.7256/2453-8922.2021.4.37225; Хомутов А.В., Лейбман М.О., Андреева М.В. Методика картографирования пластовых льдов центрального Ямала. Вестник Тюменского государственного университета. Науки о Земле. 2012; (7): 76–84.; Swanson D.K., Nolan M. Growth of retrogressive thaw slumps in the Noatak Valley, Alaska, 2010–2016, measured by airborne photogrammetry. Remote Sensing. 2018; 10(7); 983. https://doi.org/10.3390/rs10070983; Mu C., Shang J., Zhang T., Fan C., Wang S., Peng X., Zhong W., Zhang F., Mu M., Jia L. Acceleration of thaw slump during 1997–2017 in the Qilian mountains of the Northern Qinghai-Tibetan plateau. Landslides. 2020; 17: 1051–1062. https://doi.org/10.1007/s10346-020-01344-3; Witharana C., Udawalpola M.R., Liljedahl A.K., Jones M.K.W., Jones B.M., Hasan A., Joshi D., Manos E. Automated detection of retrogressive thaw slumps in the High Arctic using high-resolution satellite imagery. Remote Sensing. 2022; 14(17): 4132. https://doi.org/10.3390/rs14174132; Xia Z., Huang L., Fan C., Jia S., Lin Z., Liu L., Luo J., Niu F., Zhang T. Retrogressive thaw slumps along the Qinghai-Tibet Engineering Corridor: A comprehensive inventory and their distribution characteristics. Earth System Science Data. 2022; 14(9): 3875–3887.; https://www.aaresearch.science/jour/article/view/576
Authors: Marina Leibman, Nina Nesterova, Maxim Altukhov
Superior Title: Geosciences; Volume 13; Issue 6; Pages: 167
Subject Terms: retrogressive thaw slump, thermocirque, West Siberia, thermocirque dimensions, Sentinel-2, UAV survey, WorldView 2, WorldView 3, Landsat, ArcticDEM
Subject Geographic: agris
File Description: application/pdf
Availability: https://doi.org/10.3390/geosciences13060167
Authors: Thomas, Maxime, Monhonval, Arthur, Hirst, Catherine, Bröder, Lisa, Zolkos, Scott, Vonk, Jorien E., Tank, Suzanne E., Keskitalo, Kirsi H., Shakil, Sarah, Kokelj, Steven V., van der Sluijs, Jurjen, Opfergelt, Sophie
Superior Title: Geoderma, 433
Subject Terms: Mineral-organic carbon interactions, Retrogressive thaw slumps, Mass wasting, Peel Plateau, Iron
File Description: application/application/pdf
Relation: info:eu-repo/semantics/altIdentifier/wos/000981944500001; http://hdl.handle.net/20.500.11850/608066
Authors: Thomas, Maxime, Jongejans, Loeka L., Strauss, Jens, Vermylen, Chloe, Calcus, Sacha, Monhonval, Arthur, Opel, Thomas, Opfergelt, Sophie, 7ème édition du colloque Climat et Impacts
Contributors: UCL - SST/ELI/ELIE - Environmental Sciences
Subject Terms: mineral-organic carbon interactions, retrogressive thaw slumps, mass wasting, iron, Batagaika crater, permafrost
Relation: info:eu-repo/grantAgreement/UCLouvain/European Union’s Horizon 2020 research and innovation program/grant agreement No.714617; boreal:266586; http://hdl.handle.net/2078.1/266586
Availability: http://hdl.handle.net/2078.1/266586
Authors: Левочкина О.В., Лейбман М.О., Тарасевич И.И., Факащук Н.Ю., Мареев В.А., Хомутов А.В.
Subject Terms: термоденудация, термоцирк, Центральный Ямал, донные отложения, thermal denudation, retrogressive thaw slump, Central Yamal, bottom deposits
Authors: Nicu, Ionut Cristi, Lombardo, LuigiAff2, Rubensdotter, LenaAff3, Aff4
Superior Title: Landslides: Journal of the International Consortium on Landslides. 18(8):2935-2947
Authors: Andrew Clark, Brian Moorman, Dustin Whalen, Paul Fraser
Superior Title: Arctic Science, Vol 7, Iss 3, Pp 605-633 (2021)
Subject Terms: uav-sfm, arctic coastal erosion, oblique imagery, coastal retrogressive thaw slump, volumetric coastal erosion, Environmental sciences, GE1-350, Environmental engineering, TA170-171
File Description: electronic resource
Relation: https://doaj.org/toc/2368-7460
Authors: Diane C. Huebner, Agata Buchwal, M. Syndonia Bret‐Harte
Superior Title: Ecosphere, Vol 13, Iss 6, Pp n/a-n/a (2022)
Subject Terms: climate sensitivity, microsite, retrogressive thaw slump, secondary growth, shrubs, tundra, Ecology, QH540-549.5
File Description: electronic resource
Relation: https://doaj.org/toc/2150-8925
Authors: Chenglong Jiao, Fujun Niu, Peifeng He, Lu Ren, Jing Luo, Yi Shan
Superior Title: Remote Sensing; Volume 14; Issue 21; Pages: 5592
Subject Terms: permafrost, thermokarst, retrogressive thaw slump, mass wasting, DEM-FDM, TLS-UAV, Qinghai–Tibet Plateau
Subject Geographic: agris
File Description: application/pdf
Relation: Remote Sensing in Geology, Geomorphology and Hydrology; https://dx.doi.org/10.3390/rs14215592
Availability: https://doi.org/10.3390/rs14215592
Authors: Chandi Witharana, Mahendra R. Udawalpola, Anna K. Liljedahl, Melissa K. Ward Jones, Benjamin M. Jones, Amit Hasan, Durga Joshi, Elias Manos
Superior Title: Remote Sensing; Volume 14; Issue 17; Pages: 4132
Subject Terms: Arctic, permafrost, retrogressive thaw slump, satellite images, deep learning
Subject Geographic: agris
File Description: application/pdf
Relation: Biogeosciences Remote Sensing; https://dx.doi.org/10.3390/rs14174132
Availability: https://doi.org/10.3390/rs14174132