66 citations as recorded by crossref.

1. Refractory black carbon mass concentrations in snow and ice: method evaluation and inter-comparison with elemental carbon measurement S. Lim et al.
2. Explaining the differential response of glaciers across different mountain ranges in the north-western Himalaya, India S. Romshoo et al.
3. Assessing Satellite‐Derived Radiative Forcing From Snow Impurities Through Inverse Hydrologic Modeling F. Matt & J. Burkhart
4. A Comparison of 36Cl Nuclear Bomb Inputs Deposited in Snow From Vostok and Talos Dome, Antarctica, Using the 36Cl/Cl− ratio S. Pivot et al.
5. Low-background neutron activation analysis: a powerful tool for atmospheric mineral dust analysis in ice cores G. Baccolo et al.
6. What is the real role of iron oxides in the optical properties of dust aerosols? X. Zhang et al.
7. Quantifying sources, transport, deposition, and radiative forcing of black carbon over the Himalayas and Tibetan Plateau R. Zhang et al.
8. Black carbon and mineral dust on two glaciers on the central Tibetan Plateau: sources and implications X. Li et al.
9. Impact of snow darkening via dust, black carbon, and organic carbon on boreal spring climate in the Earth system T. Yasunari et al.
10. Grey Tienshan Urumqi Glacier No.1 and light-absorbing impurities J. Ming et al.
11. Persistent Draining of the Stratospheric 10Be Reservoir After the Samalas Volcanic Eruption (1257 CE) M. Baroni et al.
12. Glaciohydrology of the Himalaya-Karakoram M. Azam et al.
13. Radiative forcing by light-absorbing particles in snow S. Skiles et al.
14. Dark microplastics trigger changes on snow metamorphism that depends on the snow initial density I. Marín-Beltrán et al.
15. Black carbon and the Himalayan cryosphere: A review C. Gertler et al.
16. Chlorine measurements at the 5MV French AMS national facility ASTER: Associated external uncertainties and comparability with the 6MV DREAMS facility R. Braucher et al.
17. The Elbrus (Caucasus, Russia) ice core record – Part 2: history of desert dust deposition S. Kutuzov et al.
18. Spatial and temporal variations of refractory black carbon along the transect from Zhongshan Station to Dome A, eastern Antarctica X. Ma et al.
19. Melting of the Chhota Shigri Glacier, Western Himalaya, Insensitive to Anthropogenic Emission Residues: Insights From Geochemical Evidence S. Nizam et al.
20. Black carbon and dust in the Third Pole glaciers: Revaluated concentrations, mass absorption cross-sections and contributions to glacier ablation Y. Li et al.
21. Albedo reduction for snow surfaces contaminated with soot aerosols: Comparison of experimental results and models M. Lapuerta et al.
22. Black carbon: a general review of its sources, analytical methods, and environmental effects in snow and ice in the Tibetan Plateau X. Wang et al.
23. Light-absorption of dust and elemental carbon in snow in the Indian Himalayas and the Finnish Arctic J. Svensson et al.
24. Influence of aerosol radiative effects on surface temperature and snow melt in the Himalayan region A. Sharma et al.
25. Anhydrosugars as tracers in the Earth system L. Suciu et al.
26. Saharan dust impacts on the surface mass balance of Argentière Glacier (French Alps) L. Roussel et al.
27. Real-time analysis of insoluble particles in glacial ice using single-particle mass spectrometry M. Osman et al.
28. Black carbon in snow in the upper Himalayan Khumbu Valley, Nepal: observations and modeling of the impact on snow albedo, melting, and radiative forcing H. Jacobi et al.
29. Spatio-temporal changes in glacier-wide mass balance quantified by optical remote sensing on 30 glaciers in the French Alps for the period 1983–2014 A. RABATEL et al.
30. A twenty-year deposition record of elemental carbon in Northern Japan retrieved from archived filters N. Kaneyasu et al.
31. Climatic factors affecting Kamchatka glacier recession I. Korneva et al.
32. Snow albedo reductions induced by the internal/external mixing of black carbon and mineral dust, and different snow grain shapes across northern China T. Shi et al.
33. Mitigation of black carbon emissions could immediately reduce 6.3% of glacier melting in the Qilian Mountains J. Chen et al.
34. Black carbon concentration in the central Himalayas: Impact on glacier melt and potential source contribution C. Gul et al.
35. The recent deglaciation of Kolahoi valley in Kashmir Himalaya, India in response to the changing climate I. Rashid et al.
36. Light-absorbing particles in snow and ice: Measurement and modeling of climatic and hydrological impact Y. Qian et al.
37. Quantifying Light Absorption of Iron Oxides and Carbonaceous Aerosol in Seasonal Snow across Northern China Y. Zhou et al.
38. Physically Based Summer Temperature Reconstruction From Melt Layers in Ice Cores K. Fujita et al.
39. A multilayer physically based snowpack model simulating direct and indirect radiative impacts of light-absorbing impurities in snow F. Tuzet et al.
40. Rapid decline of snow and ice in the tropical Andes – Impacts, uncertainties and challenges ahead M. Vuille et al.
41. Spatial and Temporal Distribution of Black Carbon in Peru from the Analysis of Biomass Burning Sources and the Use of Numerical Models A. Moya-Álvarez et al.
42. Light-absorbing impurities in snow of the Indian Western Himalayas: impact on snow albedo, radiative forcing, and enhanced melting P. Thind et al.
43. Light-absorbing impurities accelerating glacial melting in southeastern Tibetan Plateau H. Niu et al.
44. Field Study of Mass Balance, and Hydrology of the West Khangri Nup Glacier (Khumbu, Everest) D. Bocchiola et al.
45. Navigating climate change in carbon negative Bhutan: Insights from policy influencers and comparison to the wider Himalayan region T. Dorji et al.
46. Linking atmospheric pollution to cryospheric change in the Third Pole region: current progress and future prospects S. Kang et al.
47. The impact of Saharan dust and black carbon on albedo and long-term mass balance of an Alpine glacier J. Gabbi et al.
48. Impact of light-absorbing particles on snow albedo darkening and associated radiative forcing over high-mountain Asia: high-resolution WRF-Chem modeling and new satellite observations C. Sarangi et al.
49. Biofuel Burning Influences Refractory Black Carbon Concentrations in Seasonal Snow at Lower Elevations of the Dudh Koshi River Basin of Nepal A. Khan et al.
50. Internal structure of a Himalayan debris-covered glacier revealed by borehole optical televiewing K. Miles et al.
51. Motion of dust particles in dry snow under temperature gradient metamorphism P. Hagenmuller et al.
52. Lead Isotope Evidence for Enhanced Anthropogenic Particle Transport to the Himalayas during Summer Months A. Mitra et al.
53. Dust dominates the summer melting of glacier ablation zones on the northeastern Tibetan Plateau Y. Li et al.
54. Measurements and modeling of snow albedo at Alerce Glacier, Argentina: effects of volcanic ash, snow grain size, and cloudiness J. Gelman Constantin et al.
55. Drought-induced biomass burning as a source of black carbon to the central Himalaya since 1781 CE as reconstructed from the Dasuopu ice core J. Barker et al.
56. Mineral dust aerosols over the Himalayas from polarization-resolved satellite lidar observations N. Lakshmi et al.
57. Impacts of source regions and atmospheric transport on physical properties of black carbon and tracer ratios over the Yellow Sea: evidence from multi-seasonal airborne observations N. Yu et al.
58. In-situ measurements of light-absorbing impurities in snow of glacier on Mt. Yulong and implications for radiative forcing estimates H. Niu et al.
59. The response of surface mass and energy balance of a continental glacier to climate variability, western Qilian Mountains, China W. Sun et al.
60. The decreasing albedo of the Zhadang glacier on western Nyainqentanglha and the role of light-absorbing impurities B. Qu et al.
61. Amazonian Biomass Burning Enhances Tropical Andean Glaciers Melting N. Magalhães et al.
62. Tibetan Plateau Geladaindong black carbon ice core record (1843–1982): Recent increases due to higher emissions and lower snow accumulation J. Matthew et al.
63. Black carbon variability since preindustrial times in the eastern part of Europe reconstructed from Mt. Elbrus, Caucasus, ice cores S. Lim et al.
64. Black carbon and mineral dust in snow cover on the Tibetan Plateau Y. Zhang et al.
65. Impact of absorbing aerosol deposition on snow albedo reduction over the southern Tibetan plateau based on satellite observations W. Lee et al.
66. Light-absorbing impurities in a southern Tibetan Plateau glacier: Variations and potential impact on snow albedo and radiative forcing X. Li et al.