González-Santacruz, NicolásFernandoy, Francisco bGoto-Azuma, KumikoHirabayashi, MotohiroCordero, RaúlFeron, SarahFaria, Sérgio Henrique2025-04-092025-04-09202500221430https://repositorio.unab.cl/handle/ria/64101Indexación: Scopus.TEXTO COMPLETO EN INGLÉSThis study investigates black carbon (BC) concentrations in the seasonal snowpack on the Godwin-Austen Glacier and in surface snow at K2 Camps 1 and 2 (Karakoram Range), assessing their impact on snowmelt during the 2019 ablation season. Potential BC and moisture sources were identified through back-trajectory analysis and atmospheric reanalyses. Variations in water stable isotopes (δ18O and δ2H) in the snowpack were analysed to confirm its representativeness as a climatic record for the 2018–19 accumulation season. The average BC concentration in the snowpits (12 ng g-1) generated 66 mm w.e. (or 53 mm w.e. excluding the basal zone) of meltwater. Surface snow at K2 Camp 1 showed BC concentrations of 7 ng g-1, consistent with those on the snowpack surface, suggesting it may reflect local BC levels in late February 2019. In contrast, higher concentrations at K2 Camp 2 (26 ng g-1) were potentially linked to expedition activities. © 2025 Cambridge University Press. All rights reserved.enBlack carbon (BC)ConcentrationsSeasonal snowpackGodwin-AustenGlacierK2 Camps 1 and 2Karakoram RangeSnowmeltArtículoAttribution 4.0 International CC BY 4.0 Deed10.1017/jog.2024.111