Anthropogenic Influence on Surface Changes at Olivares Glaciers, Central Chile

Barandun, Martina; Bravo, Claudio; Grobéty, Bernard; Jenk, Theo M.; Fang, Ling; Naegeli, Kathrin; Rivera, Andrés; Cisternas, Sebastián; Münster, Tatjana; Schwikowski, Margit

doi:10.5194/egusphere-egu22-7864

Cited by 4 publications

(3 citation statements)

References 66 publications

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“…Flanner (2013) calculated that the presence of black carbon on arctic glaciers contributes to an energy balance sensitivity of +0.5 ± 0.4 W m À2 K À1 . Because of the anthropogenic origin of black carbon, changes in albedo and therefore mass balance properties on glaciers can be considered as a direct anthropogenic imprint (Barandun et al, 2022).…”

Section: Glaciersmentioning

confidence: 99%

The sensitivity and evolutionary trajectory of the mountain cryosphere: Implications for mountain geomorphic systems and hazards

Knight

Harrison

2023

Land Degrad Dev

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Global climate change gives rise to changing spatial patterns of snow and ice, especially over mountain blocks where orographic and synoptic circulation effects play significant roles in creating patterns of precipitation and glacier development. The presence of snow and ice results in heat balance changes and other land surface feedbacks that have implications for patterns of mountain glacier retreat and the dynamics of mountain geomorphic systems. This study considers the sensitivity of the mountain cryosphere (snow, ice, permafrost) to global climate change, and the implications of this sensitivity analysis for evaluating mountain surface stability, geomorphic change, and the generation of mountain geohazards. Consideration of these issues is informed by evidence from case studies reported in the literature and by field observations of mountain system dynamics worldwide. Results show that ‘sensitivity’ to climate forcing has been interpreted and defined in different ways in mountain snow, ice, and permafrost systems, with respect to properties such as albedo, mass balance or rapidity of system change. There are also significant spatial differences in sensitivity between different mountain blocks for snow, ice and permafrost, and these regions are therefore likely to follow different trajectories of geomorphic change in response to climate forcing, related to their physiographic properties and the extent of cryospheric coverage. Within glaciated mountains in particular, the relative timing of different geomorphic events, and the interplay between slope, glacier front, and proglacial sediment sources and environments, may vary depending on glacier size, geomorphic setting, and microclimate. By contrast, responses to permafrost warming (increased surface instability and mass movements) and changes in snow patterns (avalanche risk, floods) may have quite different spatial and temporal patterns and influenced by different environmental controls. An integrated evolutionary model for mountain system development under a changing cryosphere is proposed, highlighting the critical role of energy balance as a forcing factor that then triggers downstream mountain system responses. This suggests that different elements of mountain systems exhibit different sensitivities, and furthermore that these sensitivities change over time and space through the period of anthropogenic global warming and paraglacial relaxation.

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Section: Glaciersmentioning

confidence: 99%

The sensitivity and evolutionary trajectory of the mountain cryosphere: Implications for mountain geomorphic systems and hazards

Knight

Harrison

2023

Land Degrad Dev

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“…In the central Chilean Andes too, BC was found in significant amounts in snow, creating an estimated additional radiative forcing of 1.4 W m −2 in the region of Santiago for winter months (Rowe et al, 2019), which can go up to 10 W m −2 for the most impacted sites (Cordero et al, 2022). Dust emitted by mining activities (Barandun et al, 2022) and mineral dust from the Atacama desert lifted by winds are also found to affect glaciers and snow in northern Chile (Rowe et al, 2019), although the albedo effect for visible wavelengths is scaled down by a factor of about 200 compared to an equivalent mass of BC (Dang et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Meteorological export and deposition fluxes of black carbon on glaciers of the central Chilean Andes

Lapere

Huneeus²,

Mailler³

et al. 2023

Atmos. Chem. Phys.

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Abstract. Air pollution in the central zone of Chile is not only a public health concern but also threatens water resources and climate, in connection with the transport and deposition of black carbon (BC) from urban centers onto the glaciers of the Andes. Chemistry-transport simulations reveal a seasonal dichotomy in the flux and latitudinal pattern of BC deposition on glaciers of the central Chilean Andes. The average deposition flux of BC on glaciers between 30 and 37∘ S is 4 times larger in winter, affecting mostly low-elevation glaciers, whereas the smaller summertime flux affects glaciers evenly, irrespective of their elevation. The contribution of emissions from the city of Santiago is dominant in summertime with more than 50 % along the Andes but minor in wintertime with less than 20 % even close to the capital city. Transport at larger scales and more local sources likely account for the remaining flux. The superimposition of synoptic-scale circulation and local mountain-valley circulation along the Andes drives the differences between summertime and wintertime deposition fluxes and generates a greater meteorological export potential during summer months. Future emissions and climate projections suggest that under the RCP8.5 scenario the gap between summertime and wintertime BC export and deposition flux could decrease, thereby pointing to summertime emission control gaining relevance. The chemistry-transport modeling approach for BC deposition on the Andes sheds light on the importance of the often disregarded summertime emissions on the radiative balance of its glaciers, particularly in the vicinity of Santiago.

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“…In recent years, a considerable number of in-depth research addressing the mechanistic factors in the generation of aerosols and gaseous substances have been carried out concerning climate change and glacier melting (Kuniyal et al, 2019;Usha et al, 2021;Sharma et al, 2022; Barandun et al, 2022). The purpose of the current study is to shed light on research patterns regarding the characteristics of author distribution, international collaboration, and academic interaction for aerosol-related research on the glacier.…”

Section: Introductionmentioning

confidence: 99%

A bibliometric and visualization analysis of the aerosol research on the Himalayan glaciers

Pippal,

Kumar,

Singh

et al. 2023

Environ Sci Pollut Res

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This research focuses on a bibliometric analysis of research on aerosols' impact on the glaciers in the Indian Himalayan region (IHR) published in journals from all subject categories based on the Science Citation Index Expanded, collected from the Web of Science and Scopus database between the years 2002 and April 2022. The indexing phrases like "aerosol," "glacier," and "snow" are commonly used terms and have been utilized to collect the related publications for this investigation. The document selections were based on years of publication, authorship, the scienti c output of authors, distribution of publication by country, categories of the subjects, and names of journals in which scholarly papers were published. The journal's impact factor trend, citation trend, and the count of keywords used by authors were also included. The number of articles on aerosols accelerating the melting of glaciers shows a notable increase in recent years, along with more glacier melting results from countries involved in climate science research. China (382) was the country with the highest publication output on aerosols accelerating the melting of glaciers. The United States (367) was the most cited country with about 17500 total citations and 80.40 average citations per year from 2002-April 2022. The results reveal that research trends in the glaciers on aerosols' impact on the glaciers have been attractive in recent years, and the number of articles in this eld keeps increasing fast.

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Anthropogenic Influence on Surface Changes at Olivares Glaciers, Central Chile

Cited by 4 publications

References 66 publications

The sensitivity and evolutionary trajectory of the mountain cryosphere: Implications for mountain geomorphic systems and hazards

The sensitivity and evolutionary trajectory of the mountain cryosphere: Implications for mountain geomorphic systems and hazards

Meteorological export and deposition fluxes of black carbon on glaciers of the central Chilean Andes

A bibliometric and visualization analysis of the aerosol research on the Himalayan glaciers

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