This research addresses the lack of historical EDW studies in the Norwegian mountains, establishing temperature reference series and analyzing long-term trends based on meteorological observations
Insights into Atmospheric Composition and Climate Variability in Caucasus Ice Cores and Snow Pits via Trace Element Analysis
The study examines trace element variability, sources, and climate impacts in the Caucasus mountain glaciers compared to Alpine data.
Seasonality and Albedo Dependence of Cloud Radiative Forcing in the Upper Colorado River Basin
Clouds can increase or decrease available net radiation at the Earth surface. We quantify the radiative forcing by clouds using ground based observations for an intensively monitored mountain site.
Aerosol induced Changes in Glacial and Polar Ice Melt: A Multi-Scale Analysis using Remote Sensing and Transport Modeling
Temperature anomalies are primary drivers of glacial melt, atmospheric composition due to complex aerosol interactions accelerate ice loss. Examined aerosol transport and SOA for attribution of source.
Status of Deforestation and Forest Degradation and Drivers thereof in Indo-Himalayan region
This study examines deforestation and forest degradation in the Indo-Himalayan region, estimating carbon stock, assessing forest status, identifying D&FD drivers, and proposing strategic solutions.
Social-Economic And Environmental Impact of Rishikesh-Karnaprayag Railway Line:A Case Study of Maletha Village In Garhwal Region
The study concluded that acquisition of agricultural land is the main driver which will impact the livelihood of natives of the area and causes a decline in their source of income.
First insights from the second HinterEisFerner EXperiment: advancing our understanding of the glacier microclimate in the valley context
The second HinterEisFerner EXperiment (HEFEX II) yielded unprecedented observations of the glacier boundary layer.
An in-depth analysis of meteorological conditions and air quality during major forest fire events in the northwestern himalayas
Meteorological conditions pre-, during-, and post-fire significantly influence fire behavior, burn severity, and emissions. This study analyzes these effects in the Northwestern Himalayas using ERA5,
Combining signal-to-noise ratio and tropospheric delays from GNSS to observe severe thunderstorm events: Case studies from the Alpine region
Severe thunderstorm events over the Alpine region are analysed using signal-to-noise ratio and tropospheric delays from Global Navigation Satellite Systems (GNSS).