Reprint

Condensed Matter Researches in Cryospheric Science

Edited by
September 2019
144 pages
  • ISBN978-3-03921-323-8 (Paperback)
  • ISBN978-3-03921-324-5 (PDF)

This is a Reprint of the Special Issue Condensed Matter Researches in Cryospheric Science that was published in

Physical Sciences
Summary

The cryosphere is very sensitive to climate change, and glaciers represent one of the most important archives of atmospheric composition and its variability. From the Himalaya to the European Alps, the longest mid-latitude mountain chain in the world, lie thousands of glaciers that have collected atmospheric compounds over the last millennia. China and Italy are located at the opposite terminals of this long mountain chain, comprising strategic positions for understanding climate evolution and providing important information for the modeling of future climates.

The results presented are highlights of some of the most recent advances in cryospheric studies, especially on the topic of mineral dust and aerosols in the atmosphere. They evidence the complexity of the chemical–physical processes involving solid compounds occurring in glacier, snow, and permafrost environments, covering different aspects such as spatial and temporal trends, as well as the impact of mineral and nonmineral particles. Results also show that recent advances in measurement techniques and source apportionment may be powerful and sophisticated tools to provide novel, high-quality scientific information.

Format
  • Paperback
License and Copyright
© 2019 by the authors; CC BY-NC-ND license
Keywords
Arctic; Arctic rapid warming; global warming hiatus; global warming slowdown; particulate matter; simultaneous measurements; mineral elements; compositional data analysis; ultra-dilution; droplets; water; evaporation; X-ray fluorescence; cryoconite; POPs; microbiology; long-range transport; cryosphere; contaminants; bacteria; atmospheric mineral dust; ice core; Antarctica; paleoclimate; synchrotron radiation; X-ray absorption near edge spectroscopy; X-ray fluorescence; iron geochemistry; synchrotron radiation; X-ray fluorescence spectroscopy; X-ray absorption fine structure spectroscopy; trace elements; cryospheric sciences; snow; ice; dust; TXRF; polycapillary optics; low concentration elemental analysis; mineral dust; XANES; paleoclimatology; ice cores; southern hemisphere; Laohugou glacier; snow; insoluble dust; iron speciation; XANES and LCF; XAS spectroscopy; synchrotron radiation; environment; synchrotron radiation; ice core, atmospheric mineral dust; X-ray absorption spectroscopy