Overview
This second edition defines different parts of the cryosphere including: permafrost, snow, land ice, sea ice, ocean, atmosphere and covers numerical modelling of thermodynamic exchanges: conservation of mass, energy, and momentum. It explores the physical basis behind phenomena such as formation of stone circles from melt-freeze processes, snow crystal formation and pressure-melting of glaciers. As an engaging course text for students, it discusses the contribution of melt to sea level rise and explains terms used commonly in the literature. This book is intended for graduates with a numerical sciences background, particularly those who are heading towards postgraduate study or are generally interested in environmental physics. Key Features Explains basic physics underpinning research topics Provides broad understanding of the fundamental cryospheric components Demonstrates how remote sensing measurements are interpreted and used to monitor the cryosphere Describes the importance of the cryosphere within the global ocean and its relationship with the climate Explains observed phenomena supported by many photos, illustrations, links to other reading material and videos
Full Product Details
Author: Melody Sandells (University of Reading, UK) ,
Daniela Flocco (University of Reading, UK)
Publisher: Institute of Physics Publishing
Imprint: Institute of Physics Publishing
Edition: 2nd edition
Dimensions:
Width: 17.80cm
, Height: 1.30cm
, Length: 25.40cm
ISBN: 9780750336451
ISBN 10: 0750336455
Pages: 134
Publication Date: 23 December 2022
Audience:
General/trade
,
General
Format: Hardback
Publisher's Status: Active
Availability: In Print
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Reviews
“In summary it is a wide ranging potentially excellent text from two exciting research scientists.”- Professor Mark Brandon, The Open University
Author Information
Melody Sandells studied Physics at Imperial College, London before undertaking her PhD at the University of Reading and postdoc at University College London. She is now an Associate Professor at Northumbria University and is one of the developers of the Snow Microwave Radiative Transfer model. Her research interests include earth observation of snow and soil moisture, snow physics, snow vegetation radiative interactions, microwave remote sensing and hydrology. Daniela Flocco studied Environmental Sciences and a PhD at SPRI at the University of Cambridge. She carried out her post-doctoral research on sea ice thermodynamics at the Centre for Polar Observation and Modelling in London and then in Reading. She moved on to the National Centre for Atmospheric Science working on a project on sea ice predictability. She now works at the University of Naples Federico II on regional microclimates.
