Study on the Earth’s Surface Mass Variations using Satellite Gravimetry Observations

Our complex planet is continuously undergoing temporal and spatial changes. In this context, ongoing processes in the Earth subsystems (geosphere, biosphere, cryosphere, hydrosphere, and atmosphere) cause changes in the gravity field of the Earth across a wide range of temporal and spatial scales. A...

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Bibliographic Details
Main Author: Amin, Hadi
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Högskolan i Gävle, Samhällsbyggnad 2022
Subjects:
geodetic reference system
geoid potential
global vertical datum
climate change
global warming
mass change
ice melting
sea-level change
remote sensing
satellite gravimetry
geodetiska referenssystem
geopotential
globala vertikala datum
klimatförändring
global uppvärmning
massförändring
issmältning
havsnivåförändring
fjärranalys
satellitgravimetri
Geosciences
Multidisciplinary
Multidisciplinär geovetenskap
Ice Sheet
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-39412
Description
Summary:Our complex planet is continuously undergoing temporal and spatial changes. In this context, ongoing processes in the Earth subsystems (geosphere, biosphere, cryosphere, hydrosphere, and atmosphere) cause changes in the gravity field of the Earth across a wide range of temporal and spatial scales. Accordingly, by both spatially and temporally tracing our planet’s ever-changing gravity field, scientists can better constrain the underlying processes contributing to such dynamic changes of mass distribution within the Earth system. Monitoring the Earth’s gravity field and its temporal variations is essential, among others, for tracking disasters and specifying land areas with a high risk of flooding, earthquakes, and droughts, movements of tectonic plates, and providing accurate positioning through satellite positioning technology. On short-term timescales, temporal variations in the Earth’s gravity field are mainly caused by the movement of water in its various forms. Accordingly, sea-level variations and ice-sheet and glacier changes, which are known as critical indicators of global warming and climate change, can be accurately monitored by tracking the Earth’s gravity field changes. Since there is a close link between water redistribution and the Earth’s energy cycle, climate system, food security, human and ecosystem health, energy generation, economic and societal development, and climate extremes (droughts and floods), it is essential to accurately monitor water mass exchange between the Earth system components. Among all observational techniques, satellite gravimetry has provided an integrated global view of ongoing processes within the Earth system. The current generation of satellite gravimetry missions (the Gravity Recovery and Climate Experiment (GRACE) mission and its successor, GRACE Follow-On) has dramatically revolutionized our understanding of dynamic processes in the Earth’s surface and, consequently, has significantly improved our understanding of the Earth’s climate system. By considering ...

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