Extraterrestrial Remote Sensing and Climate ChangeThought provoking treatise that aims to answer questions about Earth’s environment based on research done through remote sensing techniques
In Extraterrestrial Remote Sensing and Climate Change, the author addresses longstanding questions about a possible correlation between fluctuations in solar activity and changes in the Earth’s atmosphere and geosphere that have been observed during periods of extraterrestrial changes such as solar eclipses or solar storms. The author goes on to suggest possible mechanisms for anomalies seen in climate change and other environmental effects through a deep examination of interdisciplinary research.
Core topics covered in the work include:
- Data from ground-based detectors and from the Solar and Heliospheric Observatory (SOHO) satellite, which monitor solar activity
- Key variables associated with sunspot eruption, such as electron flux, proton flux, X-ray flux, and planetary indices
- Observable changes in other planets and their moons, as well as in cosmic radiation from beyond the sun
- Extraterrestrial effects on the Earth’s magnetic field and on seismic activity
With its fresh and multidisciplinary approach, Extraterrestrial Remote Sensing and Climate Change is a thought-provoking treatise for students, researchers, and professionals in the fields of environmental science and climate science.
Author(s): Saumitra Mukherjee
Publisher: Wiley
Year: 2022
Language: English
Pages: 177
City: Hoboken
Cover
Title Page
Copyright
Contents
Preface
Acknowledgments
Chapter 1 Extraterrestrial Remote Sensing
1.1 Introduction
Further Reading
Chapter 2 Principles of Remote Sensing of Sun–Earth Climate
2.1 Introduction
2.2 SEVAN Data Interpretation for Solar Influence on Climate Change
2.3 Changes Within the Sun in 24 Hours and Its Effect on the Environment of the Earth
Reference
Further Reading
Chapter 3 Extraterrestrial Remote Sensing Satellites
3.1 Introduction
3.2 Workstation Requirements
3.3 Sun Heliophysical Observatory (SOHO) Interdisciplinary Science Matrix
Reference
Further Reading
Chapter 4 Extraterrestrial Satellite Data Collection and Interpretation
4.1 Introduction
4.2 The Sunspot Activities
4.2.1 Solar Flares Behave Like a Twinkling Butterfly
Further Reading
Chapter 5 Terrestrial Satellite Data Correlation with Extraterrestrial Satellite Data
5.1 Morphological Units
5.2 Terrestrial Correlation
5.3 Geomorphology of Terrestrial Analogue
5.4 Landform Features of Terrestrial Analogue
5.5 Terrain Roughness Index
5.6 Mineralogy of Soil Samples
5.7 Exploration Missions
Reference
Further Reading
Chapter 6 Solar Eclipse and Climate Change
6.1 Introduction
6.2 The Data Interpretation
6.2.1 Tropospheric NO2 Data
6.2.2 Aerosol Data
6.2.3 Cloud Data
6.2.4 Cosmic Ray Data
6.2.5 Electron Flux Data
Further Reading
Chapter 7 Snowfall Influenced by the Changes in the Sun
7.1 Introduction
7.2 Sun–Earth Cosmic Connection in Glacier and Snowfall
7.3 Star–Sun Influence on the Earth's Atmosphere
References
Further Reading
Chapter 8 Rainfall Prediction by Cosmic Ray Variability
8.1 Introduction
8.2 Cosmic Rays and Rainfall
8.3 JNU, New Delhi, India, Showing Sudden Rise in Cosmic Particle Count Rate on 10 April 2012
8.4 Influence of Solar Activity on Weather Prediction
References
Further Reading
Chapter 9 Earthquake Prediction by Using Solar and Cosmic Ray Data
9.1 Introduction
9.2 National Capital Region, India: Tectonics and Extraterrestrial Influence
9.3 Gujarat, Kutch, India Region: Tectonics and Extraterrestrial Influence
Further Reading
Chapter 10 Global Warming and Changes in the Sun
10.1 Introduction
10.2 Impact of Solar Changes on Global Warming
10.3 Arguments in Contradiction to the View of Global Warming
Reference
Further Reading
Chapter 11 Extraterrestrial Remote Sensing of Planets
11.1 Introduction
11.2 Radio Emissions of Jupiter Were Inferred to Establish Its Magnetic Field
11.3 Planets Influenced by Pleiades
11.4 Influence of the Solar Storms Affects Saturn
References
Further Reading
Chapter 12 Remote Sensing of the Moon of the Earth
12.1 Landing Site Selection Based on Morphology and Mineralogy of the Basin
12.2 Morphological Study of the Crater
12.2.1 Fractures on Crater Floor
12.2.2 Central Peak
12.2.3 Terraced Walls
12.2.4 Rampart Crater
12.2.5 Formation of Catena Krafft
12.2.6 Rays Around the Crater
12.3 Morphological Variations in Light of Mineralogy of the Study Area
References
Further Reading
Chapter 13 Remote Sensing of Mars
Further Reading
Chapter 14 Future of Extraterrestrial Remote Sensing
14.1 Introduction
14.2 High‐resolution Extraterrestrial Investigation
14.3 Ionosphere Monitoring Satellite
Further Reading
Index
EULA