Geology of the Himalayan Belt e-bog
1021,49 DKK
(inkl. moms 1276,86 DKK)
Geology of the Himalayan Belt: Deformation, Metamorphism, Stratigraphy presents sophisticated metamorphic and igneous rock data across various Himalayan geographic sectors, capturing their petrography, metamorphism, structure, mineralization, and regional tectonic research. With an east-west extension of about 3000 kilometers and numerous 8000 meter peaks, the Himalayas are the most spectacul...
E-bog
1021,49 DKK
Forlag
Elsevier
Udgivet
4 marts 2016
Længde
264 sider
Genrer
Geology, geomorphology and the lithosphere
Sprog
English
Format
pdf
Beskyttelse
LCP
ISBN
9780128020609
Geology of the Himalayan Belt: Deformation, Metamorphism, Stratigraphy presents sophisticated metamorphic and igneous rock data across various Himalayan geographic sectors, capturing their petrography, metamorphism, structure, mineralization, and regional tectonic research. With an east-west extension of about 3000 kilometers and numerous 8000 meter peaks, the Himalayas are the most spectacular mountain ranges on earth. Since the 19th century, they have provided a testing ground of global importance for the development of geodynamic concepts, from isostasy over continental collision, to more recently, feedback mechanisms between tectonics and climate. This book collects the broad range of data that's been gathered on the Himalayas over the past 50 years, providing a comprehensive analysis and interpretation on the available data that brings the scientific community a better understanding of the geological diversity and structure of the Himalayan belt, along with new techniques that have applications in a host of global geological settings. Features a vast amount of geological research data collected in the Himalayas over the past half century Authored by a recognized global expert on the geology of the Himalayan belt Presents analysis and interpretation techniques to aid scientists in conducting fieldwork and research Provides the latest information on geodynamic concepts, from isostasy over continental collision, to more recently, feedback mechanisms between tectonics and climate