The abundance of data that describes the shape and the physical properties of the Earth's surface provides us with the opportunity to understand the interactions between the solid Earth, the biosphere and the atmosphere. It allows researchers to detect and quantify tectonic, climatic and geomorphic signatures preserved in the landscape.
Lernziel
This course will teach the basic methods available through GIS tools, and spatially-based computations based on standard, publicly available data. We will also learn about conversions beween standard formats, visualization methods, data extraction and standard geomorphic analyses.
Inhalt
Topographic data, as well as satellite and aerial photography became widely available during the last decade and are now extremely common in virtually any field of Earth Sciences. This data allows researchers to detect and quantify tectonic, climatic and geomorphic signatures preserved in the landscape. This includes, but is not limited to, the topographic expression of active faults, different tectonic and climate forcings, and various geomorphic process regimes. During this half-semester course (first half-semester) students will learn how to analyze and interpret digital topographic data to improve understanding of how landscapes record tectonic and geomorphic processes through a series of case-studies and hands-on practicals.
Literatur
No required textbook, but students will be expected to read primary literature (provided by lecturer) associated with each case-study prior to each class.
Voraussetzungen / Besonderes
The course will utilize both ArcGIS and Matlab software.
Leistungskontrolle
Information zur Leistungskontrolle (gültig bis die Lerneinheit neu gelesen wird)