Remote Sensing of Geomorphodiversity Linked to Biodiversity—Part III: Traits, Processes and Remote Sensing Characteristics

Author:

Lausch AngelaORCID,Schaepman Michael E.ORCID,Skidmore Andrew K.ORCID,Catana Eusebiu,Bannehr Lutz,Bastian Olaf,Borg ErikORCID,Bumberger JanORCID,Dietrich PeterORCID,Glässer Cornelia,Hacker Jorg M.ORCID,Höfer Rene,Jagdhuber ThomasORCID,Jany Sven,Jung AndrásORCID,Karnieli ArnonORCID,Klenke ReinhardORCID,Kirsten ToralfORCID,Ködel Uta,Kresse Wolfgang,Mallast UlfORCID,Montzka CarstenORCID,Möller MarkusORCID,Mollenhauer Hannes,Pause Marion,Rahman MinhazORCID,Schrodt Franziska,Schmullius Christiane,Schütze ClaudiaORCID,Selsam PeterORCID,Syrbe Ralf-Uwe,Truckenbrodt SinaORCID,Vohland MichaelORCID,Volk MartinORCID,Wellmann ThiloORCID,Zacharias SteffenORCID,Baatz Roland

Abstract

Remote sensing (RS) enables a cost-effective, extensive, continuous and standardized monitoring of traits and trait variations of geomorphology and its processes, from the local to the continental scale. To implement and better understand RS techniques and the spectral indicators derived from them in the monitoring of geomorphology, this paper presents a new perspective for the definition and recording of five characteristics of geomorphodiversity with RS, namely: geomorphic genesis diversity, geomorphic trait diversity, geomorphic structural diversity, geomorphic taxonomic diversity, and geomorphic functional diversity. In this respect, geomorphic trait diversity is the cornerstone and is essential for recording the other four characteristics using RS technologies. All five characteristics are discussed in detail in this paper and reinforced with numerous examples from various RS technologies. Methods for classifying the five characteristics of geomorphodiversity using RS, as well as the constraints of monitoring the diversity of geomorphology using RS, are discussed. RS-aided techniques that can be used for monitoring geomorphodiversity in regimes with changing land-use intensity are presented. Further, new approaches of geomorphic traits that enable the monitoring of geomorphodiversity through the valorisation of RS data from multiple missions are discussed as well as the ecosystem integrity approach. Likewise, the approach of monitoring the five characteristics of geomorphodiversity recording with RS is discussed, as are existing approaches for recording spectral geomorhic traits/ trait variation approach and indicators, along with approaches for assessing geomorphodiversity. It is shown that there is no comparable approach with which to define and record the five characteristics of geomorphodiversity using only RS data in the literature. Finally, the importance of the digitization process and the use of data science for research in the field of geomorphology in the 21st century is elucidated and discussed.

Publisher

MDPI AG

Subject

General Earth and Planetary Sciences

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