Marius B. Philipp
6 Papers
4 Citations
Marius B. Philipp is an academic researcher. The author has contributed to research in topics: Permafrost & Climate change. The author has an hindex of 2, co-authored 3 publications.
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Papers
Trends in Satellite Earth Observation for Permafrost Related Analyses—A Review
TL;DR: The temporal development of publication frequency, utilized platforms/sensors and the addressed environmental topic is thereby highlighted, and the total number of publications more than doubled since 2015, while large portions of the continuous permafrost zone are still only sparsely covered by satellite remote sensing investigations.
54
Quantifying the Response of German Forests to Drought Events via Satellite Imagery
TL;DR: In this paper, the authors explored the potential of satellite data in combination with harmonic analyses for quantifying the vegetation response to drought events in German forests and found the strongest correlation between remote sensing data and meteorological measures were observed for soil moisture and the self-calibrated Palmer Drought severity index (scPDSI).
13
Deciphering Small-Scale Seasonal Surface Dynamics of Rock Glaciers in the Central European Alps Using DInSAR Time Series
Sebastian Buchelt,Jan Henrik Blöthe,Claudia Kuenzer,Andreas Schmitt,Tobias Ullmann,Marius B. Philipp,Christof Kneisel +6 more
TL;DR: In this article , the suitability of DInSAR for the detection of heterogeneous small-scale spatial patterns of rock glacier velocities was investigated, where the authors used a semi-automated procedure using open source programs (SNAP, pyrate) and provided East-West displacement and elevation change with a ground sampling distance of 5 m.
A Circum-Arctic Monitoring Framework for Quantifying Annual Erosion Rates of Permafrost Coasts
TL;DR: In this article , a circum-Arctic monitoring framework for quantifying annual change of permafrost-affected coasts at a spatial resolution of 10 m is presented, where a high-quality coastline product via a Deep Learning (DL) workflow, covering 161,600 km of the Arctic coastline is generated.
2
Exploring the Potential of C-Band SAR in Contributing to Burn Severity Mapping in Tropical Savanna
TL;DR: The results suggest that C-band SAR holds potential to inform the mapping of burn severity in savannas, but further research is required over larger spatial scales and across a broader spectrum of fire regime conditions before automated products can be developed.