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Christian Riedel

M.Sc. in Geoinformation
 

Address
Malteserstr. 74-100, Building D
Room D-219
12249 Berlin
Email
christian.riedel[at]fu-berlin.de
2019

Minton, D., C. Fassett, M. Hirabayashi, and C. Riedel (2019), Crater size-dependent degradation of lunar surface features on the mare and highlands, in EPSC Abstracts Vol. 13, EPSC-DPS2019-1065.

Riedel, C., D. A. Minton, G. G. Michael, C. H. van der Bogert, and H. Hiesinger (2019), Modeling the Formation of Densely Cratered Lunar Surfaces Under the Influence of Diffusive Crater Degradation, in LPI Contribution No. 2083, p. 2694.

Riedel, C., D. A. Minton, G. G. Michael, C. Orgel, C. H. van der Bogert, and H. Hiesinger (2019), The contribution of new impacts to the degradation of the pre-existing lunar landscape is size-dependent, in Paneth Kolloquium Abstracts, p. 34.

Unnithan, V., F. Sohl, L. Thomsen, M. Baqué, K. Gwinner, J. Haber, S. Hasselbach, P. Irmisch, F. Neu, G. Ortenzi, R. A. Parekh, K. Rammelkamp, C. Riedel, S. Schröder, S. Shinde, K. Stephan, I. Varatharajan, J.-P. de Vera, S. Wang, J. H. Börner, M. Scheunert, F. Mai, and K. Spitzer (2019), Vulcano Summer School 2019: Field-based terrestrial, marine and planetary analogue studies, in EPSC Abstracts Vol. 13, EPSC-DPS2019-2051-1.

  

2018

Orgel, C., G. Michael, C. I. Fassett, C. H. van der Bogert, C. Riedel, T. Kneissl, and H. Hiesinger (2018), Ancient Bombardment of the Inner Solar System: Reinvestigation of the “Fingerprints” of Different Impactor Populations on the Lunar Surface, Journal of Geophysical Research: Planets, 123(3), 748–762, doi:10.1002/2017JE005451.

Orgel, C., G. Michael, C. I. Fassett, C. H. van der Bogert, C. Riedel, T. Kneissl, and H. Hiesinger (2018), The lunar basin sequence based on absolute model ages derived via Buffered Non-Sparseness Correction: Implications for impactor population(s), in LPI Contribution No. 2083, 1395.

Riedel, C., G. Michael, T. Kneissl, C. Orgel, H. Hiesinger, and C. H. van der Bogert (2018), A New Tool to Account for Crater Obliteration Effects in Crater Size-Frequency Distribution Measurements, Earth and Space Science, 5(6), 258–267, doi:10.1002/2018EA000383.

Riedel, C., G. Michael, C. Orgel, and T. Kneissl (2018), An ArcGIS independent application to conduct crater size-frequency measurements with respect to crater obliteration effects, in LPI Contribution No. 2083, 1478.

Riedel, C., G. Michael, T. Kneissl, C. Orgel, H. Hiesinger, and C. H. van der Bogert (2018), Crater size-frequency distribution measurements with CSFD Tools, in EPSC Abstracts Vol. 12, EPSC2018-367.

  

2017

Orgel, C., G. Michael, C. I. Fassett, van der Bogert, C. H., C. Riedel, T. Kneissl, and H. Hiesinger (2017), Ancient bombardment of the inner Solar System – Reinvestigation of the “fingerprints” of different impactor populations on the lunar surface, in Paneth Kolloquium, 33.

Riedel, C., G. G. Michael, and T. Kneissl (2017), Crater Counting in a GIS Environment: The Implementation of Non-Sparseness Correction in a New Tool for Planetary Surface Dating, in LPI Contribution No. 1964, 1905.

Riedel, C., G. G. Michael, and T. Kneissl (2017), Crater counting on heavily cratered surfaces: The implementation of non-sparseness correction in a new GIS tool for planetary surface dating, in 5th European Lunar Symposium.

Riedel, C., G. G. Michael, and T. Kneissl (2017), Crater Counting on Heavily Cratered Surfaces: Implementing Non-Sparseness Correction in an ArcGIS Independent Tool for Planetary Surface Dating, in LPI Contribution No. 1986, 7017.

Riedel, C., G. G. Michael, T. Kneissl, and C. Orgel (2017), Crater counting on densely cratered surfaces: A new tool to consider crater obliteration during crater size-frequency measurements, in Paneth Kolloquium, 32.