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Outputs (6)

Drift-dependent changes in iceberg size-frequency distributions (2017)
Journal Article
Kirkham, J. D., Rosser, N. J., Wainwright, J., Vann Jones (née Norman), E. C., Dunning, S. A., Lane, V. S., …Szczuciński, W. (2017). Drift-dependent changes in iceberg size-frequency distributions. Scientific Reports, 7, Article 15991. https://doi.org/10.1038/s41598-017-14863-2

Although the size-frequency distributions of icebergs can provide insight into how they disintegrate, our understanding of this process is incomplete. Fundamentally, there is a discrepancy between iceberg power-law size-frequency distributions observ... Read More about Drift-dependent changes in iceberg size-frequency distributions.

Rapid post-earthquake modelling of coseismic landsliding intensity and distribution for emergency response decision support (2017)
Journal Article
Robinson, T., Rosser, N., Densmore, A., Williams, J., Kincey, M., Benjamin, J., & Bell, H. (2017). Rapid post-earthquake modelling of coseismic landsliding intensity and distribution for emergency response decision support. Natural Hazards and Earth System Sciences, 17(9), 1521-1540. https://doi.org/10.5194/nhess-17-1521-2017

Current methods to identify coseismic landslides immediately after an earthquake using optical imagery are too slow to effectively inform emergency response activities. Issues with cloud cover, data collection and processing, and manual landslide ide... Read More about Rapid post-earthquake modelling of coseismic landsliding intensity and distribution for emergency response decision support.

Forensic analysis of rockfall scars (2017)
Journal Article
de Vilder, S., Rosser, N., & Brain, M. (2017). Forensic analysis of rockfall scars. Geomorphology, 295, 202-214. https://doi.org/10.1016/j.geomorph.2017.07.005

We characterise and analyse the detachment (scar) surfaces of rockfalls to understand the mechanisms that underpin their failure. Rockfall scars are variously weathered and comprised of both discontinuity release surfaces and surfaces indicative of f... Read More about Forensic analysis of rockfall scars.

Forensic rockfall scar analysis: Development of a mechanically correct model of rockfall failure (2017)
Book Chapter
de Vilder, S., Rosser, N., Brain, M., & Vann Jones, E. (2017). Forensic rockfall scar analysis: Development of a mechanically correct model of rockfall failure. In J. De Graff, & A. Shakoor (Eds.), Landslides : putting experience, knowledge and emerging technologies into practice (829-839). Association of Environmental & Engineering Geologists (AEG)

The mechanical controls on small (< 10 m3), individual rockfall in jointed rock masses are not well constrained. We use forensic analysis of rockfall detachment surfaces (scars) which display fractured surfaces broken through intact rock, termed rock... Read More about Forensic rockfall scar analysis: Development of a mechanically correct model of rockfall failure.

Rapid post-earthquake modelling of coseismic landslide magnitude and distribution for emergency response decision support (2017)
Journal Article
Robinson, T., Rosser, N., Densmore, A., Williams, J., Kincey, M., Benjamin, J., & Bell, H. (2017). Rapid post-earthquake modelling of coseismic landslide magnitude and distribution for emergency response decision support. Natural Hazards and Earth System Sciences Discussions, 17, 1521-1540. https://doi.org/10.5194/nhess-2017-83

Current methods to identify coseismic landslides immediately after an earthquake using optical imagery are too slow to effectively inform emergency response activities. Issues with cloud cover, data collection and processing, and manual landslide ide... Read More about Rapid post-earthquake modelling of coseismic landslide magnitude and distribution for emergency response decision support.

The control of earthquake sequences on hillslope stability (2017)
Journal Article
Brain, M., Rosser, N., & Tunstall, N. (2017). The control of earthquake sequences on hillslope stability. Geophysical Research Letters, 44(2), 865-872. https://doi.org/10.1002/2016gl071879

Earthquakes trigger landslides in mountainous regions. Recent research suggests that the stability of hillslopes during and after a large earthquake is influenced by legacy effects of previous seismic activity. However, the mechanisms that control hi... Read More about The control of earthquake sequences on hillslope stability.