800 |
Landslide susceptibility mapping at regional scales using weight of evidence method – a revision of the methodical concept from a practical point of view |
Dr. Michael Fuchs |
T8.9 - Subaerial and submarine landslide processes and hazards |
800.pdf |
35 |
Geohazards risk assessment for disaster management of Mount Merapi and surrounding area, Yogyakarta Special Region, Indonesia |
Ms. Ayu Narwastu Ciptahening |
T8.9 - Subaerial and submarine landslide processes and hazards |
35.pdf |
36 |
Eruption of Mount Sinabung, North Sumatera, Indonesia, and SMS gateway for disaster early warning system |
Prof. Sari Bahagiarti Kusumayudha |
T8.9 - Subaerial and submarine landslide processes and hazards |
36.pdf |
2998 |
Application of Fuzzy Set Theory to Landslide hazard zonation mapping in Limbe (Cameroon) |
Dr. Lawrence Diko Makia |
T8.9 - Subaerial and submarine landslide processes and hazards |
2998.pdf |
215 |
Landslide hazard zonation using rainfall threshold based temporal probability |
Dr. Pankaj Jaiswal |
T8.9 - Subaerial and submarine landslide processes and hazards |
215.pdf |
3573 |
Landslides in Equatorial Africa: identifying culturally, technically and economically feasible resilience strategies |
Dr. Olivier Dewitte |
T8.9 - Subaerial and submarine landslide processes and hazards |
3573.pdf |
306 |
Landslide Developmental Characteristics and Response to Climate Change since the Last Glacial in the upper reaches of the Yellow River, NE Tibetan Plateau |
Dr. YIN ZHIQIANG |
T8.8 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
306.pdf |
4503 |
Geophysics of the Sirt Basin Rift System, Libya |
Dr. Abdunnur BenSuleman |
T8.8 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
4503.pdf |
319 |
The seismic landslide hazards mapping: a case study in the Yingxiu area, Sichuan, China |
Dr. Hua Ge |
T8.8 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
319.pdf |
4312 |
Microzonation of Johannesburg: Impact of uncertainties associated with earthquake catalogue on seismic hazard assessment |
Ms. Thifhelimbilu Faith Mulabisana |
T8.8 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
4312.pdf |
1856 |
Seismic Activity and lithospheric structure in NW of West African Craton: Case of the Moroccan Atlas Mountains |
Dr. Youssef Timoulali |
T8.8 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
1856.pdf |
2392 |
Submarine landslides on the Great Barrier Reef margin, north-eastern Australia: Preliminary characterization of their morphology and behaviour |
Dr. Ángel Puga-Bernabéu |
T8.8 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
2392.pdf |
2627 |
Initiation mechanism of large landslides induced by 2008 China Ms8.0 Earthquake |
Professor Xiaoyan Zhao |
T8.7 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
2627.pdf |
2413 |
Analysis of large-scale landslides triggered by the 2008 Wenchuan Earthquake |
Dr. Xuanmei Fan |
T8.7 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
2413.pdf |
1414 |
Seismic ground motion and hazard assessment of the Greater Accra Metropolitan Area, Southeastern Ghana |
Dr. Paulina Amponsah |
T8.7 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
1414.pdf |
2305 |
Failure mode and mechanisms of the Majiagou landslide in the Three Gorges reservoir, China |
Professor Xinli Hu |
T8.7 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
2305.pdf |
62 |
Seismic Hazard Analysis for Aswan High Dam Reservoir |
Dr. Awad Ismail |
T8.7 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
62.pdf |
1511 |
Probabilistic Seismic Hazard Assessment of South Africa |
Dr. Vunganai Midzi |
T8.7 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
1511.pdf |
490 |
Controlling factors for Landslide initiation in the seismo-tectonically active and high rainfall regions of North East India |
Mr. Niroj Kumar Sarkar |
T8.7 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment / Subaerial and submarine landslide processes and hazards |
490.pdf |
3635 |
Artificial neural network based geohazard potential mapping for sustainable land use planning: approaches and examples from Germany and Namibia |
Israel Hasheela |
T8.6a - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings / Geohazards and societal benefits: coping with reality |
3635.pdf |
5562 |
The use of downhole geophysical logging in assessing subsidence from abandoned coal mines |
Mr. David L Knott |
T8.6a - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings / Geohazards and societal benefits: coping with reality |
5562.pdf |
96 |
Field evidences of Gorkha Earthquakes of 25 April (7.8M)
and Kodari 12 May 2015 (7.2M) in Nepal |
Prof. Arun Kumar |
T8.6a - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings / Geohazards and societal benefits: coping with reality |
96.pdf |
3844 |
Variations in the morphology of reactivated fault scarps in the UK |
Dr. Laurance Donnelly |
T8.6a - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings / Geohazards and societal benefits: coping with reality |
3844.pdf |
911 |
Differences in geological hazards from liquefaction–fluidization and ground waves in the areas facing Tokyo Bay and San Francisco Bay |
Prof. Hisashi Nirei |
T8.6a - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings / Geohazards and societal benefits: coping with reality |
911.pdf |
4192 |
Cosmogenically dated marine terraces in South Africa reveal low long-term rates of uplift and no evidence for localized faulting |
Dr. Paul Bierman |
T8.6a - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings / Geohazards and societal benefits: coping with reality |
4192.pdf |
3077 |
Present Permafrost Degradation in NE Siberia: Environmental Implications |
Dr. Jiri Chlachula |
T8.6a - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings / Geohazards and societal benefits: coping with reality |
3077.pdf |
3717 |
Stress Field in the Western Part of Africa-Eurasia Boundary from the Azores to Tunisian Atlas |
Dr. Farida Ousadou |
T8.6 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
3717.pdf |
1169 |
Neotectonic stress mapping in Southern Africa solves the puzzling M5.5 Orkney Earthquake of 5 August 2014, North West Province, South Africa |
Dr Marco Andreoli |
T8.6 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
1169.pdf |
3254 |
Neotectonic stress orientation in the Kaapvaal Craton, South Africa derived by the Dihedra method |
Prof Adam Bumby |
T8.6 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
3254.pdf |
3256 |
Investigating Seismic Source Zones in Cameroon: A preliminary step for Seismic Hazard Assessment |
Dr. Bekoa Ateba |
T8.6 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
3256.pdf |
3259 |
Stress change and fault interaction from a two century-long earthquake sequence in the central Tell Atlas (Algeria) |
Prof. Mustapha Meghraoui |
T8.6 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
3259.pdf |
3202 |
Stress field in the African Plate |
Dr. Damien Delvaux |
T8.6 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
3202.pdf |
4332 |
Pleistocene-Holocene seismoturbidite succession above the Lwandle-Nubia plate boundary, offshore South Africa |
Dr John Rogers |
T8.6 - Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
4332.pdf |
2237 |
Recent Seismicity and volcanism in Afar and the Main Ethiopian Rift |
Dr. Atalay Ayele |
T8.5 - Subaerial and submarine landslide processes and hazards / Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
2237.pdf |
11 |
Landslide volume estimation by landslide area-frequency distribution |
Prof. Chien-Yuan Chen |
T8.5 - Subaerial and submarine landslide processes and hazards / Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
11.pdf |
2151 |
Assessing slope stability in three dimensions throughout a landscape: Stratovolcanoes, coastal bluffs, and submarine slopes |
Dr. Mark Reid |
T8.5 - Subaerial and submarine landslide processes and hazards / Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
2151.pdf |
3255 |
The Seismotectonic Map of Africa |
Dr. Mustapha Meghraoui |
T8.5 - Subaerial and submarine landslide processes and hazards / Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
3255.pdf |
1388 |
The Aftershock sequence of the 5th August 2014 Orkney earthquake |
Mr. Brassnavy Manzunzu |
T8.5 - Subaerial and submarine landslide processes and hazards / Crustal deformation and seismotectonics in Africa: Active faulting and earthquake hazard assessment |
1388.pdf |
1647 |
Preconditioning factors for the unstable eastern Rockall Bank slope, NE Atlantic |
Dr. Aggeliki Georgiopoulou |
T8.4 - Subaerial and submarine landslide processes and hazards |
1647.pdf |
5319 |
Landslide Monitoring through Spatial Sensor Network |
Dr. Ping Lu |
T8.4 - Subaerial and submarine landslide processes and hazards |
5319.pdf |
5283 |
Detection of landslides in early phases using SAR interferometry |
Phd Mateja Jemec Auflic
Professor Marko Komac |
T8.4 - Subaerial and submarine landslide processes and hazards |
5283.pdf |
2390 |
Sedimentary processes associated to a late Miocene large-scale submarine landslide (Sierra de Gádor, Almería, SE Spain) |
Dr. Ángel Puga-Bernabéu |
T8.4 - Subaerial and submarine landslide processes and hazards |
2390.pdf |
828 |
Submarine landslides and related geohazards around Indian Subcontinent and Islands |
Mrs. Sainaba N. K. |
T8.4 - Subaerial and submarine landslide processes and hazards |
828.pdf |
5187 |
Extending the geological record for Cascadia Subduction Zone (CSZ) earthquakes in British Columbia, Canada |
Dr. Peter Bobrowsky |
T8.3 - Geohazards and societal benefits: coping with reality |
5187.pdf |
1888 |
Investigation of Artificial Water Reservoir Triggered Earthquake at Koyna, India |
Dr. Harsh Kumar Gupta |
T8.3 - Geohazards and societal benefits: coping with reality |
1888.pdf |
714 |
Typhoon-driven wave deposits on island rock coasts in the Gulf of Thailand |
Prof. James Terry |
T8.3 - Geohazards and societal benefits: coping with reality |
714.pdf |
934 |
Characterising Natural Hazard Interactions to Support Multi-Hazard Approaches to Hazard Management |
Mr. Joel Gill |
T8.3 - Geohazards and societal benefits: coping with reality |
934.pdf |
1377 |
Effects of topographic and geological features on building damage caused by 2015.4.25 Mw7.8 Gorkha earthquake in Nepal |
Prof. Fawu Wang |
T8.3 - Geohazards and societal benefits: coping with reality |
1377.pdf |
218 |
Submarine Permafrost Dynamics Along the Arctic Shelf Edge |
Dr. Charles Paull |
T8.3 - Geohazards and societal benefits: coping with reality |
218.pdf |
3846 |
Communication and the public understanding of geohazards |
Dr. Laurance Donnelly |
T8.3 - Geohazards and societal benefits: coping with reality |
3846.pdf |