2263 |
The influence of atmospheric dynamics on erosion hazard: A conceptual note |
Mr. Edmore Kori |
T8.1 - Geohazards |
2263.pdf |
791 |
Understanding disaster risk through building knowledge capacity –
A best practice example from Latin America to leverage the Hyogo/Sendai-Framework for Action |
Dr. Dirk Balzer |
T8.1 - Geohazards |
791.pdf |
5591 |
Opportunities in Disasters – A perspective from the Christchurch 2010 – 2012 Earthquake Series |
Ms. Ann Williams |
T8.1 - Geohazards |
5591.pdf |
1270 |
Tectonic geomorphology and paleoseismology of the Gatún fault in central Panamá: seismic hazards and the Panamá Canal |
Eldon Gath |
T8.1 - Geohazards |
1270.pdf |
3961 |
Historical storm analysis as an indicator of future flood risk in KZN, RSA |
Dr. Riaan Botes |
T8.1 - Geohazards |
3961.pdf |
330 |
An overview of seismic hazard microzonation of Thrissur city, Thrissur District, Kerala, India |
Mr. K.K. Behera |
T8.10 - Subaerial and submarine landslide processes and hazards |
330.pdf |
4293 |
Apparent dryland salinity on the Australian uplands: causes, mechanisms, effects, mapping and management |
Dr Glen Bann |
T8.10 - Subaerial and submarine landslide processes and hazards |
4293.pdf |
5630 |
The Geotechnics of the Zungwini Tunnel, Northern Kwa Zulu-Natal Republic of South Africa And Regional Significance: Why did the tunnel collapse |
Mr. Oliver Barker |
T8.10 - Subaerial and submarine landslide processes and hazards |
5630.pdf |
5631 |
The Geological, Geomorphological and Geotechnical Setting of the Zungwini Rail Tunnel in Northern Kwa Zulu-Natal, Republic of South Africa |
Mr. Oliver Barker |
T8.10 - Subaerial and submarine landslide processes and hazards |
5631.pdf |
3047 |
Quantitative Assessment on the Influence of Rainfall on Landslides in Jianshi County of Qing River Basin, China |
Mr. Ningtao Wang |
T8.10 - Subaerial and submarine landslide processes and hazards |
3047.pdf |
3895 |
Geohazards and geodisasters: Natural and human consequences |
Dr. Yujiro Ogawa |
T8.10 - Subaerial and submarine landslide processes and hazards |
3895.pdf |
4328 |
Comparison and Quantitative Study of Vulnerability/Damage Curves in South Africa |
Ms. Tebogo Pule |
T8.10 - Subaerial and submarine landslide processes and hazards |
4328.pdf |
1228 |
Research on the definition of rainfall event for the debris flow triggered by a runoff-induced mechanism |
Prof. Bin Yu |
T8.11 - Geohazards: Prevention, risk reduction, early warning and preparedness |
1228.pdf |
4298 |
What kind of disturbances did March 11, 2011 Tohoku Earthquake and Tsunamis leave continental margin ecosystems? : Lessons from five years monitoring research |
Dr. Hiroshi Kitazato |
T8.11 - Geohazards: Prevention, risk reduction, early warning and preparedness |
4298.pdf |
1475 |
Formation Characteristics, Monitoring and Prewarning Studies of Lengmugou Debris Flow in Lushan Earthquake Disaster Area, China |
Dr. Jiliang Zhu |
T8.11 - Geohazards: Prevention, risk reduction, early warning and preparedness |
1475.pdf |
1207 |
Temporal Evolution of Seismicity around the hypocenter of the 23 October 2011 Van earthquake deduced from seismic b-value estimates, Eastern Anatolia |
Dr. Mustafa Toker |
T8.11 - Geohazards: Prevention, risk reduction, early warning and preparedness |
1207.pdf |
581 |
Scenario Earthquake based Seismic Susceptibility Assessment of Kohima urban agglomeration within active seismo - tectonic domain of NE India |
Mr. Imti Kumzuk |
T8.11 - Geohazards: Prevention, risk reduction, early warning and preparedness |
581.pdf |
884 |
Graviquakes and elastoquakes |
Prof. Carlo Doglioni |
T8.11 - Geohazards: Prevention, risk reduction, early warning and preparedness |
884.pdf |
491 |
Geomorphic signature of Paleo-seismic landslides- Studies from parts of the active seismo-tectonic domain of Nagaland, North East India |
Mr. Niroj Kumar Sarkar |
T8.11 - Geohazards: Prevention, risk reduction, early warning and preparedness |
491.pdf |
2428 |
Building of short-termed earthquake prediction system in water areas. |
Dr. Vasily Palamarchuk |
T8.12 - Geohazards: Prevention, risk reduction, early warning and preparedness |
2428.pdf |
1612 |
LANDMON a new integrated system for the management of landslide monitoring networks |
Dr. Daniele Giordan |
T8.12 - Geohazards: Prevention, risk reduction, early warning and preparedness |
1612.pdf |
1885 |
Earthquake hazard in Himalayan region: How to mitigate? |
Dr. Harsh Kumar Gupta |
T8.12 - Geohazards: Prevention, risk reduction, early warning and preparedness |
1885.pdf |
2396 |
Swelling clays a camouflaged geohazard a case of Liwonde area Malawi |
Mr. Elias Chikalamo |
T8.12 - Geohazards: Prevention, risk reduction, early warning and preparedness |
2396.pdf |
2075 |
Hydro-mechanical framework for early warning of rainfall-induced landslides |
Dr. Jonathan Godt |
T8.12 - Geohazards: Prevention, risk reduction, early warning and preparedness |
2075.pdf |
4586 |
Building a GIS-based 3D seismic microzonation model for the City of Johannesburg |
Mrs. Magda Roos
Mr Dirk Grobbelaar |
T8.12 - Geohazards: Prevention, risk reduction, early warning and preparedness |
4586.pdf |
2590 |
Geo-hazards in Pamir Plateau alone China-Pakistan Economic Corridor |
Prof. Xin YAO |
T8.13 - Geohazards: Prevention, risk reduction, early warning and preparedness |
2590.pdf |
3636 |
Volcanic Disaster Mitigation Measures of G-EVER Volcanic Hazards Assessment Support System and Asia-Pacific Region Earthquake and Volcanic Hazards Information Mapping Project |
Dr. Shinji Takarada |
T8.13 - Geohazards: Prevention, risk reduction, early warning and preparedness |
3636.pdf |
2469 |
Geohazards: Basic science for disaster risk reduction |
Prof. Alik Ismail-Zadeh |
T8.13 - Geohazards: Prevention, risk reduction, early warning and preparedness |
2469.pdf |
2540 |
Some key problems on survey and design of debris flow in Wenchuan earthquake area |
Prof. Xiewen Hu |
T8.13 - Geohazards: Prevention, risk reduction, early warning and preparedness |
2540.pdf |
4677 |
Seismic Vulnerability Investigation of RDP homes in the city of Matlosana, North west Province, South Africa |
Mrs. Zeenat Khoyratty |
T8.14 - Geohazards: Prevention, risk reduction, early warning and preparedness |
4677.pdf |
5373 |
Signatures of Paleoseismic and paleo-tsunami from Badabalu, South Andaman, Andaman and Nicobar Island, India |
Prof. Javed Malik |
T8.14 - Geohazards: Prevention, risk reduction, early warning and preparedness |
5373.pdf |
5116 |
Occurrence of 1 ka-old corals on a raised marine terrace in west Luzon, Philippines: Evidence of a prehistoric high-energy wave event in Southeast Asia? |
Dr. Noelynna Ramos |
T8.14 - Geohazards: Prevention, risk reduction, early warning and preparedness |
5116.pdf |
4734 |
The Data Collection and Transmission Protocol for Geo-hazards Monitoring in China |
Mr. Guoxuan Cheng |
T8.14 - Geohazards: Prevention, risk reduction, early warning and preparedness |
4734.pdf |
4982 |
Subsurface geotechnical evaluation for the seismic microzonation of the Greater Johannesburg area, South Africa |
Dr. Souleymane Diop |
T8.14 - Geohazards: Prevention, risk reduction, early warning and preparedness |
4982.pdf |
4579 |
Acid mine drainage nuisance: case studies in abundant collieries in Witbank Coalfields |
Hon. Zuko Mankayi |
T8.14 - Geohazards: Prevention, risk reduction, early warning and preparedness |
4579.pdf |
4947 |
Non-volcanic CO2 and CH4 degassing in an actively extending orogen, southern Apennines, Italy |
Prof. Alessandra Ascione |
T8.14 - Geohazards: Prevention, risk reduction, early warning and preparedness |
4947.pdf |
467 |
Neo-Tectonic Evidences of Rejuvenation in Spiti Valley Fault, Lahaul and Spiti District, Northwestern Himalayas, India |
Mr. N.S. NAYYAR |
T8.15 - Managing Geohazards and Risks from space / Himalayan Mountain Building and Fragile Ecosystem vis-a-vis Natural Disaster Management / Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
467.pdf |
3427 |
Air- and space-born inventory and monitoring of emergency slope deformations in Slovakia |
Dr. Pavel Liscak |
T8.15 - Managing Geohazards and Risks from space / Himalayan Mountain Building and Fragile Ecosystem vis-a-vis Natural Disaster Management / Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
3427.pdf |
4208 |
Yakima Fold Belt Structures, Eastern WA: Style and Rate of Faulting Based on Structural Analyses and Quaternary Studies |
Mr. Ryan Coppersmith |
T8.15 - Managing Geohazards and Risks from space / Himalayan Mountain Building and Fragile Ecosystem vis-a-vis Natural Disaster Management / Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
4208.pdf |
2680 |
Surface Recovery of Landslides Triggered by 2008 Ms8.0 Wenchuan Earthquake (China): a Case Study in a Typical Mountainous Watershed |
Ms. Li Lingjing |
T8.15 - Managing Geohazards and Risks from space / Himalayan Mountain Building and Fragile Ecosystem vis-a-vis Natural Disaster Management / Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
2680.pdf |
1253 |
Engineering Geological Understanding After the 2015 Gorkha Earthquake |
Dr. Ranjan Kumar Dahal |
T8.15 - Managing Geohazards and Risks from space / Himalayan Mountain Building and Fragile Ecosystem vis-a-vis Natural Disaster Management / Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
1253.pdf |
3564 |
Landslide characterization from space in the tropical environments of the Rift flanks west of Lake Kivu (DRC) |
Dr. Olivier Dewitte |
T8.15 - Managing Geohazards and Risks from space / Himalayan Mountain Building and Fragile Ecosystem vis-a-vis Natural Disaster Management / Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
3564.pdf |
3787 |
InSAR Based Ground Motion Service for Germany – Natural and Anthropogenic Implications |
Dr. Michaela Frei |
T8.15 - Managing Geohazards and Risks from space / Himalayan Mountain Building and Fragile Ecosystem vis-a-vis Natural Disaster Management / Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
3787.pdf |
4245 |
New Challenges for Seismic Hazard Characterization of the Cheraw Fault, Southeast Colorado, USA |
Mr. Dean Ostenaa |
T8.16 - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
4245.pdf |
94 |
Seismicity Induced by Mine Flooding |
Dr. Artur Cichowicz |
T8.16 - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
94.pdf |
4195 |
Cosmogenic 10Be and 26Al dating of ancient surfaces and recent fault scarps in south central South Africa – indications of both fault motion and stability in a stable continental region |
Dr. Paul Bierman |
T8.16 - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
4195.pdf |
4206 |
Challenges in Characterizing Fault Sources in a Reactivated SCR Environment, Southern South Africa |
Mr. Ryan Coppersmith |
T8.16 - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
4206.pdf |
1700 |
The 2014-2016 Updates of the National Seismic Hazard Models for the Central and Eastern United States: Insights for Hazard in Stable Continental Regions |
Dr. Mark Petersen |
T8.16 - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
1700.pdf |
3577 |
Paleoseismic Investigation of the Kango Fault, South Africa: Incorporating Temporal and Spatial Clustering Behavior into a Seismic Source Characterization Model |
Ms. Kathryn Hanson |
T8.16 - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
3577.pdf |
3798 |
Land Subsidence Monitoring and its Countermeasures in the Lower Yangtze Delta Area of China |
Prof. Bin Shi |
T8.17 - Challenges in Identifying and Characterising Seismogenic Faults in Non-Plate Boundary Settings |
3798.pdf |