Object Overview of 'Hurunui District Engineering Lifelines Project: Natural Hazard Assessment (Yetton et al, 2000).'
This report was the first report in the district series, and has a different format to later reports. It includes all natural hazards, not only earthquake hazards. It describes earthquake, flooding, meteorological, landslide and coastal hazards within Hurunui district and gives details of historic events. It includes district-scale (1:250,000) active fault and flood hazard maps. The report describes an earthquake scenario for a magnitude 6.9 earthquake near Cheviot, as well as flooding, meteorological, landslide, coastal erosion, storm surge, and tsunami scenarios.
A presentation by Dr Charlotte Brown (Department of Civil and Natural Resource Engineering) on "A Waste-Full Recovery: Managing waste after the 2010/2011 Christchurch earthquakes".
A presentation by Dr Matthew Hughes (Department of Civil and Natural Resource Engineering) on "Liquefaction Impacts on Christchurch's Water and Wastewater Networks".
Slides from the presentation by Dr Charlotte Brown (Department of Civil and Natural Resource Engineering) on "A Waste-Full Recovery: Managing waste after the 2010/2011 Christchurch earthquakes".
Photograph captioned by Fairfax, "After the recent earthquake in Christchurch, Environment Waikato has released information that shows the Waikato people are under-prepared for a natural disaster. Adrian Pittari, University of Waikato Volcanologist".
Photograph captioned by Fairfax, "After the recent earthquake in Christchurch, Environment Waikato has released information that shows the Waikato people are under-prepared for a natural disaster. Adrian Pittari, University of Waikato Volcanologist".
Photograph captioned by Fairfax, "After the recent earthquake in Christchurch, Environment Waikato has released information that shows the Waikato people are under-prepared for a natural disaster. Adrian Pittari, University of Waikato Volcanologist".
Photograph captioned by Fairfax, "After the recent earthquake in Christchurch, Environment Waikato has released information that shows the Waikato people are under-prepared for a natural disaster. Adrian Pittari, University of Waikato Volcanologist".
Photograph captioned by Fairfax, "After the recent earthquake in Christchurch, Environment Waikato has released information that shows the Waikato people are under-prepared for a natural disaster. Adrian Pittari, University of Waikato Volcanologist".
Photograph captioned by Fairfax, "After the recent earthquake in Christchurch, Environment Waikato has released information that shows the Waikato people are under-prepared for a natural disaster. Adrian Pittari, University of Waikato Volcanologist".
Photograph captioned by Fairfax, "After the recent earthquake in Christchurch, Environment Waikato has released information that shows the Waikato people are under-prepared for a natural disaster. Reporter Jeff Neems with his survival kits".
Photograph captioned by Fairfax, "After the recent earthquake in Christchurch, Environment Waikato has released information that shows the Waikato people are under prepared for a natural disaster. Reporter Jeff Neems with his survival kits".
This report was the first report in the district series, and has a different format to later reports. It includes all natural hazards, not only earthquake hazards. It describes earthquake, flooding, meteorological, landslide and coastal hazards within Hurunui district and gives details of historic events. It includes district-scale (1:250,000) active fault and flood hazard maps. The report describes an earthquake scenario for a magnitude 6.9 earthquake near Cheviot, as well as flooding, meteorological, landslide, coastal erosion, storm surge, and tsunami scenarios. See Object Overview for background and usage information.
This study compiled and tabulated all relevant available information on earthquake sources (active faults) in Canterbury and mapped the fault locations onto 1:50,000 or 1:250,000 overlays on topographic maps (later digitised into the Environment Canterbury active faults database). The study also reviewed information on historic earthquakes, instrumental seismicity and paleoseismic studies and identified information gaps. It recommended an approach for a probabilistic seismic hazard analysis and development of earthquake scenarios. See Object Overview for background and usage information.
This study led on from Earthquake hazard and risk assessment study Stage 1 Part A: Earthquake source identification and characterisation (Pettinga et al, 1998). It used the location and characteristics of active faults in the Canterbury region, and the historic record of earthquakes to estimate levels of ground shaking (MM intensity, peak ground acceleration and spectral accelerations) across Canterbury for different return periods. The study also provided earthquake scenarios for selected towns and cities in Canterbury, and undertook detailed investigations into the largest historic earthquakes in Christchurch and parts of the Canterbury region. See Object Overview for background and usage information.
A video of a keynote presentation by Professor Jonathan Davidson during the fifth plenary of the 2016 People in Disasters Conference. The presentation is titled, "Resilience in People".The abstract for this presentation reads as follows: Resilience is the ability to bounce back or adapt successfully in the face of change, and is present to varying degrees in everybody. For at least 50 years resilience has been a topic of study in medical research, with a marked increase occurring in the past decade. In this presentation the essential features of resilience will be defined. Among the determining or mediating factors are neurobiological pathways, genetic characteristics, temperament, and environment events, all of which will be summarized. Adversity, assets, and adjustment need to be taken into account when assessing resilience. Different approaches to measuring the construct include self-rating scales which evaluate: traits and copying, responses to stress, symptom ratings after exposure to actual adversity, behavioural measures in response to a stress, e.g. Trier Test, and biological measures in response to stress. Examples will be provided. Resilience can be a determinant of health outcome, e.g. for coronary heart disease, acute coronary syndrome, diabetes, Human Immunodeficiency Virus (HIV) positive status and successful aging. Total score and individual item levels of resilience predict response to dug and psychotherapy in post-traumatic stress disorder and depression. Studies have repeatedly demonstrated that resilience is modifiable. Different treatments and interventions can increase resilience in a matter of weeks, and with an effect size larger than the effect size found for the same treatments on symptoms of illness. There are many ways to enhance resilience, ranging from 'Outward Bound' to mindfulness-based meditation/stress reduction to wellbeing therapy and antidepressant drugs. Treatments that reduce symptoms of depression and anxiety recruit resiliency processes at the same time. Examples will be given.