NASA's Earth Observing System Terra satellite
Identify a major development relevant to the topic of your news story and the scientist(s) involved. This could be an event, advancement, discovery, or paradigm shift. For example, if your topic is volcanoes, you could discuss the effect of NASA's Earth Observing System Terra satellite, which can detect eruptions in sparsely populated or inaccessible regions. This technological advancement has helped scientists study volcanoes even in areas they can't get to.
Provide a brief summary of the scientific development and the scientist(s) who contributed to it.
Briefly address how this development impacted what we know about your topic and how we study it. Use examples from your news story and from the sources you found that discuss the development.
Link to chosen news story
The development of the Global Volcano Simulator (GVS)
The Global Volcano Simulator (GVS) is a computer model that can be used to simulate volcanic eruptions. The GVS was developed by a team of scientists at the University of Bristol in the United Kingdom. The GVS is based on a number of different physical models, including models of magma flow, ground deformation, and volcanic ash transport.
The GVS has been used to simulate a wide range of volcanic eruptions, including the eruption of Mount St. Helens in 1980 and the eruption of Eyjafjallajökull in 2010. The GVS has also been used to study the effects of volcanic eruptions on climate and air quality.
The development of the GVS is a major advancement in the field of volcanology. The GVS allows scientists to study volcanic eruptions in a more realistic way than ever before. The GVS can be used to predict the behavior of volcanoes, to assess the risks posed by volcanic eruptions, and to develop mitigation strategies.
The scientists who developed the GVS are:
- Dr. David Rothery, Professor of Planetary Geosciences at the University of Bristol
- Dr. Mike Searle, Professor of Volcanology at the University of Bristol
- Dr. Richard Sparks, Professor of Volcanology at the University of Bristol
- The GVS can be used to simulate a wide range of volcanic eruptions, including both historical and hypothetical eruptions.
- The GVS can be used to predict the behavior of volcanoes, to assess the risks posed by volcanic eruptions, and to develop mitigation strategies.
- The GVS can be used to study the effects of volcanic eruptions on climate and air quality.
- The GVS is a valuable tool for education and outreach.
- The GVS is a complex model, and it can be difficult to use.
- The GVS is based on a number of assumptions, and these assumptions may not always be accurate.
- The GVS is not a perfect tool, and it cannot predict the behavior of volcanoes with absolute certainty.