Every year, the American Geophysical Union (AGU) hands out several Outstanding Student Paper Awards (OSPAs) as a way to honour young scientists at the beginning of their careers for quality research in the geophysical sciences. These awards are given to the top 3-5% of presenters in each section/focus group at the annual AGU Fall Meeting.
Last December, a big contingent from the Earth Observatory of Singapore (EOS) travelled to the American Geophysical Union (AGU) conference, the largest gathering of earth and space scientists in the world. Around 24,000 people descended upon San Francisco to catch up with colleagues, present their research, and learn about the latest advancements in their fields.
In March, we kicked off the EOS Institutional Blog. Our goal – create a space for you to learn more about what our scientists and teams are up to. As I look back on the stories we shared covering new research, current hazardous activity in the region, and outreach events, I’m thrilled to have the Institutional Blog as a reminder of the great work we’ve done and the fruitful year we’ve had.
At just past five o'clock in the morning on 7 December 2016, a damaging earthquake struck Aceh, Indonesia. Damage was most severe in Pidie Jaya and neighbouring Pidie and Biruen Regencies, located east of the provincial capital of Banda Aceh. Extensive building damage tragically led to the loss of more than 100 lives. More than 80,000 people are displaced, unable to return because of destroyed or damaged buildings.
The previous post focused mainly on the 1991 Pinatubo eruption and how it affected humans and history (scientific in this case). Today’s post will cover a historic eruption that changed the course of history on one Indonesian island, and around the world.
Humans are fabulous agents of geologic change. What do I mean by this? We reduce the height of mountains via mountaintop mining to obtain energy resources. We blast through a mountain to make a road cut, or tunnel. We make new lakes by building dams for hydroelectric power. Indeed, we humans are capable of changing the landscape or environment (or climate for that matter) at rates much faster than normal geologic processes.
Several people who felt the 7.8-magnitude earthquake that hit New Zealand earlier this month also witnessed a strange phenomenon — lights flashing across the sky in a range of colours.
In the night of 21 November 2016 (local time), Japan was struck by a magnitude-6.9 earthquake. This was soon followed by a M 5.6 quake in New Zealand’s North Island, which sparked speculation that the event in Japan had triggered the one in New Zealand.
The recent powerful quakes that devastated the northeastern coast of New Zealand’s South Island on 14 Nov 2016 may be part of a pattern emerging for large strike-slip fault earthquakes all around the world.
The New Zealand quakes are significant, because they did not occur on the country’s largest plate-boundary fault line, the Alpine Fault. They instead occurred on smaller nearby faults, and this is something that is happening to other such faults, most notably California’s San Andreas Fault.
As an academic who lectures regularly to a hall of about 300 students, he never thought that he would feel nervous in front of only eight people. And so he was surprised when he became increasingly aware of the loud pounding of his heart and the beads of sweat that began appearing on his forehead.