Between a Rock and a Hard Place

Between a Rock and a Hard Place

Supervisor profile #3: Dr Matt Watson

Matt_Watson

Dr Matt Watson

 

Senior Lecturer in Natural Hazards

PhD (2000) “Remote Sensing of Tropospheric Volcanic Plumes”

 

 

 

1) The Twitter challenge: Describe your PhD in 140 characters (if you can remember it)

I used ground- and satellite-based data to quantify volcanic emissions in order to look at volcanic plumbing systems and plume chemistry.

2) What was the best part of your PhD?

Fieldwork with Clive Oppenheimer and Peter Francis. Their schoolboy excitement and English eccentrism coupled with a significant mischievous streak (mostly Clive) set against the backdrop of Etna, Masaya and Soufriere Hills made for some memorable experiences. [Read More]

Science Snap (10): The impact of eruptions

Mel Auker brings us our Science Snap this week…

Many people are aware of the May 1980 eruption of Mount St. Helens in Washington State, USA. Common photographs of the huge VEI 5 eruption show the large, billowing eruptive column rising into the stratosphere.

Less iconic are images of the destruction left behind, demonstrating the after-effects of the eruption. The US president at the time, Jimmy Carter, flew over St. Helens soon after and said the area looked “more desolate than a moonscape.” Now, more than 30 years on, the landscape still displays reminders of the awesome power of nature. Below are a selection of photographs taken in August 2011.

From top left, clockwise: 1. “Miner’s Car”, the remains of a car situated approximately 15 km from the volcano at the time of the eruption; 2. Trees flattened by the debris flow; 3. Tree trunks in Spirit Lake, approximately 8 km north of the volcano; 4. Hummocky avalance deposits. Credit: Melanie Auker

The top left photograph is of “Miner’s Car“, which has been left in place as a monument approximately 15 km NE of St. Helens. The heat of the eruption burnt all the exposed paint off the car, though the bumper (at the right of the image) is still largely undamaged. The top right photograph shows large trees flattened by the eruption, mantling the topography and identifying the direction of flow.

The bottom left photograph shows the huge number of tree trunks present in Spirit Lake, approximately 8 km north of St. Helens. As well as flattening trees, the eruption tore thousands from the ground which were deposited in the lake. The volume of material emplaced in the lake has reduced its surface elevation by over 60 m. The bottom right photograph depicts the rounded mounds (hummocks) that form part of the debris avalanche deposit to the north of the volcano. They are formed of relatively intact rocks that once formed the volcano’s summit.

Power within the rift

Lying just under the Earth’s surface, the East African Rift is a region rich in geothermal resources. Exploitation of this clean and green energy source is steadily been gaining momentum. What is the geological mix that makes the Rift Valley ripe for geothermal power and how is it being tapped?

The East African Rift, stretching from Djibouti to Mozambique, marks the trace of a continent slowly tearing apart. At rates of about 1-2 cm per year, the African continent will one day split into two separated by a new ocean.

When continental rifting occurs, volcanism shortly follows. As the continent steadily stretches apart, the Earth’s crust thins allowing an easier path for buoyant magma to rise up. Where the magma cracks the surface, volcanoes build up. Dotting the Rift Valley are many active, dormant and extinct volcanoes. Famously active ones include Nyiragongo in the Democratic Republic of Congo, Ol Doinyo Lengai in Tanzania and the bubbling lava lake at Erta Ale volcano in Ethiopia. [Read More]

An ode to metamorphism

On finding out my ‘profession’, there’s one fact that people proudly announce to me on a regular basis: “I know the three rock types: sedimentary, igneous and metamorphic!”. What usually emerges from deeper probing is that most people are comfortable with the concept of sediments and magma, but metamorphism is a bit of an enigma. Like the mysterious stranger, lurking in a dark forgotten corner, it is true to say that for most people, this holds even throughout undergraduate geology courses.

[Read More]