seeing from hearing visualizing crustal thickness from active- source seismology
Post on 22-Dec-2015
215 Views
Preview:
TRANSCRIPT
SEEING FROM HEARINGV I S U A L I Z I N G C R U S T A L T H I C K N E S S F R O M A C T I V E - S O U R C E S E I S M O L O G Y. .
WHY CARE?
• Understanding the fine details of what is happening beneath the Earth is largely an open ended scientific inquiry.
• Studying the magma body below the sea floor could contribute to understanding and perhaps someday harnessing hydrothermal vents.
?
WHAT
Mid-ocean ridges are responsible for resurfacing 2/3 of Earth’s surface and account for 80% of Earth’s volcanism. However, seismic reflection surveys cannot image the lower crustal region. In my study we are using ‘wide-angle’ seismology to model the area beneath the ridge axis.
Wide-angle refers to the the large distances (30-50km) between our source (air gun) and the receivers (seismometers).
ACTIVE-SOURCE SEISMIC
Just like a stone in a river produces waves we use air guns from a boat to shoot the ground.
According to Snell’s law the waves will come back up to us, and we can see everything that they passed through.
MOHOROVICIC DISCONTINUITY
The area between the mantle and the crust, or more commonly referred to as the ‘Moho’. It is a discontinuity that gives us very clear reflections of our waves.
TURNING HEARING INTO SEEINGWe have 68 (OBS) Ocean Bottom Seismometers that let us listen to the waves.
The reflections off of the Moho are not very easy to tell apart from other vibrations, and so I have to go in and ‘pick’ out the spots I think the waves are bouncing off the Moho.
THE WAVES THAT GO THROUGH THE EARTH CAN BE QUITE COMPLEX
Each of these colored lines is the ray(wave) paths through the crust
VISUALIZING
With a little math and help from programming we can discern from the travel times and produces images of the lower crust and velocity of the rays that go through it.
top related