Ask The Experts

Ask The Experts - Can a detonation help determine the size and location of basalt?

December 2018 by Chris

Q: There is an outcrop of greenstone basalt in granite I saw at an elevation of 4,300 feet. Next to it is a chlorite schist outcrop and a mafic ore outcrop. Along the east-west fault for about 100 yards is a green porphyry and at approximately 2,000 feet is a clay-sandstone upthrust that when deteriorated turns green. Along this fault, greenstone basalt debris can be found including a large basaltic boulder over the sandstone.

If the basalt originates at sea floor does that mean it rose at least 4,300 feet and could extend vertically intact that distance above sea level? The next question would be if a detonation in the basalt could send sensory detectable signals to give its size and location as done with petroleum exploration? Thank you for your time.
Joe

A: While a lot of greenstone metamorphosed basalt was originally formed on the ocean floor, any basalt, no matter where it was originally formed, if it is subject to the right types of heat and pressure, will end up as the same greenstone metamorphosed basalt. Your observation that the forces of the earth’s plates moving around has pushed up mountain ranges is certainly true. The plates moving past each other also scrape off material from one plate onto another. The Pacific Plate has been pushing stuff onto the North American continent for a long time. That’s how rocks formed deep in the Pacific Ocean ended up on the tops of mountains in central Nevada.

One other thing to note is that the effect of weathering on the surface of the ground can change the appearance of many types of rocks. Greenstone metamorphosed basalt will weather to other appearances.

Seismic exploration using a small detonation blast to determine the depth and types of bedrock down in the ground has been used for decades in the petroleum industry, but is only now coming into common use in metals exploration. You are correct that this technique can be used to determine the location of faults and contact of different types of rock. It has the advantage that seismic exploration can often see deeper than other geophysical techniques.