The Earthquakes of China

2008 Wenchuan Earthquake

Recently, in the last few years, many earthquakes have occurred in China.  Just a few days ago, there were approximately 200 deaths due to an earthquake which happened in the same area as a devastating event about 5 years ago.  The Wenchuan Quake of May 2008 found tens of thousands dead or missing. 

 

The epicenter of the recent event is near the eastern foothills of the Himalayas.  This mountain range is still forming because the Austro-Indian plate is pushing into the Eurasian plate.  Rock underneath the surface has been crushed and rolled right on top of one another, causing an uplift. 

 

The Earthquake that took place April 20, 2013

This phenomenon is similar to when one has a sheet of paper and pushes one side against another.  The paper "rolls."  If one squeezes the paper on a flat table surface, the paper rolls upward.  This experiment shows how it is that mountains are formed.

 

Being near a mountain range during an earthquake could be quite dangerous due to landslides and mass wasting.  Massive boulders on top of the mountains can easily tumble over, destroying anything in it's path.  Add to this faulty building codes, subsidence that compromise foundations along with countless of people trapped in a confined area and one has a recipe for an astronomical environmental  hazard.  This is what happened five years ago and it is what happened less than two weeks ago. 

 

Another cause of the landslides and mass wasting is due to the fact that the Himalayas are getting very high.  These humongous mountains will eventually collapse on itself, simply because of the weight.  This is the mountain range that is home to Earth's highest peak, Mt Everest, which rises 8,848 meters above sea level (29,029 feet).   Amazing thing, this plate tectonics!

 

 

 

 

Though most of us see earthquakes as a "bad" thing (myself included), this phenomenon is actually a good thing.  It is a side effect of a process that keeps life on Earth possible.  Without plate tectonics, volcanoes wouldn't be.  Though volcano can be quite destructive in of itself, fresh basalt deposits renews the surface, adding much minerals that allows vegetation to be sustained.  Plate tectonics also is a sign that our home is indeed alive and is constantly renewing herself.  Our oceans are constantly, though slowly but surely, changing, giving Earth a chance to go through these cycles of constant birth and rebirth.  I do admit, however, that it is unfortunate that these events do happen when they do, wherever they do occur.  

 

It is a constant reminder just how precious human life really is. 

 

From Fayetteville, AR USA

--GeoJack

 

 

 

 

Geologic Hazards: Sinkholes

In wake of a recent tragedy near Tampa, FL last week, the country reels back and realizes that sinkholes can become deadly.  There are three known deaths in Florida due to sinkholes throughout the state's history, so fatality isn't really associated with this phenomenon.  However, loss of life can and does occur.  What is more, sinkholes are associated with karstic topography, thereby making up 10-15% of the total Earth's surface that are prone to these hazards, as the purple areas on the Circle of Blue map shows. 

Map taken from "Circle of Blue"

The United States Geological Survey (USGS) define sinkholes as, "an area of ground that has no natural external surface drainage--when it rains, all of the water stays inside the sinkhole and typically drains into the subsurface. Sinkholes can vary from a few feet to hundreds of acres and from less than 1 to more than 100 feet deep. Some are shaped like shallow bowls or saucers whereas others have vertical walls; some hold water and form natural ponds. Typically, sinkholes form so slowly that little change is noticeable, but they can form suddenly when a collapse occurs. Such a collapse can have a dramatic effect if it occurs in an urban setting."

Map taken from: Northeastern University

On the map from Northeastern University, the green colors (both light and dark shades) represents areas with carbonate rocks underlying the ground.  This is typical of karstic topography, because karstic rock is sediments such as limestone and dolomite embedded into the bedrock.  These dissolve with rain water because the acid in the precipitation reacts with the carbons in those rocks.  This explains the large amount of caves inside karstic areas.  Note Eastern United States and the look at Florida.  The Ozarks of the Central US has also this danger.

Image taken from CBS News

Tropical storms and hurricanes can dump a lot of precipitation on a localized area.  If underneath that area lies a limestone cavern, the top of that cave could collapse, causing these sinkholes.  In June of 2010, one such storm did just that in Guatemala, causing a deep sinkhole.  A photograph from CBS News looks "photo-shopped," but is indeed an accurate picture of what happened there.  A massive hole like that could definitely swallow automobiles and buildings, with damages excessive in terms of money and human lives.  

Urban sprawl is also a culprit in the making of sinkholes.  When urbanized regions become really built up, the land has to support more weight.  The bigger the cavern underground, the less support the ground has.  The ground sinks because it cannot support the weight above the surface.  Because of these urban sprawl and tropical storms along with having a karstic underground, Florida more sinkholes than any other state.

Image taken from USGS

A big concern of sinkholes is flooding.  Often times a new pond that just appears is a sign that a sinkhole is on its way of being formed, because a depression in the land occurs before the collapse.  If someone is building a house on level ground that person may not know that he or she is building upon a future sinkhole.  Some time later, a depression forms and rainwater will naturally collect there, having no other place to drain off to.  This causes more weight upon the unstable surface and a positive feedback is made, where one thing leads to another and then the inevitable occurs.  The ground literally caves in, slowly at first, but more and more things happen that will quicken the process.

Image taken from "About Geology"

Flooding also occurs because of what is happening underneath the surface.  Rainwater dissolves the carbonates, forming caverns underneath the ground.  As a result, there is no place for the water to escape to and gets trapped down there.  Through the process of erosion, water essentially gets blocked in with no drainage to get out.  When a sinkhole forms, a pond may appear as water comes back above the surface due to the sunken ground, called subsidence, forces the water up.

Because depressions are a usual sign of a sinkhole, people naturally uses these geological features as a pit to throw garbage in.  This is also an environmental hazard because it could very easily contaminate the local drinking water supply.  This is why many communities have laws regarding what and where one could dump wastes. This is also a reason why many landfills today in America are heavily regulated.  Illegal dumps can also cause blockage of water, so it cannot drain out.  The unsupported ground has that much more weight and collapses.  Again, positive feedback is in play here.  

The scientists at "How Stuff Works" have this to say in how to detect if a sinkhole may be forming around the house that one is buying.  "Property damage, especially around the foundation, may be a subtle sign that something is wrong. In addition, if vegetation is dying unexpectedly, a sinkhole may have disrupted underlying streams that usually feed the plants. Other signs to look for include polluted or muddied well water, formation of new ponds and trees, or sign posts that appear to be slumping over."

Image taken from "How Stuff Works"

Of course, no one should buy property to live on if the neighborhood looks like swiss cheese!  Often times though, potential geologic hazards do not present themselves as obvious as the above image.  If it did, life for many would be much smoother.  Yes, that is safer, but ultimately, where is the fun in that?  Oh, yeah.  investments and capital interests.  Got it.  Maybe information such as this is important after all!

Global Climate Change Scenarios

I've been reflecting about the global climate scenarios--after all, I am going to college to get a Bachelors degree in Earth Science!  Last Spring, I took Environmental Geology at NWACC and we had discussed global climate change for about two weeks.  

There is a concern about crossing that tipping point, to where contents inside the "kettle" spills out.  At which point is such that there is no reversing the damage and we will just have to deal with the outcome?  Have we come to that point?  I'm not sure there is anyone who knows exactly where and when that point is...  (we may have already reached that point, in which case, what we need to focus in on is damage control, though it doesn't seem likely that we are there yet.)

Furthermore, what complicates the issue is that we KNOW human activity has some role to play in global climate change.  How much our activity affects the climate is anyone's guess because there are other non-human factors that contribute (like volcanoes, especially the super variety that releases an awful amount of carbon, sulfer and methane into our atmosphere).  Plate tectonics has its role as well, when one recognizes that the continents are constantly moving about, reshaping and resizing our oceans, which in turn affects global climate.  We also have what are called "carbon sinks," which is a phenomenon (like plankton) that absorbs carbon dioxide, keeping it from being trapped in our atmosphere.  We know much about these sinks, who and what they are, but there are a few unknown ones out there. We know this because there is still quite a bit of carbon dioxide that is left unaccounted for. 

Another thing to consider is  that greenhouse gasses (GHG) are not necessarily a bad thing in of themselves.  Water Vapor is our biggest GHG.  Carbon dioxide is another culprit.  So is methane.  Without these gasses, life on earth would be very difficult, if not impossible.  GHG traps heat which gives Earth a blanket effect, keeping us from plunging into another ice age.  Otherwise, this planet would be really really cold.  The problem is, how much is too much? How hot do we need it to go?

Finally, to call it "global warming" is right to a certain extent.  We do know that overall the Earth will have warmer temperatures and drier conditions, though in some local areas, there will be more flooding (coastal areas) AND in others, such as Great Britian and Ireland, they could see another ice age, in spite of the trends.  Both of these scenarios defy "global warming" because temps are getting colder, not warmer.  There is a reason why both of these cases seem likely.  It is because with warmer temperatures, the glaciers will continue to melt, raising the sea levels (which is why coastal areas will be flooded out) and with this rise in the sea level, the warm current that flows off the Atlantic, the "Gulf Stream" will be buried underneath the sea and will no longer be able to give the moderate, yet wet conditions that jolly England is known for!

In all reality, what makes this issue so difficult to see clearly is our insatiable dependency on carbon based fuels like petroleum and coal burning.  What to do?  What are we going to do?  Ultimately, the decision rests upon us.  How much carbon based energy do we require to be burned?  There are alternatives, like solar, wind and water power; but as of this date, each cannot produce the amount of energy that we demand when we look at cost efficiency and practicality.  Solar cells are still quite pricey these days and not everyone gets the amount of wind or water needed to sustain calm and/or arid areas.    What can we do to curb our dependency on carbon?  What is it that we are willing to sacrifice?

Herein lies the rub.

Just my thoughts,

Jack Douglas