Monday, October 25, 2021

Out on the California Prairies: Taking Stock of California's Most Powerful Storm Ever


There are many ways to describe the power of a storm: monetary damages from flooding, rainfall totals, rise of reservoirs and rivers, and others. So one can argue about which particular storm was the most powerful to ever hit the state. I'm thinking especially of storms like those of 1861-62 that left much of the Central Valley as a vast lake for months, the 1997 floods that overwhelmed some reservoirs in the Sierra, or the 1969 floods that I experienced in Southern California. They were all devastating floods, and yesterday's storm won't be remembered the same way as these disasters, but in two ways this storm apparently was unique. 

The storm was called a "bomb cyclone", a term that meteorologists apparently hate in the same way that geologists hate "supervolcano". In any case, the power of the storm lay in the intense low pressure cyclone spinning in the ocean offshore of California and the Pacific Northwest. The lower the pressure, the higher the pressure gradient force that controls wind speed. The pressure was a record 942 millibars, and this generated hurricane-force winds over the ocean. Inland, vegetation and mountains slowed the gales, but we still had a wild day in the Central Valley, with trees and telephone lines down.
The Tuolumne River at Roberts Ferry Bridge
Storms can be incredibly powerful in terms of winds, but as I've discovered in Death Valley National Park, without a source of moisture, that will be it: powerful winds. But this storm tapped into subtropical moisture from the general vicinity of the Hawaiian Islands. This band of moisture, termed an atmospheric river, carries vastly more water than even the Mississippi. This stream of atmospheric moisture was pushed upward as it encountered the frontal system of the cyclone and it produced a prodigious amount of relatively warm precipitation. A number of all-time records for one day storm totals fell across the state, including downtown Sacramento, which got 5.44", breaking a record that stood since 1880. That represents 69% of all the rain the city received in the entire rain year 2020-21. Blue Canyon in the Sierra Nevada got 10.40", which amounted to almost a third of the entire 2020-21 water year. 

I headed out onto the prairies of the Great Valley and the Sierra Nevada foothills this afternoon to see what the atmospheric storm did to the grasslands. My first stop was to check out the Tuolumne River at Roberts Ferry Bridge (above). The river hadn't changed much, as it takes time for the waters to gather the storm runoff and move downstream, but the river is also controlled by the huge dam at Don Pedro Reservoir, and they'll hold onto as much water as they can. It's currently at 48% of capacity, which is bad, but not as bad as most other Northern California reservoirs (Lake Shasta is at 22% or so).

The biggest effect on the Tuolumne will be in downtown Modesto where Dry Creek joins the bigger river. Dry Creek is a normally...well...dry creek that has headwaters in the foothills north of Modesto Reservoir. It is undammed, so it can occasionally produce large floods that can back up into some residential neighborhoods. It had a minimal flow over the last few weeks of a few cubic feet per second. But I could see that a lot of water was gathering out in the prairie. The picture above shows one of the small tributaries to Dry Creek, and channels like this are present all over the region. By tomorrow Dry Creek may be flowing at close to 900 cubic feet per second.

The prairie for the most part was certainly wet, but there were few visual reminders that a vast amount of rain had fallen overnight. The vernal pools held water and creeks were flowing. But little flooding and soil loss had taken place, with one glaring exception. Tens of thousands of acres of prairie have been uprooted to be be replaced by almond groves. These groves have been planted in nice neat rows up and down the hillsides, providing a convenient avenue for floodwaters to cause intense soil erosion. I passed numerous scenes like that above where mud from the orchards had flowed down the road. It's hard to believe in this day and age that the farmers would be making the kind of mistakes that led to the Dust Bowl in the 1920s in Oklahoma, Kansas and Texas.


Away from the almond groves, the grass roots held the soil in place, and the water was infiltrating underground and flowing gently in the recently dry creek beds to gather and eventually drain into the Tuolumne River. The birds and other life seemed enervated by the moisture and were very active throughout the afternoon. I saw lots of Brewer's Blackbirds, Western Meadowlarks, Savannah Sparrows, Red-tailed and Ferruginous Hawks, American Kestrels, and Ravens. I loved coming across the small herd of horses; I was reminded that horses evolved on these prairies millions of years ago before migrating into Asia. They later became extinct here in North America only to be 'returned' by the Spaniards in the 1500s.

The final thought about today's storm is knowing that after the warm rains that snow would be falling in the high country of the Sierra Nevada. In the webcam from the Yosemite Conservancy we can see that upper Yosemite Valley is now mantled with the cold white stuff. Many wishes that this could be the start of a good water year with a chance to recover somewhat from our devastating drought.




Monday, October 18, 2021

So You Think You Know About California Earthquakes? Try This Quiz!

This is the day after the 32rd anniversary of the Loma Prieta earthquake that caused so much damage in the San Francisco Bay-Santa Cruz region, and given that many people in northern California weren't even born by then, and others have moved in, it helps to be reminded that earthquakes are a fact of life in our fair state (and our state is quite fair because of the long-term activity of earthquakes: it's how our mountains formed). There are some assumptions people sometimes make about California and earthquakes, and it seemed to be a good time to dust off some of these old ideas (this is an abridged and updated version of an article I wrote in 2012)...

It starts with a modest little quiz....

True or False?
  • California is going to fall into the Pacific Ocean
  • The San Andreas fault causes all California earthquakes
  • California has more earthquakes and bigger earthquakes than anywhere else
  • The ground opens up and swallows people during earthquakes
  • Psychics and animals predict earthquakes
  • We in California are waiting for the "BIG ONE"
Comic art courtesy of Zeo

California is going to fall into the sea: true or false?

This is one of those persistent statements about California earthquakes that everyone "knows", even if they live in New Jersey. Many people would say: false.

Here's the correct answer:
True!

In fact, not only is it going to happen, it already has.

Check out the NASA photo above. When we speak of California, we often forget that most people are only thinking of one part of California: Alta California (upper California). The image above reminds us that Baja ("Lower") California is also part of our geography. And Baja has already "fallen" into the Pacific Ocean, in a reasonable interpretation of the statement. Baja was once connected to the Mexican mainland, and has been a peninsula for only the last four million years or so. It is the beginning of a massive rift that will ultimately tear Alta California apart, and send it traveling northwest at all of two inches a year. The two inches per year will actually be taken up by large earthquakes shifting the landscape 10-15 feet every century or so.

In 20 million years, the Dodgers and Giants will again be crosstown rivals (yes, I stole this joke from the DVD "Planet Earth"). In 70 million years, California may slam into the south margin of Alaska, pushing up another high mountain range.

Want to see how this happened? Tanya Atwater of UCSB, the plate tectonics pioneer who figured out the origin of the San Andreas fault, has a series of excellent animations available for download at this site. If you have a fast connection, try this one (50 mb).
Courtesy of Tanya Atwater. See the animation here.
If you have a slower connection, this animation is 20 mb. Both animations show the complex interactions of the continental margin, with some parts being rotated, and others moving northwest along the San Andreas. And Baja California opening up to form a new seaway, the Gulf of California.

So indeed, it could be a good idea to buy up some property in the western Mojave Desert to be ready for your oceanfront views...in ten million years...if you want to wait that long.

What? You thought the question was about California falling into the sea during one earthquake? Really? Like the movie "2012" or "San Andreas"? Not gonna happen. That's tabloid stuff. Aliens kidnapped me last week too.
Art by Zeo
By the way, please don't think that the comic art above is belittling the loss of life and property in horrible events like that which struck Japan in 2011. It is actually a critique of the way that news is reported in American media, especially cable news (I'm talking about you, CNN and FOX), and local news outlets.

Question #2 on our short quiz is:

All California earthquakes happen on the San Andreas fault - True or False?


A crowd at a recent lecture I gave, California residents all, were up to date on this one. Not a single audience member said "true", and they were right. On the other hand, lots of people don't live in California, and they might not be quite as knowledgeable about all of California's faults (double entendre intended). So a few illustrations may be helpful. First of all, where do the earthquakes in California happen? See the map below...
Map courtesy of NDEDC, UC Berkeley.  Follow the link for an interactive version.
A quick look at the seismicity between 1970 and 2003 shows that earthquakes occur over much of California, and that the San Andreas fault is not even one of the most active. Long sections show little or no activity, meaning that stress is building up, leading to powerful quakes in the future.

But what about the biggest quakes? A map that concentrates only on larger quakes, magnitude 5 and above, shows that large damaging quakes also happen on faults other than the San Andreas (see the map below). Of California's three biggest historical quakes, only two were on the San Andreas. The 1872 Lone Pine quake resulted from movement on the Owens Valley fault east of the Sierra Nevada.
Map courtesy of NCNDE, UC Berkeley. Follow the link for an interactive map.

The good news for those of us who live in the flat, dusty, boring Central Valley is to note how few earthquakes, big or little, ever happen near us. Until a quake in the eastern Sierra Nevada a few months ago, I hadn't actually felt an earthquake here since the early 1990s, although most of my students felt one during a class break in 2007 (on a day they were taking a test on earthquakes of all things). 

Question three: California has the biggest and the mostest earthquakes in the world. True or False?

I know that "mostest" is not really a word, but it somehow seems to fit well in the question of the day (a little like Stephen Colbert's 'truthiness'). So, what is the answer? My California audience is usually a little divided on this one, but mostly fall into the "false" camp.

So let's check on some data. If you look at the maps above, you can see that California certainly has a great many earthquakes, perhaps 10,000-15,000 year, and some of them are rather considerable.

There have been three earthquakes in the last 170 years that are thought to have approached magnitude 8 in size: 1857 at Fort Tejon, 1872 at Lone Pine, and 1906 in San Francisco.
San Francisco earthquake of 1906
There have been about two dozen magnitude 7 quakes in the same time period, including the Ridgecrest quake in 2019 (7.1), the 2010 El Mayor-Cucapah quake in Baja (7.2), the 1999 Hector quake (7.1), and the 1992 Landers quake (7.3).
Fault scarp from 1992 Landers earthquake. Photo by Garry Hayes

There have been at least 50 quakes greater than magnitude 6.5, meaning that a potentially damaging quake occurs somewhere in California roughly every two or three years. The 1989 Loma Prieta quake and 1994 Northridge quakes caused damage measured in the tens of billions of dollars, and killed dozens of people.

Those are a lot of earthquakes. So let's take the "biggest" issue first. The quake in Japan that destroyed the nuclear power plant and produced the Pacific-wide tsunami was magnitude 9.0. The quake in Sumatra in 2004 that produced the horrific tsunami in the Indian Ocean was magnitude 9.1. So, California doesn't have the biggest earthquakes. Not even close (but check for the wild card issue below, however).

There is a great deal of confusion about the nature of the magnitude scale for measuring earthquakes. It is not a 1-10 scale, for instance, even though literally all recorded earthquakes fall within that range. It is open-ended, and quakes of greater than magnitude 10 are technically possible, but not likely from terrestrial origin. It would take the impact of an asteroid miles across to cause a quake larger than about 9.5 on the magnitude scale.

The biggest confusion concerns the relative size of quakes. Magnitude is a measure of the energy released when an earthquake strikes. A magnitude 9 quake is not just a little bit bigger than a magnitude 8. It is exponentially larger, by a factor of 32.  To put it a different way, a magnitude 9 quake releases an amount of energy that is equivalent to 32 magnitude 8 earthquakes!

It gets worse: Since a 9 is 32 times more than an 8, and an 8 is 32 times bigger than a 7, a magnitude 9 quake is more than 1000 times larger than a 7 (32x32).

A magnitude 9 quake is the energy equivalent of more than 1,000 magnitude 7 earthquakes...

Put another way: the Japan 9.0 quake released more energy than all of California's historical earthquakes combined.

The story is pretty much the same with the total number of earthquakes. California has a great many smaller quakes, but just about any subduction zone around the world has more. Even in the United States, Alaska has more earthquakes than California (as well as the second-largest earthquake ever recorded in the world, the 9.3 magnitude Good Friday quake of 1964).

So why does California get this reputation of having an inordinate number of earthquakes? I feel compelled to blame the way news is reported in this country. Cable and local news coverage of earthquakes is atrocious for the most part, with badly misinformed reporters and news-readers (I don't consider them to be news anchors or journalists anymore). There is a tendency to display blood and gore over actual conditions on the ground. The media will spend weeks talking about an earthquake in Los Angeles or San Francisco that kills a few people and practically ignore monumental tragedies in Pakistan or Iran where tens of thousands of people have died.

As mentioned above, there is one wild card in the possibility of large earthquakes hitting California. The state does in fact have a subduction zone that is active north of Fortuna and Eureka. It is part of the Cascadia subduction zone that threatens Oregon and Washington. There is good evidence that a magnitude 9 earthquake took place along the system in 1700, and there is no reason to think that the fault system is any less dangerous now.
An offset curb on the Calaveras fault in Hollister, CA. It isn't the San Andreas...
Question #4: In an earthquake, the ground opens up and swallows people: true or false?

True, but only in Hollywood....
Indeed, it is a staple that if an earthquake happens in a movie, somebody is going to be hanging by their fingernails on the edge of a vast deep chasm that has opened up beneath their feet. In the third Indiana Jones movie, for instance, and in 2012, again in San Andreas, and again, and again. And again.
For the reality-based world, the possibility of being swallowed up in the earth during an earthquake is far more unlikely. The problem is that earthquakes are generated by the stress built up along fault lines where vast blocks of rocky crust are in contact. The shaking begins when the rocks rupture and begin slipping. They don't separate. In some faults (thrusts) the stress is compressional and in others (strike-slip) the stress is lateral. Not much chance of openings occurring in either situation. The third type of fault, termed normal faulting, the stress is extensional, which could conceivably result in the stretching of the crust and formation of fissures, but more often, one side slips downward, as can be seen in the picture below, from the 1954 Fairview Peak earthquake in Nevada.
It is true that small fissures will open along fault ruptures in some situations. I saw many of these when I visited the Landers area a week after the 7.3 magnitude earthquake in 1992. The fissures were only a few inches across and no more than a foot or so in depth. I've heard mention of where someone was killed in a fissure that opened up in a 1948 quake in Japan, but that hardly represents a pattern.

One other effect of large earthquakes is the production of slope failures and landslides, during which large fissures might open up. The Turnagain Heights liquefaction event during the Alaska earthquake of 1964 is a stunning example. Weak saturated sediments underneath the housing project were severely shaken, causing the whole landscape to break up and flow towards the adjacent bay, destroying the dwellings at the surface (I've included two pictures derived from my old slide collection, but I'm afraid I don't know who to attribute them to; I will add credit if someone can clue me in. They may be from a USGS collection).

In the 1906 San Francisco earthquake, there were not any claims of swallowed people that I know of, but there is the famous tail/tale of Shafter's cow, which was swallowed up by the San Andreas fault. In the aftermath, only the poor bovine's tail could be seen at the surface. The story apparently became widespread, but in a letter from 1966, some locals recalled that the poor cow had actually died the night before. The earthquake produced a convenient fissure, the farmer tossed in the carcass, and when reporters showed up asking questions about the poor animal, farmer Shafter decided not to kill a "good story".

Question 5: Psychics predict earthquakes: true or false?


Comic art by Zeo (with slight modifications by Geotripper)

Well, let's see if I can't make a few (seismic) waves here.

My audiences and readers are skeptics and non-believers, to be frank, and usually come down firmly in favor of "false" for an answer. So they are a little surprised when I tell them the actual answer:

TRUE!

Think about it a moment, and you will realize that the statement is in fact true. Psychics predict earthquakes all the time. All the time, and then some more. Earthquakes are one of their most common predictions, more popular I think than predictions about aliens.

That leads to a revised question: Do psychic predictions about earthquakes come true?

My readers are usually onto me by now, and they will say that psychic predictions are invariably wrong. I set them straight. I say "Psychics predict earthquakes all the time, and are almost invariably correct".

I support my contention with a collection of predictions that I googled in about five minutes. I refuse to link to each of them because I have no interest in promoting their websites. If you want to find them, google the statement and it shouldn't take long to dig them up.


  • Both earthquake and out of control fires will effect California causing devastation and loss [of] life. 
  • There will be a violent earthquake, one of the strongest on record.[no location noted]
  • My California earthquake prediction: yes, there WILL be an earthquake in California. I am not saying it will be along the San Andreas Fault or that it will be major. …I am also not saying when.
  • I keep seeing the year 2011 like a pulsating animation within visions of major earth shifts in my home state of California. Dates perceived in months or years could be argued to have limited value in forecasting a time because we psychics move our consciousness in large spans of time and cover broad areas of locations and events.
Note how every one of these predictions came true. Oh, and my favorite, the shotgun prediction....

Wild Weather Predictions

  1. Category five hurricane wipes out Miami.
  2. The worst mudslides in California’s history will occur.
  3. Mount St. Helens erupting.
  4. Earthquake Seattle, Washington.
  5. Earthquake Chicago, Illinois.
  6. Part of the polar ice cap melts.
  7. Wildfires spread to Beverley Hills and Los Angeles, Brentwood.
  8. More tsunamis Sumatra Indonesia, Alaska, Hawaii and Japan.
  9. A great earthquake in Los Angeles, San Francisco and San Diego.
  10. Earthquake Lake Tahoe.
  11. Earthquake Toronto and Quebec.
  12. Earthquake Oregon.
  13. Earthquake Grand Canyon.
  14. Earthquake New York, Alaska, Japan, Greece.
  15. Earthquake British Columbia, China and Iran.
  16. Tornado in California.
  17. Floods Amsterdam, Holland, Rhine River, Germany, Bangladesh, Great Britain. Venice, Italy, Gulf Coast of Florida and France.
  18. Tsunami Malibu, California.
  19. Wildfires Greece, Australia, Texas, Hawaii.
  20. Mudslides in India, California.
  21. Typhoon in Taiwan.
  22. Tornadoes Oklahoma, Indiana, Texas, Illinois, Tennessee.
  23. Great earthquake Rome and Naples, Italy.
  24. Huge snowstorm and blizzards up the eastern seaboard affecting the great lakes – Toronto, Chicago, New York, Boston, etc.
  25. Earthquake Yosemite and Yellowstone Park.
Note how many of these predictions haven't happened yet. Still, many will absolutely take place, allowing the psychic responsible for this list to claim broad success in his or her psychic powers.

Soooo...psychics accurately predict earthquakes. Well, guess what? I can predict earthquakes too! And I can be more specific than the average psychic. Here goes..

I predict that within the next week:
  • 200 earthquakes will occur in California,
  • Of these, there will be a magnitude 4 quake in southern California, most likely in the Colorado Desert near Salton Sea.
  • There will be a magnitude 3 earthquake in northern California, most likely north of the Bay Area, somewhere around Clear Lake.
  • There will be a larger quake at the Vanuatu Islands in the Pacific Ocean, quite possibly in the magnitude 6 range.
  • There will be a magnitude 5 earthquake offshore of Japan.
I think I am going to be right. You are welcome to keep count and when the quakes happen you can hail me as a psychic earthquake predictor.

You can do that, but please note that my predictions have something in common with psychic predictions: the predictions are totally and absolutely useless to anybody.  They are about as useful as predicting that the sun will rise in the east tomorrow. Why? Because like the sun rising, earthquakes happen all the time, and they tend to happen in the same general places, mainly along tectonic plate boundaries (along with a few near hot spots like Hawaii or Yellowstone). It sounds impressive that 200 earthquakes will happen over the next week in California, but that happens nearly every week.

Earthquake prediction is a serious business. On the one hand, a timely prediction can save lives. But a prediction made by a credible source that doesn't come to pass is a real problem. Like the boy who called "wolf" once too often, later predictions would be ignored. Charlatans who make spurious predictions can cause panic and unnecessary stress in an uninformed population (such a prediction in 1990 caused the population of St. Louis and surrounding region to close down businesses and leave town, and also caused a media circus).

An earthquake prediction, in order to save lives, must have three elements:
  • the time (within a few days at most)
  • the location (specific)
  • the magnitude and depth
No psychic ever provides such information, which proves the useless nature of their "predictions". No one is in a position to predict earthquakes with such precision, including seismologists. Anyone who claims some special power of prediction is lying or deluded. No one has ever once saved lives with such predictions (the one successful prediction, ever, of a quake that saved lives, in China in 1975, was based on tangible evidence, and no psychic powers were claimed or invoked).

Psychics: give up the earthquakes. Stick to the lives of the Hollywood stars. They're more predictable anyway.


Question 5 B: Animals predict earthquakes...true or false?

My answer to this one?

??? Who knows???

The problem is perceived cause and effect. Many people who experience strong earthquakes recall strange behavior by their animals, and link that behavior to the quake. The problem is that animals may behave strangely in many circumstances that are not followed by a strong earthquake, but the behavior is not noticed or remarked.
This animal is clearly predicting an earthquake. Or is about to attack.

The other problem is how to quantify strange acts by animals. What specific animal behaviour constitutes a prediction of an earthquake? At what point do authorities declare that animals have predicted a quake?

There are many anecdotal stories about unusual activity by animals going back hundreds of years, so I for one cannot completely dismiss the idea out of hand. Animals sense the world differently than humans, and there could in fact be some sort of electromagnetic or vibrational effect that researchers have not yet detected.

A reasonable response on earthquakes and animal behavior would be a good article by the National Geographic that can be found here. Geologists around the world  followed a story coming out of Italy regarding the failure of seismologists for failing to predict or warn the local populace before a deadly earthquake in Italy that killed several hundred people in 2009. It's one thing to say geologists can't predict earthquakes, and quite another to say they didn't predict it enough in the aftermath. Seismologists walk a fine line.

Speaking of kitties and strange behavior, if you see these eyes, run for your life. Aliens have taken over your cat's soul....
Comic art by Zeo

Question 6: In California, we are waiting for the BIG ONE! True or False??

When I talk to groups about this question, I make sure to say "the BIG ONE" in capital letters. How do you say something in capital letters? You do it in a deep baritone voice with your hand cupping the microphone; it's very dramatic.

So what is the answer? Well, actually the question is wrong and requires a bit of modification. Let's try it again, and in that deep baritone voice:

In California, we are waiting for the BIG ONES!

There, that's better. If we can't predict earthquakes, then how can this statement be possible? Doesn't it require the ability to predict earthquakes? Yes, it does. So the statement must be false. But it is not. The answer is TRUE!

Predicting earthquakes is not possible in the short term, as in hours or days, but a great deal can be said about the probability of earthquakes in a particular area over a period of decades. We can do this on the basis of the historical and prehistorical record of earthquakes along a particular fault zone, and by analysis of building stresses and tilting over a large region, as revealed by GPS stations and other related technology Check out the latest version of the Working Group on California Earthquake Probabilities in this USGS PDF file.
As can be found on the map above, numerous fault zones represent a threat to the state of California. The fault zones are of different lengths, and therefore some will produce smaller quakes, but several are capable of producing large shocks approaching magnitude 7, and maybe even larger. These include the San Jacinto fault, the Owens Valley fault, the Hayward and Calaveras faults, and others. Even more important is the fact that the San Andreas itself is not a single monolithic fault zone. It has segments that behave independently. This was shown in 1857 and 1906, when completely different sections of the fault gave way, producing shocks that approached magnitude 8.

The most recently published studies show that earthquakes of 6.7 magnitude or greater are a virtual certainty over the next 30 years. The chance for an even greater quake is ominous, exceeding 70% for a magnitude 7.0, and a lesser, but still significant chance of even larger events. One of these quakes has already occurred, the Ridgecrest Earthquake of 2019 (7.1).

Another wild card is the possibility of a large quake along the Cascadia subduction zone in the northernmost part of the state. It was not included in the probabilities, but numerous magnitude 7 quakes have taken place in that region in recent decades.

The lesson to be drawn from these predictions is that damaging earthquakes have happened all over California, and they will continue to do so in the future. Some of these quakes will be major events, causing many deaths and massive damage over large areas. The probability forecasts have great value in the sense that they are a warning to residents across the the state to be prepared at all times for earthquakes. We cannot know the precise moment that a large earthquake will strike, but we do know where they will happen, and how big they can be.


Saturday, October 9, 2021

The Prairies of California: the Most Extraordinary Landscape (and Ecosystem) in California

The Tuolumne River on the east side of the Great Valley

I admit this statement is a hard sell, especially among those who live here, but hear me out: the Great Valley prairie is the most extraordinary landscape and ecosystem in California

The Great Valley prairie remnant east of Modesto

"But", they will say, "the valley is boring. It is just one long flat plain full of farms, feedlots, oil derricks, and urban hellscapes. It's dusty and the air is bad. And there is nothing to do." And from their point of view, their statement is valid. But that's not the part that I am talking about. I'm talking about the valley that once was, and more importantly, the 5% of the valley that is not given over to agriculture and urban development. It is that small bit that teaches us what once was. 

I was thinking a lot about the original valley today.

Prairie and wetlands at the San Luis National Wildlife Refuge south of Turlock

The occasion was World Migratory Bird Day, Global Bird Weekend, and eBird's October Big Day. The purpose of the day is to gain a one-day snapshot of the world of birds, and birdwatchers all over the world contributed observations. For myself, I decided I wanted to capture as much of the primeval Great Valley prairie as I could, so I selected three habitats for the day: the valley wetlands and marshes, the riparian environment, and the dryland prairies that once filled the spaces between the rivers and wetlands. In the end Mrs. Geotripper and I explored the Merced National Wildlife Refuge and the San Luis National Wildlife Refuge, and in the afternoon I walked the Tuolumne River Parkway Trail (as I often do). As the sun began to set I took a drive through the prairies between the Tuolumne and Stanislaus Rivers east of Modesto. In all we saw nearly 60 species of birds.

One of the most extraordinary facts about the prairie lands of California is that they ever existed at all. The Great Valley is 400 miles long and 30-40 miles wide, and with the exception of a single volcanic center at Sutter Buttes, is as flat as any place on Earth. The entire American West is characterized by rugged mountainous topography, including the Coast Ranges and Sierra Nevada of California between which the Great Valley is sandwiched. Such a large mostly flat region is akin to finding a serene quiet lake surface in the midst of an intense hurricane.


The origin of the Great Valley lies in the violent tectonics of the subduction zone that existed off the coast of California for at least 200 million years. A region of oceanic crust was being driving beneath the western edge of the North American continent, forming a trench and a deformed mass of sediment called an accretionary wedge. Parts of the accretionary wedge were buoyed upwards to become the core of California's Coast Ranges.

As the slab of ocean crust sank into the Earth's mantle, portions of the plate melted and formed vast plutons of magma that melted their way through the overlying continental crust, forming an extensive volcanic chain called a magmatic arc. The deeper parts of the magmatic arc eventually cooled to become the granitic rocks of the Sierra Nevada.

Between the geologically violent wedge and arc though was a shallow sea that simply collected sediments washed off the land. This sedimentary trough is known as a forearc basin. As the sediments accumulated, they pressed the crust downwards, providing room for additional sediments. Eventually these silt and sand layers reached a thickness of 25,000 feet or more. These sediments became the floor of the Great Valley.

Source: National Park Service

The valley was below sea level for most of its first 140 million years, but in the last four or five million years the floor of the valley was lifted slightly above sea level to become the plain it is today. It is dry in large part because the adjacent Coast Ranges act as a barrier to incoming storms from the Pacific Ocean. It is literally a desert in the southern portions from Fresno to Bakersfield, but the dry plain is crossed by numerous rivers flowing out of the Sierra Nevada.

In antiquity the valley was a vast prairie, a grassland stretching 400 miles from what is now Bakersfield to Redding. The drylands were broken up by a system of rivers, marshes and wetlands that supported groves of oak, cottonwood, and sycamore and vast thickets of willows and shrubs. These plants supported a rich fauna.

Until roughly 12,000 years ago, the prairies were populated by millions of grazing animals including horses, camels, deer, elk, bison, and even elephant species like mammoths and mastodons. This megafauna was preyed upon by a terrifying roster of predators including saber-tooth cats, 
lions, cheetahs, dire wolves, and bears, including the California Grizzly and the even larger short-faced bear. The cause of the extinction of most of these species is still debated, but the prime suspects are climate change and overhunting by newly-arrived humans. A minority view argues for an asteroid impact that primarily affected North America.

Sandhill Crane and Great Egret at the Merced National Wildlife Refuge

In the aftermath of the extinctions, the valley still supported a robust ecosystem. The mild winters provided shelter for millions of migratory birds, and the grasslands were grazed by elk, deer, and antelope. Predators included wolves, coyotes, foxes, mountain lions, and bears. The Tule Elk were thought to have been hunted to extinction in the years after the Gold Rush, but a small remnant of the species survived on a single ranch at the south end of the valley. The California grizzly and wolves were eliminated in the early 1900s. 

Tule Elk bull at the San Luis National Wildlife Refuge. We didn't see any today so I borrowed a shot I took in 2016

Today the remaining original prairie and wetlands environments are present due to sheer luck, and from concerted efforts by many environmental organizations and government agencies. A series of national wildlife refuges have been established like a string of pearls up and down the valley to provide habitat for the millions of migrating cranes, geese, swans and other species.

The White-faced Ibis is a tropical species that looks almost black until the sun shines on the iridescent feathers. The white face appears in the breeding season.

Some grass prairies are preserved in state parks and national monuments (most notably Carrizo Plains National Monument). But most persist because they are on cattle ranch property. These private lands are threatened by the rapid expansion of almond groves into the foothills. In my county alone, tens of thousands of acres have been planted, with no secure irrigation sources for the thirsty trees. I'm pretty sure they'll be abandoned within a decade or so as the groundwater they are using dries up.

Dry Creek, shown here, has earned its name this year, although it is capable of serious flooding in wet years. An invading and misguided almond orchard can be seen at upper right.

The riparian habitats have their own problems. The river woodlands are among the least-affected environments as attempts to develop them as farmlands tended to fail because of repeated flooding. Still, much damage was done in the attempt, and current efforts are directed at replanting native species in floodplains that have reverted to government or conservancy ownership.

The Tuolumne River near the Sierra Nevada foothills.

It is the rivers themselves that face the biggest challenges. There is no more contentious issue in the Great Valley than water use and distribution, especially in severe drought years. All of the major rivers are dammed and strictly controlled except for the occasional exceptional flood. The Tuolumne has been kept at a minimal flow, enough to maintain a string of river water into the delta. The slow-moving water is subject to warming to a dangerous level for river species, and the expansion of invasive species like river hyacinth. Through it all the river is a beautiful walk at all times of the year.

Sandhill Cranes at the San Luis National Wildlife Refuge

It was a serene day, but it was also the calm before the storm. The migratory birds are beginning to arrive in greater numbers, and soon these pools will be filled with Snow and Ross's Geese, Tundra Swans, and Aleutian Cackling Geese. There is nothing quite like seeing a flock of 10,000 geese take off all at once. It becomes so easy to imagine what once was in this most extraordinary place.

Sunday, September 19, 2021

Yeah, I'm Rather Dense Too...A Weighty Matter in Mineralogy


All that glitters is not gold...and even if it is gold, there's no way I would pass a large nugget of it around the lab, no matter the teaching value of something that could illustrate density so well. That's hardly an issue of course, since the largest sample of gold that I have is only a gram (about 1/28 of an ounce). You can feel the heaviness a little, but not really. There's also a sample of crystalline gold, but it is so small that you can't really feel the weight of it at all.
Still, it would be nice to have a sample like gold around in the classroom to provide a tactile example of extreme density. But even a single ounce of gold is just not feasible.

The density of a mineral is the ratio of mass to volume, often measured as grams per cubic centimeter. The higher the density, the heavier an object will feel. In a physical geology laboratory on minerals, we refer to the density as the "heft" of the mineral. In other words, does the mineral feel heavier or lighter than expected? We tend to expect metals to be heavier, and translucent or transparent minerals to feel lighter. Water has a density of 1 gram per centimeter, and most non-metallic minerals have a density of between 2.5 and 3.5. That is therefore close to the density of many rocks, since rocks are composed of a solid mixture of minerals most of the time. 

Galena, a sulfide of lead, is one of the densest of the reasonably common minerals, at 7.6 grams per cubic centimeter. Pyrite (otherwise known as fool's gold) is also relatively dense at 5.02. But none of those minerals come anywhere close to the density of the heaviest metals.
So why not some chunks of common metals? I have a 1-inch sphere of copper in the classroom and several samples of native copper. They're fairly hefty at 8.92, but that's barely ahead of the mineral galena. Iron is even less at 7.87. Silver and pure lead are getting up there at 10.49 and 11.34 respectively, but the toxic nature of lead is well-known. What I would hope for is something really heavy, among the most dense of all the metals.

What are those densest metals? And are any of them useful or appropriate for a classroom? Here are the ten densest metals:

Densest Metals

Mercury 13.55 g/cm3

Americium 13.67 g/cm3

Uranium 18.95 g/cm3

Gold 19.32 g/cm3

Tungsten 19.35 g/cm3

Plutonium 19.84 g/cm3

Neptunium 20.2 g/cm3

Platinum 21.45 g/cm3

Iridium 22.4 g/cm3

Osmium 22.6 g/cm3


It's an interesting list. I've wondered if any of them could ever be considered as a classroom demonstration model.

Mercury is the kind of stuff that kids aren't allowed to play around with for clear toxicological reasons, but in the days of my youth, it was far more accessible, but no less toxic. I had a toy once, a maze that had a bead of mercury in it that you would tilt back and forth. In high school, the chemistry lab storage area had a plastic flask containing several pounds of the stuff. The kids had full access to it if the teacher wasn't paying attention. It's amazing that any of us made it to adulthood, and mercury poisoning perhaps explains some of the strange quirks of my generation.

Americium is unique, as it only exists in human-made form. It's not found in nature, but it is probably present in your fire detector. Even if it were in a mass large enough to feel, it is clearly not appropriate for a classroom demonstration of heft!

Platinum, iridium and osmium are the densest of all, but all of them are rarer and more expensive than gold. They're out of the running in my lab...

Plutonium and neptunium are both highly radioactive and not natural to the Earth except in extremely small amounts. It is of note that I got to use some plutonium once in a chemistry lab. We irradiated something (copper, I think) with plutonium, and then recorded the decline of the radiation on a graph to better understand the concept of radioactive half-lives. The plutonium was highly shielded, however. We couldn't even actually see it.

There isn't much left, is there? Uranium seems a possibility in some respects since it is used in depleted form in weapons and armor. "Depleted" refers to the fact that it has been processed to remove the most radioactive isotope (Ur235, used in weapons. Isn't that comforting?). The Ur238 is less radioactive, but it is still radioactive. I got to hold a 1-lb slug of uranium once, and wished I could have one for the classroom, but it just isn't going to happen.
My new sample of tungsten with a stack of dimes (nickel-copper) and pennies (mostly zinc) that each weigh as much as the cube.
So it comes down to one last metal in the top ten, and example of how one can learn things even at such an advanced age of my own. I've known about tungsten for a very long time. As a teen I hiked through the grounds of Pine Creek tungsten mine in the Sierra Nevada that once provided more than 90% of U.S. production. Over the years I've enjoyed searching for the principle ore of tungsten, a unique fluorescent mineral called scheelite. I've known for years that it was used as the filament in incandescent light bulbs, and that it was alloyed with iron to make a stronger armor. But something I did not know until last month was that pure tungsten is denser than gold!

It's not only denser than gold, but it is not particularly toxic except in rare instances. And it's not overly expensive. I got a sample cube a half inch on the side for a few tens of dollars online, and ever since it arrived last week it has been my newest 'worry' stone. I can't help but heft it and realize that at long last I have a sample to demonstrate extreme density in the laboratory. 

That is, if I ever get to have a laboratory class again. I'm getting really tired of the pandemic.


Sunday, August 29, 2021

The Other California: There's More Out There Than The The Tar Tar Pits (and The Doing of a Good Thing at the Carpinteria Bluffs)

 

The first thing to know in this post is that this was once my home. My small growing family spent three years in the cramped condominiums across Highway 101 from this spot on the Santa Barbara coast near Carpinteria. It was the 1980s shortly after I finished my degree and I was working as a lab teacher at Santa Barbara City College. They were good years, and many may wonder why I moved to a dusty farm town in the Central Valley for my 30 year career. It's a fair question, but I've never regretted it.

Be that as it may, Carpinteria turned out to be a nice place to visit 30 years on, and I was pleased that while some things have changed, others have not. When we lived there, it was a pleasant 1/4 mile walk to the Carpinteria Bluffs, a roughly 60-acre tract that had somehow escaped development over the years. Given the level of the land utilization along the coastal terraces from Goleta to Ventura, this stood as some kind of minor miracle. It's also a minor geological miracle that the flatland even exists at all. The Santa Barbara coastline is a prime example of a "geologically active" place.

The Santa Barbara coast really stands out on a map of California. While most of the state's coasts are oriented towards the north-northwest, the stretch from Point Conception to Ventura is distinctly east-west, paralleling the orientation of the Channel Islands, several tens of miles offshore. Geologists call this region the Transverse Ranges for this reason. This strange structural knot in southern California extends eastward to the San Bernardino Mountains and Joshua Tree National Park.

The origin of the structural twist is wild...when the San Andreas fault originated, it mostly carried crust to the northwest, but the part of the crust that is now the Transverse Ranges was twisted nearly 90 degrees to the east-west orientation that it has today (you can see a great animation and explanation of the process at this link). Getting caught in the machinery of the fault was not gentle either. Compressional forces pushed the crust upwards into mountains more than 10,000 feet high, and caused the crust to sink in other places. The Ventura and Santa Barbara basins contain tens of thousands of feet of marine sediments deposited in just a few million years. The region contains some of the thickest Cenozoic-aged sediments known from anywhere in the world. And the sediment contains prodigious amounts of petroleum and natural gas, with some consequences that will be noted later in this post.
The fact is that most of coastal Central California is mountainous, and in many places the mountains rise directly from the sea, leaving little or no flat surfaces for either settlement or transportation routes. Flat terraces are prime real estate, and most of these were developed early on. Carpinteria was only the latest of settlements over the last several thousand years. The Chumash had a village noted by Cabrillo in 1541 called Mishopshnow. They were canoe-builders, and the woodworking that was going on there is the reason for the name Carpinteria ("carpentry shop").

The terraces were also the result of active geological processes. Thousands of years of waves washing back and forth flattened the beach areas forming a wave-cut bench. These benches were lifted out of the water by continued tectonic uplift (no doubt accompanied by occasional severe earthquakes).
I'll never quite know why the Carpinteria Bluffs escaped industrial development during the last century. When we lived there in the 1980s, we heard of ambitious plans for the "barren" terrace, and it seemed a sure thing that this pleasant stretch of coast would disappear soon after we moved away, yet when we returned last month for a visit, I was thrilled to see it remained much as it was. I learned that the 1990s was a contentious period during which the people of Carpinteria fought a pitched battle to keep the bluffs as open space. In 1998, the volunteers managed to raise just short of 4 million dollars to purchase the land to form a permanent nature preserve. 
The Santa Ynez Mountains rise dramatically above Carpinteria. They are composed of sandstone, siltstone, and shale layers that were on the bottom of the sea only a few million years ago.
The preserve can hardly be described as a wilderness, given its location between the 101 Freeway and the busy railroad tracks, but a short series of walks reveal incredible views of the coastline, beaches, and the Channel Islands far offshore. During particularly heavy storms I can remember hearing the concussion of the huge waves that pounded the cliffs from a quarter mile away in our condo.
A section of the beach has been seasonally closed to provide a safe haven for Harbor Seals who use the beach for birthing their pups. Around a hundred of them utilize the area.
When we first moved there, we found another reason that one might avoid walking on this particular beach. At the conclusion of our walks we would find that there was a considerable amount of tar covering our shoes, or worse, our feet. It was hard to get off, and seemed omnipresent. It was easy to blame the offshore oil rigs or the onshore petroleum processing facility just to the west, but the truth was the tar was natural. Which brings us to the other subject of the day concerning Carpinteria: the tar!
The Spanish Language is beautiful. It's been said that reading a grocery list in French sounds sexy, but Spanish is muy bonita. The place names in California attest to this fact. For example in my area alone we have poetic place names like Merced, Madera, Manteca, Los Banos, and Escalon. Merced translates into the equally poetic name "Mercy", but the others are in order "Wood", "Lard", "The Bathrooms", and "Step".

And sometimes we kind of mix up our translations into unnecessary repetition. Most specifically, the La Brea Tar Pits. The most literal translation is "The The Tar Tar Pits". The La Brea Tar Pits in the Hancock Park area of Los Angeles are justly famous for the fossil collections that have come from one of what are said to be only five natural tar pits in the world (I can't confirm this claim, but I'm going with it). And...it's not the place I'm talking about in this post. It turns out that two of the other four tar pits are in California, and they are obviously far less known. One is in McKittrick near Bakersfield, and the other is in, of all places, Carpinteria.
File:Layers of stone and tar at Carpinteria, CA.jpg - Wikimedia Commons
Tar results when petroleum escapes to the surface and loses some of its volatile components, becoming a sticky gooey mess. In the coastal cliffs at Carpinteria, the near vertical layers of the Monterey Shale give way to the horizontal layers of the coastal terraces. The Monterey is the source of much of the oil that is pumped from the ground in California, but at Carpinteria, it is emerging from the rocks like a very, very slow spring. The tar deposits are present over dozens of acres in the area, but are mainly exposed in the sea cliffs and on the beach just west of the Carpinteria Bluffs, and within the lands of Carpinteria State Beach. 
Tar Pits Park (Carpinteria) - 2021 All You Need to Know BEFORE You Go (with Photos) - Tripadvisor
The tar was utilized by the Chumash people for centuries, and as such can be described as the first petroleum enterprise in North America. The tar was traded for use as an adhesive, caulking, and waterproofing. The Chumash made use of the material in their construction of their plank canoes. 

European colonizers and invaders also made use of the tar deposits, and in the late 1800s and early 1900s it was used to pave roads in the area. Eventually the pits were abandoned and utilized as a garbage dump. 

Some paleontologists came to realize that the tar was an important fossil resource. Excavations between 1926 and 1928 revealed 25 plant species, 55 species of birds and 26 species of mammals according to the Carpinteria Valley History Society. The animals are similar to those found at La Brea, including Mammoths or Mastodons, Saber tooth Cats, Dire Wolves, Giant Ground Sloths, horses, and camels. The birds are even more diverse, due to being a coastal habitat, unlike the plains at La Brea. The plant fossils include eight conifer species showing that the during the ice ages the coastal environment was cooler and more moist, much like the Monterey Coast to the north.
Source: California State Parks

When I worked at SBCC there was no internet, and I was only vaguely aware that there had been tarpits somewhere in the area. So it was that I never realized the value of the irritating pollutant on the beach that ruined a number of pairs of my shoes. If you visit and mess up your own shoes, just remember, it's important history!

The Other California is my long-running series of places to see in our state when you've seen all the places on the postcards!