Starting on March 22, a series of major eruptions have taken place from Mt. Redoubt in Alaska. The biggest exceeded 65,000 feet in height. More than a dozen eruptions as high as 60,000 have followed the first week alone. Activity may continue for weeks or months based on the volcano’s history.
Mt. Redoubt March 26, 2009
Climatologists may disagree on how much the recent global warming is natural or manmade but there is general agreement that volcanism constitutes a wildcard in climate, producing significant global scale cooling for at least a few years following a major eruption. However, there are some interesting seasonal and regional variations of the effects.
Oman et al (2005) and others have shown that though major volcanic eruptions seem to have their greatest cooling effect in the summer months, the location of the volcano determines whether the winters are colder or warmer over large parts of North America and Eurasia.
According to their modeling, tropical region volcanoes like El Chichon and Pinatubo actually produce a warming in winter due to a tendency for a more positive North Atlantic Oscillation (NAO) and Arctic Oscillation (AO). In the positive phase of these large scale pressure oscillations, low pressure and cold air is trapped in high latitudes and the resulting more westerly jet stream winds drives milder maritime air into the continents.
Oman found high latitude volcanoes like Katmai (Alaska in 1912) instead favored the negative phase of the Arctic and North Atlantic Oscillations and cold winters. In the negative phase, the jet stream winds buckled and forced cold air south from Canada into the eastern United States and west from Siberia into Europe. They also favored a cooling of middle and higher latitudes the year round of that atmosphere and a weakening of the summer monsoon in India and Africa.
Here is the abstract of that paper:
“Strong volcanic eruptions can inject large amounts of SO2 into the lower stratosphere, which over time, are converted into sulfate aerosols and have the potential to impact climate. Aerosols from tropical volcanic eruptions like the 1991 Mount Pinatubo eruption spread over the entire globe, whereas high-latitude eruptions typically have aerosols which remain in the hemisphere in which they where injected. This causes their largest radiative forcing to be extratropical, and the climate response should be different from that of tropical eruptions.
We conducted a 20-member ensemble simulation of the climate response to the Katmai eruption (58N) of 6 June 1912 using the NASA Goddard Institute for Space Studies ModelE climate model. We also produced an additional 20-member ensemble for a 3 times Katmai (3x Katmai) eruption to see the impact the strength of the eruption has on the radiative as well as the dynamical responses.
The results of these simulations do not show a positive Arctic Oscillation response like past simulations of tropical volcanic eruptions, but we did find significant cooling over southern Asia during the boreal winter.
The first winter following Katmai and the second winter following 3x Katmai showed strong similarities in lower stratospheric geopotential height anomalies and sea level pressure anomalies, which occurred when the two cases had similar optical depth perturbations. These simulations show that the radiative impact of a high-latitude volcanic eruption was much larger than the dynamical impact at high latitudes. In the
boreal summer, however, strong cooling over the Northern Hemisphere landmasses caused a decrease in the Asian monsoon circulation with significant decreases of up to 10% in cloud cover and warming over northern India. Thus the main dynamical impact of high latitude eruptions is in the summer over Asia.”
Lets look at volcanic activity in Alaska, Iceland and Kamchatka in eastern Russia.
ALASKA AND KAMCHATKA VOLCANO MAP
Intreractive map here. Red over Alaska is Redoubt, yellow on Aleutians is Mt Cleveland.
MT. REDOUBT
Mount Redoubt has erupted five times since 1900: in 1902, 1922, 1966, 1989 and 2009. The eruption in 1989 spewed volcanic ash to a height of 14,000 m (45,000 ft) and managed to catch KLM Royal Dutch Airlines flight 867, a Boeing 747 aircraft, in its plume (the flight landed safely at Anchorage).
The 1989 eruption is also notable for being the first ever volcanic eruption to be successfully predictedby the method of long-period seismic events developed by Swiss/American volcanologist Bernard Chouet.
An aerial view of Redoubt Volcano looking north on December 18, 1989 showing a low-level eruption of steam and ash. Photograph by W. White, U.S. Geological Survey
Mt. Redoubt April 21, 1990. Photograph by R. Clucas.
MT. CLEVELAND
On Monday, February 19, 2001, Cleveland volcano in the east central Aleutians erupted explosively sending ash to 35,000 feet. The explosive event lasted less than one day.
Historical eruptions at Mt. Cleveland have been characterized by short-lived explosive bursts of ash, at times accompanied by lava fountaining, lava flows, and debris flows down the flanks. On May 25, 1994 sent a short-lived ash plume to about 10.5 km (35,000 ft) altitude (photo above and below).
MT. SPURR
Crater Peak, the active vent of Mount Spurr, Alaska, on 26 September 1992 erupted in June, August, and September 1992. Ash from the August eruption closed Anchorage International Airport. Photo is from June 27, 1992.
Mt. Spurr is a stratovolcanoin Alaska. It is composed mostly of andesite. The Spurr volcanic complexwas built on the remains of an older volcano. The present Mt. Spurr grew in the center of the old caldera. The original volcano was an andesitic stratovolcano. It is about 12 miles (19 km) around. Snow and ice cover the north side. The caldera is breached to the south. It contains an ice field which feeds glaciers in all directions.
A dome grew in the center of the old volcano’s caldera to form the present Spurr. This volcano is mostly covered with ice. The exposed ground around the volcano has fumaroleswhich are near the boiling point. A small summit crater sometimes melts some of the ice on the volcano. Fumarole activity from this crater was the only activity before 1953. A second cone called Crater Peak grew in the breach of the older volcano. This was the sight of a major ash eruption on July 9, 1953. The most recent eruption of Spurr was in 1992.
MT AUGUSTINE
Historic eruptions were recorded in 1812, 1883, 1935, 1963-64, 1976, and 1986. Augustine’s eruptions tend to be highly explosive and tend to spread ash across the Cook Inlet region.
KATMAI/NOVARUPTA
The largest eruption in the world last century (VEI=6) occurred in 1912 at Novarupta on the Alaska Peninsula. An estimated 15 to 30 cubic kilometers of magma was explosively erupted during 60 hours beginning on June 6 — about 30 to 60 times the volume erupted by Mount St. Helens in 1980! The expulsion of such a large volume of magma excavated a funnel-shaped vent 2 kilometers wide and triggered the collapse of Mount Katmai volcano. Katmai was once a cluster of 3 or 4 small volcanoes. Pyroclastic flows traveled as far as 15 miles (23 km) and filled a valley adjacent to the volcano to produce the Valley of Ten Thousand Smokes. The withdrawal of magma from beneath the cluster of small volcanoes at Katmai caused the area to collapse and produce a caldera. A lake has filled part of the caldera.
“The magnitude of the eruption can perhaps be best realized if one could imagine a similar outburst centered in New York City. All of Greater New York would be buried under from ten to fifteen feet of ash; Philadelphia would be covered by a foot of gray ash and would be in total darkness for sixty hours; Washington and Buffalo would receive a quarter of an inch of ash, with a shorter period of darkness. The sound of the explosion would be heard in Atlanta and St. Louis, and the fumes noticed as far away as Denver, San Antonio, and Jamaica.” (Robert F. Griggs, National Geographic Magazine, 1917, v. 81 no. 1, p. 50)
Katmai from the summit of Griggs. Katmai is in the middle and to the right. Photo by Jay Robinson, National Park Service.
Novarupta is a pumice-filled depression that was the vent for the 1912 eruption. A rhyolitedome extruded into the vent after the eruption. The dome is 1,300 feet ( 400 m) in diameter and about 210 feet (65 m) high. Photo by Jay Robinson, National Park Service.
MT. VENIAMINOF
Veniaminof is a large stratovolcanothat suffered a huge caldera-forming eruption about 3,700 years ago. The caldera is almost 6 miles (10 km) across and filled with ice and snow. All the recent eruptions have taken place from a cinder conethat pokes up through the ice in the caldera. Both the 1983-84 and June 1993 eruption have consisted of fountaining at this cinder cone. Additionally, lava flowsflow down the sides of the cone and onto the ice surface where they then melt their way down through to the bottom of the caldera and then a lake forms. This photo shows active lava flows on January 23, 1984. Flows from November 1983 are covered with snow. Photo courtesy of U.S. Geological Survey.
There are very few people who live nearby so the danger to humans is pretty small. One of the things they worry about is called a jokulhlaup. This is an unpronounceable Icelandic word. A jokulhlaup happens when an eruption occurs under a thick ice sheet. The eruption will often melt the bottom of the glacier. If the eruption keeps on long enough pretty soon the glacier will float up on its own melted water (ice floats). As soon as this happens all that melted water can escape out from under the glacier and you get a big flood. This happens pretty often in Iceland, and it is a possibility at Veniaminof.
Eruption of Veniaminof on January 23, 1984. From front cover of USGS in Alaska:
ICELAND VOLCANOS
LAKI
Laki, volcano, 2,684 ft (818 m) high, S Iceland, at SW edge of the Vatnajökull glacier. Its eruption in 1783 was one of the more devastating on record, leading to the deaths of a quarter of Iceland’s inhabitants (mainly due to a famine that resulted from the eruption’s effects). Haze from the eruption spread over parts of Europe, where some experts believe it affected the inhabitants’ health. Surrounding the crater are the Lakagígar series of 100 volcanic rifts.
Map of the Laki fissures and lava flows. The Eldgja fissures and flows are also shown. Map simplified from Thordarson and others.
Lakagigar (also called Skaftar) was the vent for the 1783-1784 eruption of Grimsvotn caldera. It was the second largest basaltic fissure eruption in historic time (after the ~935 eruption of nearby Eldgja) and caused notable atmospheric cooling and effects.Additional vents of Grimsvotn were active from May 1783 to May 1785.
The eruption began on June 8, 1783 and lasted eight months. Ten fissures make up the vent complex. The fissures are arranged in an en echelon pattern that extends for a length of 27 km. Each fissure is covered by a continuous row of scoria cones, spatter cones, and tuff cones. The cones range in heights from 40m to 70 m.
Only 2.6% of the material erupted was tephra but ash fall extended all the way to mainland Europe. Map from Thordarson and Self (1993).
Laki is also known for its atmospheric effects. The convective eruption column of Laki carried gases to altitudes of 15 km (10 miles). These gases formed aerosols that caused cooling in the Northern Hemisphere, possibly by as much as 1 degree C. This cooling is the largest such volcanic-induced event in historic time. In Iceland, the haze lead to the loss of most of the islands livestock (by eating fluorine contaminated grass), crop failure (by acid rain) and the death of 9,000 people, one-quarter of the human residents (by famine).
This event is rated as VEI6 on the Volcanic Explosivity Index, but the eight month emission of sulfuric aerosols resulted in one of the most important climatic and socially repercussive events of the last millennium.
In Great Britain, the summer of 1783 was known as the “sand-summer” due to ash fallout. The eruption continued until 7 February 1784. Grímsvötn volcano, from which the Laki fissure extends, was also erupting at the time from 1783 until 1785. The outpouring of gases, including an estimated 8 million tons of fluorineand estimated 120 million tons of sulfur dioxide gave rise to what has since become known as the “Laki haze” across Europe. This was the equivalent of three times the total annual European industrial output in 2006, and also equivalent to a Mount Pinatubo-1991 eruption every three days. This outpouring of sulfur dioxide during unusual weather conditions caused a thick haze to spread across western Europe, resulting in many thousands of deaths throughout 1783 and the winter of 1784.
The poisonous cloud drifted to Bergenin Norway, then spread to Praguein the Province of Bohemiaby 17 June, Berlinby 18 June, Parisby 20 June, Le Havreby 22 June, and to Great Britainby 23 June. The fog was so thick that boats stayed in port, unable to navigate, and the sun was described as “blood coloured”
This disruption then led to a most severe winter in 1784, where an estimated to have caused 8,000 additional deaths in the UK. In the spring thaw, Germany and Central Europe then reported severe flood damage.
In North America, the winter of 1784 was the longest and one of the coldest on record. It was the longest period of below-zero temperatures in New England, the largest accumulation of snow in New Jersey, and the longest freezing over of Chesapeake Bay. There was ice skating in Charleston Harbor, a huge snowstorm hit the south, the Mississippi Riverfroze at New Orleans, and there was ice in the Gulf of Mexico.
GRÍMSVÖTN
Grímsvötn is a central volcanoin the Grímsvötn volcanic system of Iceland. This system is about 62 miles (100 km) long and ~9 miles (15 km) wide. It is mostly covered with ice named Vatnajokull. The total volume of lava erupted from the Grimsvotn system is about 50-55 cubic km. Only about 19 cubic km of this lava is not covered by the ice. The system rises to the northeast from about 1000 ft (300 m) above sea level in the southwest. It reaches its tallest point at Grímsvötn volcano. This volcano has a 35 sq km caldera. A high temperature hydrothermal area is located in this caldera. Grímsvötn has erupted 45 times. The last major eruption of the volcano was in 1996 (shown in photo below).
HEKLA
Hekla is the most active volcano in Iceland with eruption events numbering from as low as 15 major eruptions to the huge number of 167 since 1104, the most recent being in 1991.
On 26 February, 2000 Iceland’s most famous volcano, Mt. Hekla, began erupting at 1819 GMT. A 6-7 km long fissure appeared and a steam column rose nearly 15 km (45,000 feet) into the sky. A discontinuous curtain of fire emanated from the entire fissure. The lava flowed down the slopes of Hekla and covered a large part of the Hekla ridge. Most of the ash fell in uninhabited areas in the interior of Iceland. The eruption reached its peak intensity in the first hour of the activity. Icelanders in the Middle Ages called the volcano the “Gateway to Hell.”
KAMCHATKA VOLCANOS
BEZYMIANNY
A steaming lava dome fills much of the large horseshoe-shaped crater cutting the ESE side of Bezymianny volcano in this late-1980’s view from the SE. The crater was formed during a dramatic eruption in 1955-56, which was similar to that of Mount St. Helens in 1980. Prior to this eruption, Bezymianny volcano had been considered extinct. Subsequent episodic but ongoing lava-dome growth, accompanied by intermittent explosive activity and pyroclastic flows, has largely filled the 1956 crater.
SUMMER AND WINTER
Taking all the years of high latitude eruptions listed and composting them leads to a slightly cooler than normal summer in much of the lower 48 and a winter with cold in Canada and western United States with more variability and net warmth in the east. The winter pattern has the look of another La Nina.
References:
Oman, L., A. Robock, G. Stenchikov, G. A. Schmidt, and R. Ruedy (2005), Climatic response to high-latitude volcanic eruptions, J. Geophys. Res., 110, D13103, doi:10.1029/2004JD005487
Smithsonian Institution USGS Global Volcanism Program: http://www.volcano.si.edu/reports/usgs/
Volcano World Oregon State University http://volcano.oregonstate.edu/
NASA GISS AOT: http://data.giss.nasa.gov/modelforce/strataer/
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ops: Link
http://earthquake.usgs.gov/learning/faq.php?categoryID=11&faqID=69
pmoffitt (09:47:53) : The question that seems to have been unasked is what if any “insurance” does increasing CO2 (assuming for the moment that CO2 does what is claimed) give us against the devastating short term cooling associated with volcanic activity. What would be the impact today of “the year without a summer/1800 and froze to death” (1816?)
It is highly unlikely that CO2 does anything of significance. The particulates and aerosols would swamp it totally. Pinatubo is your existence proof of this. The impact of an 1800 and Froze to Death would be much worse than it was then, and it was pretty bad then.
The reason has little to do with weather. It has a lot to do with our modern lack of any real food storage. I was typing a long response then decided to just put it into the posting that is the link at the bottom of the page.
Perhaps the most dangerous aspect of climate warming alarmism is the message being sold to the public that if we stabilize CO2 we no longer need to worry about weather/geologic disruptions.
Or just a large rock fall from space. This WILL happen. We even know the size / rate distribution. There is no doubt whatsoever. The only question is when.
This message however that all we need to do is control CO2 borders in my perspective on being criminal. It prevents the discussion of the very necessary evaluation our infrastructure’s ability to survive a variety of risks having nothing to do with CO2. Risks associated with flooding, drought, hurricanes, and short term weather related agriculture disasters that are seen in the paleo-climatological record.
http://chiefio.wordpress.com/2009/04/06/food-storage-systems/
Has my take on what folks ought to be doing and some simple and almost free ways to do it. Being “prepared” can be as simple as buying a large size lemonade drink mix canister and some canned goods along with some mac & cheese packages… well, almost…
Basically we’ve all delegated responsibility for taking care of ourselves in an emergency to a set of politicians and ‘business leaders’ who have not done a good job of making wise decisions about the world food system. It is incredibly brittle to catastrophic failure and you ought to do something for yourself. Even if it’s just putting some jars of peanut butter, jelly, and crackers in the closet.
edcon (10:07:00) : So far no comments/correlations from the solar system’s center of mass theorists with respect to volcanism/ eruptions!
The correlation exists between quakes, volcanos, and solar cycle / planet positions. There is no demonstrable way to move from correlation to causality (or even prove the correlation isn’t just a very unlikely coincidence) so I don’t know what else you are fishing for.
The best suspect is tidal forces since these have been used to predict earthquakes before with some success. That’s about it. If you really want more, you can see:
http://chiefio.wordpress.com/2009/03/09/are-we-quaking/
where some of us are kicking it around, but it’s all very speculative and not quite what I’d call “science” yet… More like climate modeling than real science 8-0
Fernando (19:32:31) :
ops: Link
http://earthquake.usgs.gov/learning/faq.php?categoryID=11&faqID=69
Thanks a lot, Fernando. It’s just what I needed.
bushy (08:55:26) :
I think that the point here is that the cooling cycle has preceded these eruptions but may well enhance the solar induced cooling spell.
I’m beginning to think that a spate of volcanoes IS one of the ways that you get from a Solar Minimum to climate cooling.
The question would be “Why would it follow the onset of a Deep Solar Minimum?”
Nasif Nahle (18:25:59) : 2. The coincidence of volcanic eruptions in NH and SH and an earthquake in Italy.
I’ve explained the first question with relative refinement; however, I couldn’t explain the last one.
The second one is not explainable at present. We can admire it. We can admire that it has happened in the past. We can admire that most grand minima seem to be accompanied by lots of quakes and some large volcanos. And at the end of the day all we have is two confounding events and in implied result that can not be explained.
The sun goes quiet. We get more volcanos. We get cold. Historical accident? Correlation with something else? Causal? Mechanism? It’s all questions and not many answers. One thing that can be said with certainty, it isn’t people or CO2 that causes it.
In my opinion, quakes and volcanos are increased because of some kind of spin-orbit coupling causing the earth crust to flex just a tiny bit more than otherwise. But that is just an opinion, and not “science”. Ian Wilson has found a correlation between the length of a day and the weather that also points to some kind of spin change. Again, no clear mechanism. (But we do have the interesting fact that the length of the day does change so the spin does change…)
This is what it’s like when you are about to learn something. Frustrating, but stimulating, and the science is most definitely not settled when it’s all questions, few answers, and a whole lot of correlations without mechanism…
So my suggestion would be to simply tell your questioners the truth: No one knows, the science is not settled, and we have lots to learn. Then I’d add that their observations are as valid as anyone else’s since we’re all learning together on this one. Oh, and they really ought to have a food storage system and an emergency preparedness kit for whatever the local Bad Thing tends to be. For me it’s Quakes. For my Texas relatives, it’s tornados. For my Canadian relatives is intense cold. And for my British relatives it’s their government … almost as much of a risk as my own… 😉
For those with limited information on volcanology, check
This scale of frequency of eruptions and their scale”>
Then go to the sites FAQ section
Sorry link doesn’t work
Try this link instead
Just found out why Channel 4 UK gave An Inconvenient Truth such an appraisal the other night and why it did not carry a disclaimer the way Durkin’s documentary did. The channel wants to be partially funded by the taxpayer now so it will do what it can to tow the government line.
Those dumb models
http://www.guardian.co.uk/commentisfree/2009/apr/07/amazon-rainforest-global-warming
“You reported a study which “used computer models to investigate how the Amazon would respond to future temperature rises”. But it was based on just one computer model (admittedly, one of the better ones), from the UK Met Office Hadley Centre, which makes a more pessimistic prediction than almost all other climate models. Most climate models substantially underestimate the current rainfall in Amazonia, so it does not take much extra drying to simulate the disappearance of the forest. The representation of vegetation in these models is also rather simple compared with modern ecological understanding, and may be oversensitive to temperature increase.”
edcon (10:07:00) :
So far no comments/correlations from the solar system’s center of mass theorists with respect to volcanism/ eruptions!
We’ve been muzzled. 😉
http://www.virakkraft.com/barycenter-vei.jpg
The earth gods are restless
Strong earthquake reported off Russia Pacific coast
http://www.irishtimes.com/newspaper/breaking/2009/0407/breaking2.htm
Nasif – It’s a big world, we’ve got earthquakes occuring everyday, somewhere, some level.
The newsworthy bit about the Italian one, is it occured in Italy (One of the few really seimically active areas in Europe) and was large enough and in a situation to cause casualties.
As for vulcanism, the Hawaian volcanoes are in a state of virtual continual erruption, Kilauea’s been errupting for an entire year!
This website http://visz.rsoe.hu/alertmap/index.php?lang=eng gives over 30 earthquakes recorded in the last 12 hours alone and some 30 odd volcanoes that are classified as “Active” too! (Note “Active” doesn’t necessarily mean “errupting”!)
Anyone notice? Sea Ice in the Arctic reduces, the oceans cool due to increased energy loss from the exposed ocean, sea ice increases.
DaveE.
You are correct. Sea ice insulates the ocean from heat loss.
Less sea ice = more heat loss to space = climate/ocean cooling = more sea ice
It’s fairly easy to deduce there will be a cycle of increasing and decreasing sea ice as ocean waters warm and cool (relatively speaking).
Question for Joe (also emailed):
Hi Joe,
How does the 1991 eruption of Mt. Pinatubo in the Philippines fit into this treatise, or does it?
Best regards, Allan
Another volcano is active, producing six plumes in 24 hours:
Mount Popocatepetl, 70 km from Mexico is coughing.
http://scienceblogs.com/eruptions/2009/04/popocatepetl_continues_to_puff.php
Actually
Earthquakes around Tonga and the Solomon islands have been in the area of mag 7+ a couple of times this year already. It’s just the quakes in populated Zones and with instant news access and consequential news drama that we hear about.
On average there is a Volcanic eruption somewhere on the planet everyday.
There is a list of closely watched Volcanos – the so called Decade Volcanos. These are nominated Volcanos with the potential to cause life threatening events at any time. These are given special attention.
You only need to look at Vesuvius. The famous Italian Volcano. We all know the story and the buried towns etc. It is known that this will erupt again with similar force as it did in ancient written history. You only need to look at the surrounding areas and the amount of human habitation that live in the same ares as the ancient eruptions to know that there is a disaster waiting to happen.
“Nasif – It’s a big world, we’ve got earthquakes occuring everyday, somewhere, some level.
As for vulcanism…”
We suffer 2 or 3 VEI 6 eruptions per century, 1 or 2 VEI 7 eruptions per millenium.
Although there has been some discussion at WUWT(led by anna v.) about whether yearly figures include seamounts, a VEI 6 eruption ejects 10 times the average yearly total due to all eruptions.
The Dalton minimum, which current solar activity is beginning to resemble, began with Laki and had Mayon and another VEI 6 eruption about 1812 and Tambora in 1815, a VEI 7.
Coincidence? You may believe as you will. We, at present have a VEI 6 eruption ongoing in Chaiten.
“Saying OH NO the leading edge of the ice shelf broke off is about as news worthy as saying OH NO there is water flowing over Niagara Falls”
Well put.
On Laki and sunspots.
Laki/Grimsvotn eruptions starting in 1783 went on over two years, releasing large quantities of hydrogen fluoride gas, amongst the ash and sulphurous emissions. Hydrogen fluoride etches glass, and in Europe the major centres of solar observation – Britain , Denmark, France etc., were in the downstream path of Laki’s emissions and fallout.
With at first “dry fogs” – presumably photochemical smogs, ash clouds in the northern stratosphere, and possibly deteriorating optics, continuing poor weather due to aerosol forcing meaning fewer observing days, i.e. no sunshine, it is no wonder that many of the smaller sunspot groups were possibly missed, and only the larger groups occasionally noticed.
Central England summer temperatures were depressed for the nine years from 1784-1793, indicating increased cloud cover. Central England summer temperatures were depressed for the nine years from 1784-1793 (compared to 1765-1795), indicating increased cloud cover, whereas the other seasons experienced both cool and warm periods over the same comparative time periods.
Recording of sunspots was a difficult process with early very long focal length telescopes at the best of times, requiring several operatives, to track the sun, focus the image on the drawing board, to draw the spots, and record any other details. Flamsteed’s observatory needed at least four people.
Workin’ hard on a Greenhouse-every time I go to WUWT- I’m thinking-another no
tomato summer….
What’s more important around Redoubt is what Chevron is not doing with their oil storage facility along the Drift River floodplain. Why have they waited this long to take the oil out of that facility?
Oh, and massive ice shelf melt in Antarctic.
The climatic changes on the Earth affect the entire Earth. Our individual location is only relevant to us in relationship to immediate measures for safety. What happens in one spot is carried by Water, Land, and Air to ALL parts of the Earth and, consequently, affects everyone, everywhere.
If we can draw a map of the world with all of the current conditions for the last 12 months it tells us quite a story. Heck, even the last 3 months tells us more about it than any single story I’ve seen posted anywhere.
I am working on a map of this type, but it is a huge undertaking that will probably not be completed for months. However, the input from this article is extremely relative to not only the residents of Alaska, the N. American continent, the areas linked by fault lines, ice, water, and land, but to other countries that are affected by the changes in the climate.
I guess the easiest analogy is this: If the entire world is a ball, each continent forming a stitch, when any portion gets hit with anything, it changes the immediate surface that was struck, and the way the stitches are linked.
May sound funny, but the big picture always makes the small picture come into perspective.
Thank you for such an in depth article. Keep up the good work.
Chris Knight on Laki and Sunspots
Nice historical articulation.
The length of the solar cycle, per Lassen, is a sufficient inverse indicator of the strength of solar activity for my layman’s purpose. The position of Rmax within cycle 4 in relation to the whole I take to indicate the solar switch toggled to ‘Off’ early or prior to the cycle in comparison with 23 where it came mid-cycle.
The step down in the planetary indicies noted by Anthony I take to have followed the toggle by some few years.
Another period of interest might be Krakatoa, 1883 thru Novarupta, 1912, also associated with longer than average solar cycles.
New pictures Redoubt:
http://volcanism.wordpress.com/2009/04/07/the-big-picture-redoubt/