SOLAR ACTIVITY UPDATE: Weekend Report (April 28th-29th, 2012)

Publié le par Ferlin

 

Publié dans Actu solaire

Commenter cet article

neo 01/05/2012 23:09


bon ,


à priori ,


à Mexico , ils auraient tenu:


http://www.reuters.com/article/2012/05/01/us-mexico-quake-idUSBRE84014720120501

neo 01/05/2012 20:38


http://www.universetoday.com/94909/omg-space/


http://www.universetoday.com/94898/stunning-astrophoto-aurora-explosion-of-color/

neo 01/05/2012 20:34


Wyoming 4.9


Alaska 4.8 mtnt ...


http://nsm05.casimages.com/img/2012/05/01/120501084626562669794398.png

neo 01/05/2012 20:03


ça s'accélère semble-t-il ...


http://nsm05.casimages.com/img/2012/05/01/120501081533562669794155.png

neo 01/05/2012 20:01


trad. approximative traducteur google/ article yellowstone


dont je viens tout juste de t'envoyer le lien ( article du site Red Orbit.com,


je remets le lien tout en bas ...):




Brett Smith for Redorbit.com


New research is casting doubts on the frequency or even the possibility of a ‘super-eruption’ that could blot out the sun from the Earth with a thick veil of volcanic ash.


A joint research team from Washington State University and the Scottish
Universities Environmental Research Centre said the biggest Yellowstone eruption on record was actually two different eruptions at least 6,000 years apart.


According to the study published in the June 2012 issue of the Quaternary Geochronology, these
eruptions are thought to have created the Huckleberry Ridge around 2 million years ago.  The first eruption generated 2,200 cubic kilometers of volcanic material, while the second,
smaller eruption generated 290 cubic kilometers.


The first eruption is still considered to be ‘super’ according to the Volcanic Explosivity Index (VEI)
and likely covered the sky in volcanic ash from California to the Mississippi River.


The VEI was developed by Chris Newhall of the U.S. Geological Survey (USGS) and Sephen Self at the University of Hawaii in 1982. The open-ended scale ranges from 0 to 8 and is based on the volume of material produced, eruption cloud height, and other qualitative observations.
Small continuously erupting volcanoes, like those found in Hawaii, are considered a zero on the VEI. The 1980 Mount St. Helens eruption and the Vesuvius eruption in 79 C.E., both of which
produced about 1 cubic km of volcanic material, rank in the middle of the pack at five on the VEI.


The recent study’s findings suggest that the volcanic formation known as the Island Park Caldera is more active than previously thought and could help geologists to more accurately predict
its next seismic event. The caldera is actually comprised of two smaller calderas and stretches 58 miles from Wyoming to Idaho.


“The Yellowstone volcano’s previous behavior is the best guide of what it will do in the future,” said study co-author Ben Ellis of Washington State University. “This research suggests
explosive volcanism from Yellowstone is more frequent than previously thought.”


In calculating the different layers of rock and sediment, the team honed radioactive dating techniques involving the potassium 40 and argon 40 isotopes. These radioactive elements act as a
“rock clock” for dating samples and have a precision of 0.2 percent. Darren Mark, study co-author at the Scottish research center, recently helped fine tune the technique to improve it by 1.2
percent—an exponential improvement in accuracy.


“Improved precision for greater temporal resolution is not just about adding another decimal place to a number, says Mark. ”It’s far more exciting. It’s like getting a sharper lens on a
camera. It allows us to see the world more clearly.”


While the last known Yellowstone eruption to cause a lava flow was about 70,000 years ago, smaller steam-only eruptions have caused seismic events like the one at Yellowstone Lake almost
14,000 years ago that created a 5 km crater.


The Old Faithful geyser is probably the most famous evidence of ongoing volcanic activity at Yellowstone Park.  The geyser erupts between every 65 and 91 minutes, depending of the
duration of the previous eruption.



Source: Brett Smith for Redorbit.com


Topics: Environment, Volcanology, Igneous rocks, Plate tectonics, Disaster Accident, Types of volcanic eruptions,
Mount Vesuvius, Yellowstone National Park, Caldera, Volcano, Volcanic Explosivity Index, Scales, Stratovolcanoes, Yellowstone Caldera


Source: redOrbit (http://s.tt/1armv)



Brett Smith pour Redorbit.com
De nouvelles
recherches sont jetant le doute sur la fréquence ou encore la possibilité d'un «super-éruption» qui pourrait effacer le soleil de la Terre avec un épais voile de cendres volcaniques.
Une
équipe conjointe de chercheurs de la Washington State University et le Scottish Universities Environmental Research Centre a déclaré la plus grande éruption de Yellowstone au dossier était en
fait deux éruptions différentes au moins 6000 ans d'intervalle.
Selon
l'étude publiée dans le Juin 2012 Version de la géochronologie du Quaternaire, ces éruptions sont pensés pour avoir créé la crête Huckleberry environ 2 millions d'années. La première éruption a généré 2.200 kilomètres cubes
de matériaux volcaniques, tandis que la seconde, plus petite éruption a généré 290 kilomètres cubes.
La
première éruption est toujours considéré comme «super», selon l'indice d'explosivité volcanique (VEI) et probablement couvert le ciel dans les cendres volcaniques de la Californie à la rivière
Mississippi.
Le VEI a été développé par Chris Newhall de
l'US Geological Survey (USGS) et de l'auto Sephen à l'Université d'Hawaii en 1982. L'échelle va ouvertes de 0 à 8 et est basé
sur le volume des matières produites, la hauteur des nuages ​​éruption, et d'autres observations qualitatives. Les petits volcans en éruption continue, comme ceux trouvés à Hawaï, sont considérés comme
un zéro sur le VEI. Les
années 1980 l'éruption du mont St. Helens et l'éruption du Vésuve en 79 CE, qui tous deux ont produit environ 1 km cube de matière volcanique, le rang dans le milieu du peloton à cinq sur le
VEI.
Les
conclusions de l'étude récente suggèrent que la for