Sunday, 24 June 2018

Train derailment leads to major oil spill on the Little Rock River in Iowa.

Around 7300 barrels (870 000 litres) of crude oil have spilled into the Little Rock River near Doon in Lyon County, Iowa, on Friday 23 June 2018. Fourteen of the thirty two tanker trucks that came off the rails are thought to have been breached, releasing their oil into the river; about half of this is thought to have been contained by a seres of booms placed downstream of the derailment site, but the remainder has been lost into the river ecosystem.

Oil tankers in the Little Rock River in Iowa following a train derailment near Doon on 23 June 2018.

The precise cause of the derailment is unclear, but it occurred after several days of heavy rain which had caused the Little Rock (and several other rivers in Iowa) to burst its banks, making it possible that the tracks had been undermined by flooding, or had had material dumped upon them which had caused the derailment.

Aerial photograph of the scene of the 23 June 2018 Iowa derailment.

Trains carrying crude oil have become an increasingly important part of the distribution system in North America as both production of and demand for oil has exceeded the capacity of the pipeline network. There have been a number of incidents involving derailments and oil spills, and concerns about the safety of the trains following an incident in Lac-Megantic, Quebec, in July 2013,when a 72 car oil train derailed and exploded, killing 47 people.

See also...

http://sciencythoughts.blogspot.com/2017/09/iowa-woman-dies-from-west-nile-virus.htmlhttp://sciencythoughts.blogspot.com/2017/03/hundreds-of-homes-damage-as-storms.html
http://sciencythoughts.blogspot.com/2017/01/cleanup-operation-underway-after-530.htmlhttp://sciencythoughts.blogspot.com/2016/04/sinkhole-threatens-homes-in-des-moines.html
http://sciencythoughts.blogspot.com/2014/04/at-least-32-dead-as-tornados-hit.htmlhttp://sciencythoughts.blogspot.com/2013/06/iowa-sinkhole-linked-to-nineteenth.html
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Comet C/2016 M1 (PANSTARRS) makes its closest approach to the Earth.

Comet C/2016 M1 (PANSTARRS) makes its closest approach to the Earth on Monday 25 June 2018 reaching a distance of 1.29 AU from the Earth (1.29 times as far from us as the Sun, or 192 794 000 km). At this distance the comet will not be naked eye visible, having a magnitude of 11.52, which means it would require a good telescope to observe it, and then preferably in the Southern Hemisphere, as it is currently in the constellation of Corona Australis, which cannot be seen clearly from too far north of the Equator.
 
Comet C/2016 M1 (PANSTARRS) imaged from Stockholm in Sweden on 14 August 2017. Image is a composite derived from 10 exposures, each of 240 seconds. Elongate structures are stars, comit is at centre of picture.  Lars Bäckström/Spaceweather.

C/2016 M1 (PANSTARRS) was discovered on 22 June 2016 by the University of Hawaii's PANSTARRS telescope. The name C/2016 M1 (PANSTARRS) implies that it is a non-periodic comet (C/) (all comets are, strictly speaking, periodic since they all orbit the Sun, but those with periods longer than 200 years are considered to be non-periodic), that it was the first comet (comet 1) discovered in the second half of June 2016 (period 2016 M) and that it was discovered by the PANSTARRS telescope.

The orbit and current position of Comet C/2016 M1 (PANSTARRS) . The Sky Live 3D Solar System Simulator.

C/2016 M1 (PANSTARRS) has an estimated orbital period of 86 163 years and a highly eccentric orbit tilted at an angle of 90.99° to the plain of the Solar System, that brings it to 2.21 AU from the Sun at perihelion (221% of the distance between the Earth and the Sun, considerably outside the orbit of Mars); to 3899 AU from the Sun at aphelion (3899 times as far from the Sun as the Earth or 130 times as far from the Sun as the planet Neptune), between the outer Kuiper Belt and the inner Oort Cloud. 

See also...

http://sciencythoughts.blogspot.com/2018/05/comet-c2016-r2-panstarrs-reaches.htmlhttp://sciencythoughts.blogspot.co.uk/2018/04/comet-c2015-o1-panstarrs-makes-its.html
http://sciencythoughts.blogspot.co.uk/2018/01/comet-c2016-t3-panstarrs-makes-its.htmlhttp://sciencythoughts.blogspot.co.uk/2018/01/comet-74psmirnova-chernykh-reaches.html
http://sciencythoughts.blogspot.co.uk/2018/01/comet-c2016-a1-panstarrs-makes-its.htmlhttp://sciencythoughts.blogspot.co.uk/2018/01/comet-c2017-t1-heinze-makes-closest.html
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Allodesmus uraiporensis: A new species of Allodesmine Seal from the Miocene of Hokkaido.

The Allodesmines are an extinct group of Pinnipeds thought to have been closely related to the True Seals, which are known from the Middle-to-Late Miocene of Japan and the Pacific Coast of North America. They were large animals, reaching about 2.5 m in length, and showed sexual dimorphism, with males bigger than the females and having enlarged canine teeth, presumed to have been used in combat with one-another over mating rights. The taxonomy of Allodesmines is somewhat controversial, with some palaeontologists claiming as many as eight species in four genera, while others recognise only five species in a single genus, Allodesmus.

In a paper published in the journal Royal Society Open Science on 16 May 2018, Wataru Tonomori of the Graduate School of Life and Environmental Sciences at the University of Tsukuba, Hiroshi Sawamura of the Ashoro Museum of Paleontology, Tamaki Sato of the Department of Astronomy and Earth Sciences at the Tokyo Gakugei University, and Naoki Kohno, also of the Graduate School of Life and Environmental Sciences at the University of Tsukuba, and of the Department of Geology and Paleontology at the National Museum of Nature and Science, describe a new species of Allodesmine Seal from the middle Miocene Atsunai Formation of Urahoro, on Hokkaido Island, Japan.

The new species is placed in the genus Allodesmus (Tonomori et al. recognise two genera of Allodesmines, Atopotarus), and given the specific name uraiporensis, meaning 'from Urahoro' (Uraiporo is an old form of Urahoro, itself meaning 'place where big Fish gather' in the Ainu language. The species is described from a single disarticulated but largely complete male specimen, differentiated from all other members of genus by its dentition and structure of the skull. 

Reconstruction of Allodesmus uraiporensis skeleton. Blue parts indicate preserved bones. Tonomori et al. (2018).

With an estimated age of between 16.3 and 13.5 million years old, Allodesmus uraiporensis, is the oldest known member of the genus from the West Pacific, and may represent the earliest arrival of the genus on this side of the ocean, during the Miocene Climatic Optimum (a period of warmth and stability lasting from about 18.0 million years ago till about 14.8 million years ago), which then resulted in an adaptive radiation in the West Pacific, which resulted in several new species.

See also...

http://sciencythoughts.blogspot.com/2015/11/predation-of-cape-fur-seals-by-kelp.htmlhttp://sciencythoughts.blogspot.com/2015/08/archaeodobenus-akamatsui-fossil-walrus.html
http://sciencythoughts.blogspot.com/2014/05/the-origin-and-diversification-of-monk.htmlhttp://sciencythoughts.blogspot.com/2014/04/an-enigmatic-walrus-from-miocene-of.html
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Saturday, 23 June 2018

Magnitude 5.1 Earthquake on the Paria Peninsula, Venezuela.

The United States Geological Survey recorded a Magnitude 5.1 Earthquake at a depth of 106 km roughly beneath the Paria Peninsula on the north coast of Venezuela, slightly before 9.55 pm local time on Friday 22 June 2018 (slightly before 1.55 am on Saturday 23 June 2018 GMT). This was a large quake, but at some depth as well as some way offshore, and there are no reports of any casualties or damage, though the quake was felt over a large area, with people reporting feeling it across much of northeast Venezuela, as well as in Trinidad and Tobago, and Grenada.
 
The approximate location of the 22 June 2018 Paria Peninsula Earthquake. USGS.
 
The Paria Peninsula forms part of the southern margin of the Caribbean Plate, which is moving eastward compared to the South American Plate, upon which the rest of Venezuela sits. This is not a smooth process, the two plates constantly stick together, then break apart as the pressure builds up, causing Earthquakes in the process. 
 
Witness accounts of Earthquakes can help geologists to understand these events, and the structures that cause them. The international non-profit organisation Earthquake Report is interested in hearing from people who may have felt this event; if you felt this quake then you can report it to Earthquake Report here
 
See also...
 
http://sciencythoughts.blogspot.com/2018/04/magnitude-47-earthquake-on-north-coast.htmlhttp://sciencythoughts.blogspot.co.uk/2017/11/measles-outbreak-in-bolivar-state.html
http://sciencythoughts.blogspot.co.uk/2015/11/magnitude-53-earthquake-in-northwest.htmlhttp://sciencythoughts.blogspot.co.uk/2015/04/magnitude-52-earthquake-off-paria.html
http://sciencythoughts.blogspot.co.uk/2015/02/the-role-of-gold-mining-in.htmlhttp://sciencythoughts.blogspot.co.uk/2013/10/magnitude-61-earthquake-of-north-coast.html
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Thirteeen people killed in a series of landslides and flash floods in and around Hpakant, Myanmar.

At least thirteen people died in a series of landslides around the mining town of Hpakant in Kachin State, Myanmar, on Friday 22 June 2018. Four people are known to have died in a landslip on a spoil heap in the Sithu Mining Block, and it is feared that others may be unaccounted for in this incident (spoil-heap workers, known as Yay Ma Say, are often reluctant to discuss their activities with outsiders, even rescue workers, due to the legally dubious nature of the work), while seven are known to have died in a similar incident at Seikmu, while two women died in a flash flood the town of  Hpakant itself. 

 Houses undermined by a flash flood in Hpakant, Myanmar, on 23 June 2018. Myanmar International Television.

Myanmar is the world's largest producer of jade, though much of this is produced (along with other precious and semi-precious minerals such as amber) at unregulated (and often illegal) artisanal mines in the north of the country, from where it is smuggled into neighbouring China. Accidents at such mines are extremely common, due to the more-or-less total absence of any safety precautions at the site. At many sites this is made worse by the unregulated use of explosives to break up rocks, often leading to the weakening of rock faces, which can then collapse without warning. The majority of people in this industry are migrant workers from the surrounding countryside, not registered with any local authority, which can make it difficult for rescuers to identify victims following such events, or even gain accurate assessments of the number of people likely to have been involved in such accidents.

The incidents occurred following several hours of rain in the area associated with the Southeast Asian Southwest Monsoon, which has also caused a series of landslips and flash floods in the area. Landslides are a common problem after severe weather events, as excess pore water pressure can overcome cohesion in soil and sediments, allowing them to flow like liquids. Approximately 90% of all landslides are caused by heavy rainfall. This year's monsoon has been particularly severe, with floods and landslips occurring across Myanmar.

The approximate location of the town of Hpakant. Google Maps.

Monsoons are tropical sea breezes triggered by heating of the land during the warmer part of the year (summer). Both the land and sea are warmed by the Sun, but the land has a lower ability to absorb heat, radiating it back so that the air above landmasses becomes significantly warmer than that over the sea, causing the air above the land to rise and drawing in water from over the sea; since this has also been warmed it carries a high evaporated water content, and brings with it heavy rainfall. In the tropical dry season the situation is reversed, as the air over the land cools more rapidly with the seasons, leading to warmer air over the sea, and thus breezes moving from the shore to the sea (where air is rising more rapidly) and a drying of the climate.

 Diagrammatic representation of wind and rainfall patterns in a tropical monsoon climate. Geosciences/University of Arizona.

Much of Southeast Asia has two distinct Monsoon Seasons, with a Northeast Monsoon driven by winds from  the South China Sea that lasts from November to February and a Southwest Monsoon driven by winds from the southern Indian Ocean from March to October. Such a double Monsoon Season is common close to the equator, where the Sun is highest overhead around the equinoxes and lowest on the horizons around the solstices, making the solstices the coolest part of the year and the equinoxes the hottest. However Myanmar is largely protected from the Northeast Monsoon by the mountains separating the country from Yunnan Province in China.
 
 The winds that drive the Northeast and Southwest Monsoons in Southeast Asia. Mynewshub.
 
See also...

http://sciencythoughts.blogspot.com/2018/06/landslide-kills-five-in-mandalay-region.htmlhttp://sciencythoughts.blogspot.com/2018/01/series-of-landslides-kill-at-least.html
http://sciencythoughts.blogspot.com/2017/03/magnitude-51-earthquake-in-bago-region.htmlhttp://sciencythoughts.blogspot.com/2017/02/nine-killed-in-landslide-at-myanmar.html
http://sciencythoughts.blogspot.com/2016/12/lanslide-at-myanmar-jade-mine-may-have.htmlhttp://sciencythoughts.blogspot.com/2016/11/myanmar-jade-mine-struck-by-possible.html
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