Japan train sets new speed record

A Japanese magnetic levitation train has broken its own world speed record, hitting 603km/h (374mph) in a test run near Mount Fuji.

The train beat the 590km/h speed it had set last week in another test.

Maglev trains use a electrically charged magnets to lift and move carriages above the rail tracks.

Central Japan Railway (JR Central), which owns the trains, wants to introduce the service between Tokyo and the central city of Nagoya by 2027.

The 280km journey would take only about 40 minutes, less than half the current time.

However, passengers will not get to experience the maglev's record-breaking speeds because the company said its trains will operate at a maximum of 505km/h.

Construction is estimated at nearly $100bn (£67bn) just for the stretch to Nagoya, with more than 80% of the route expected to go through costly tunnels, reported AFP news agency.

The government is also hoping to sell the maglev train technology overseas.

Japanese Prime Minister Shinzo Abe is visiting the US on Sunday where he is expected to pitch for a role in building a new high-speed rail line between New York and Washington.



© Getty Images The Maglev (magnetic levitation) train during a test run on the experimental track in Tsuru, 100km west of Tokyo, on May 11, 2010.

Japan train sets new speed record

Okeanos Explorer | Expeditions | NOAA Ship Okeanos Explorer: Exploring Puerto Rico’s Seamounts, Trenches, and Troughs | Media Resources | Highlight Video and Images

Dive highlight videos, short video clips, and photos for the Océano Profundo: Exploring Puerto Rico's Seamounts, Trenches and Troughs 2015 expedition for members of the media will be posted here as they are available.

Unless otherwise noted, all videos and images posted here are in the public domain and are thus free for use and reproduction. Please credit NOAA Office of Ocean Exploration and Research.

Access LIVE video feeds here.

For videos and images associated with mission updates and logs, visit this page.

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Highlight Images

Leg 3 Exploration Map

This map shows the areas NOAA Ship Okeanos Explorer will explore during the 20 ROV dives to be conducted between April 9 and 30 in and around the Puerto Rico Trench and the U.​S.​ Virgin Islands. Data displayed provided by ESRI, Delorme, GEBCO, USGS, NOAA NGDC, and other contributors; map created with ESRI ArcMap software.



Image courtesy of the NOAA Office of Ocean Exploration and Research.

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Bathymetry of Puerto Rico Trench

Bathymetry (underwater topography) of the northeast corner of the Caribbean Plate, including the Puerto Rico Trench, collected during a 2003 U.S. Geological Survey expedition to the Puerto Rico Trench funded by NOAA's Office of Ocean Exploration and Research. The complex bathymetry of the seafloor of this region is a consequence of plate tectonics, the theory that describes the large-scale motion of the various plates that make up the outer shell of the earth.

Image courtesy of USGS.

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Dumbo Octopus

A dumbo octopus displays a body posture never before observed in cirrate octopods. Unprecedented sights like this are one of the reasons dozens of scientists (and hundreds of thousands of members of the public) follow live video from the seafloor during each Okeanos Explorer expedition.





Image courtesy of the NOAA's Office of Ocean Exploration and Research.

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Chemosynthetic Mussels

These chemosynthetic mussels were discovered by the ROV Deep Discoverer while it explored a canyon off the northeast coast of the U.S. in 2013. Over 800,000 members of the public tuned in to the video the ROV live-streamed over the internet during this expedition. Chemosynthetic mussels are found in areas of active hydrocarbon seepage; NOAA Ship Okeanos Explorer has discovered hundreds of previously unknown methane seeps in this and other areas over the past five years.

Image courtesy of the NOAA's Office of Ocean Exploration and Research.

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Black Coral

During a 2014 expedition on the Ocean Exploration Trust's ship, Nautilus, to areas just off the coast of the British Virgin Islands, the ship's ROV came across this large colony of black coral. Scientists aboard NOAA Ship Okeanos Explorer hope to see similar deep-sea corals when they explore the nearby Puerto Rico Trench in April. NOAA's Office of Ocean Exploration and Research funds about half of the nonprofit Ocean Exploration Trust's operating costs.

Image courtesy of Ocean Exploration Trust.

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ROV System Launch

Okeanos Explorer's dual-body ROV system is loaded from the aftdeck of the ship into the water before conducting an exploration dive.







Image courtesy of the NOAA's Office of Ocean Exploration and Research.

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Control Room

The Okeanos Explorer control room just before the start of an ROV dive. The control room is where the ROV pilots, the science leads, and other expedition personnel work during an ROV dive.







Image courtesy of the NOAA's Office of Ocean Exploration and Research.

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Okeanos Explorer | Expeditions | NOAA Ship Okeanos Explorer: Exploring Puerto Rico’s Seamounts, Trenches, and Troughs | Media Resources | Highlight Video and Images

Deepwater exploration vehicle prototype successfully tested in Puerto Rico

The prototype of a new deepsea exploration vehicle designed and developed in the University of Mayagüez's Electrical and Computer Engineering department labs was successfully tested, its developers said on the weekend.

The tests were carried out this past week during the scientific expedition of the vessel Okeanos Explorer, owned by the U.S. National Oceanic and Atmospheric Administration in waters just off the Puerto Rican coast.

"Two of these deployments touched the deepest point in the Puerto Rico Trench and Atlantic Ocean, one of the most extreme places on the planet and about which little information is known," said Wilford Schmidt, a professor of Marine Sciences at the Puerto Rico university and one of those in charge of the project, in a communique.

"This is the first of several excursions that we forecast will be undertaken in the Puerto Rico Trench and the Muertos Trough, south of the island," he added.

"We hope to continue obtaining data that will supply models for analysis and prediction of geological activity, planetary aquatic circulation patterns and the study of marine species, among other things," he said.

The new DMS-ECE Free-Vehicle (FV) technology is designed to serve as a means to facilitate research on the Puerto Rico Trench, the deepest trough in the entire Atlantic Ocean and the seventh-deepest in the world.

"The FV is an autonomous free-descent and -ascent vehicle with a series of instruments and sensors that allow us to obtain data about vehicular interaction and autonomy in the presence of submarine currents, pressure and temperature, among other monitored parameters," said Manuel Jimenez, a professor of Electrical and Computer Engineering and the associate dean of the Engineering Department at the University of Mayagüez. EFE

Deepwater exploration vehicle prototype successfully tested in Puerto Rico

Okeanos Explorer | Expeditions | Exploring Puerto Rico’s Seamounts, Trenches, and Troughs

Remotely operated vehicle Deep Discoverer is deployed for a dive. Image courtesy of NOAA Okeanos Explorer Program, Océano Profundo 2015: Exploring Puerto Rico’s Seamounts, Trenches, and Troughs.

Okeanos Explorer | Expeditions | Exploring Puerto Rico’s Seamounts, Trenches, and Troughs

Discover the Puerto Rico Trench with America’s Ocean Exploration Team

Every two years people around the world suddenly obsessively watch odd niche sports like ice dancing, biathalon, and rhythmic gymnastics. So I wish similar enthusiasm could be summoned for the exploration dives of the Deep Discoverer, NOAA’s ROV aboard the research vessel Okeanos Explorer and vehicles like it, which are streamed live on the internet. Perhaps it would help if they got some catchy theme music by John Williams that played every time they fired up their feed, video interludes featuring the touching back stories of the scientists and engineers on board, or set pieces about the shenanigans that go on in the “scientists’ village” aboard the ship? Are you listening, NBC?

In any case, the Okeanos Explorer and Deep Discoverer begin their next series of 20 dives starting TODAY, April 10. As I write this, the ROV is already descending toward the bottom and has just passed 3500 meters on its way to a target depth of 4000 meters, which they expect to reach in about 15 minutes. They plan to explore the area until about 4pm EDT. As always, the dives are being streamed live on the internet and all of you can follow along at home, just as you would if you were watching a shuttle launch or moon landing in days of yore.



Thanks to the Miracle of the Internet, we can all now watch along at home every exciting minute of these voyages, and see and discover new creatures and exciting geology at virtually the same moment as mission scientists, who, as a bonus, give you a running play by play commentary. Plus, it’s all free, or rather, supported by the generosity of American taxpayers. Why not reap the benefits of our collective investment in science by joining them for the ride in high-definition video?

Here’s an example of what you might see if you are lucky. This video, which I’ve posted here before, was captured last fall in Norfolk Canyon off the east coast of the United States. It shows two attempted squid-nappings: one failed attempt by a red crab, and one squid sashimi served up for a monkfish near the end of the video (watch the upper left corner).



To get a better feel for what you might see over the course of any given day, check out several of the 5-minute daily highlight videos from the mission last fall. Here’s one I can recommend in particular, featuring cameos by Echinoblogger Chris Mah at the Smithsonian! If you can’t spend 8 hours a day watching along at home, these five-minute daily highlight reels are a great way to still feel part of the magic, and I imagine similar videos will soon be posted for this mission here.

On the docket for this voyage are the seamounts, trenches, and troughs around Puerto Rico. The Puerto Rico Trench runs for 500 miles along the north side of Puerto Rico and the Dominican Republic and plunges 5.4 miles below the surface — the deepest point in the Atlantic Ocean. The expedition will also visit the Muertos Trough to the south of the island, the Mona Channel between the Dominican Republic and Puerto Rico, and the Virgin Islands Trough to the east.

Courtesy NOAA; click image for full-sized version and source.

What might they see? Of course, no one knows for sure what’s down there. They are hopeful they will see deepwater snapper, corals, seamounts and mud volcanoes. It is also likely, based on past experience, that the expedition will find new species, see living versions of animals known only from pallid preserved specimens, and see old species displaying unknown behaviors.

On the docket for today is the Arecibo amphitheater, a little-explored escarpment northwest of San Juan. They’ll be looking for landslides and exposed rocks on the slope, along with any critters living there. The area is close to the epicenter of a magnitude 6.4 earthquake that rumbled through San Juan just after midnight on January 13, 2014. Puerto Rico has a history of earthquakes and tsunamis; an October 1918 magnitude 7.3 earthquake produced a tsunami that killed 116 people.

Tomorrow, April 11, the team plans to visit Mona Seamount northwest of Puerto Rico, an area they expect to be richly biodiverse as many seamounts are.

There will also be a Reddit Ask Me Anything on April 16 from 1-3 pm EDT featuring NOAA ocean explorer and officer Brian Kennedy; Andrea Quattrini, a U.S. Geological Survey biologist; and Mike Cheadle, a geologist from the University of Wyoming.

This expedition runs through April 30, but if you miss it, the next one will take place July through September in an even more enticing target: the Papahānaumokuākea Marine National Monument and Hawaiian Islands Humpback Whale National Marine Sanctuary in the Pacific Ocean.

Finally, if you would like to see the many amazing photos and video collected by America’s Own Ocean Exploration Team, they are all freely available here.

About the Author: Jennifer Frazer is a AAAS Science Journalism Award-winning science writer. She has degrees in biology, plant pathology/mycology, and science writing, and has spent many happy hours studying life in situ. Follow on Twitter @JenniferFrazer.

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The views expressed are those of the author and are not necessarily those of Scientific American.

By Jennifer Frazer

Discover the Puerto Rico Trench with America’s Ocean Exploration Team | The Artful Amoeba, Scientific American Blog Network

Scientists map Caribbean seafloor as part of 12-year project

U.S. scientists on Tuesday completed a nearly two-week mission to explore waters around the U.S. Virgin Islands as part of a 12-year project to map the Caribbean seafloor and help protect its reefs.

A team with the National Oceanic and Atmospheric Administration studied an area of 270 square miles (700 square kilometers), using equipment including underwater gliders and a remotely operated vehicle to help map the seafloor and locate areas where fish spawn. They focused mostly on the southern coast of St. Croix and the northwestern coast of St. Thomas.

"It's a relatively unexplored but believed to be rich ecosystem," lead researcher Tim Battista said by telephone. "We're able to map large areas that you couldn't do with just divers."

The information will be used in efforts to conserve coral reefs as well as to update navigational charts and help government officials manage and better protect fish populations.

Reefs across the Caribbean have shrunk by more than 50 percent since the 1970s, with experts blaming climate change as well as a drop in the populations of parrotfish and sea urchins.

Part of the mission focused on studying the habitat and number of deep-water snappers that have become increasingly popular with fishermen in the area, scientist Chris Taylor said. Researchers currently know very little about the status and habitat of the silk snapper, which has golden eyes and is almost iridescent pink in color, he said.

About two-thirds of the survey was conducted in deep water, in depths up to 7,500 feet (2,300 meters), researchers said.

Among the more interesting discoveries was an underwater landslide about 6 square miles (16 square kilometers) in size as well as hundreds of cylindrical sea floor structures that were packed closely together and featured hard and soft coral on top, Battista said.

"It was really kind of unique," he said. "I hadn't seen that before."

Researchers also found a collection of sea anemones in purple, green, white and black; gray sea cucumbers with stubby green spines; and white starfish with red stripes.

Read more here: http://www.bellinghamherald.com/2015/04/07/4228772_scientists-map-caribbean-seafloor.html?rh=1#storylink=cpy

By DANICA COTO

Scientists map Caribbean seafloor as part of 12-year project

This tiny songbird flies Canada to Puerto Rico nonstop

A breeding male blackpoll warbler. Photo by Robert Royse

Every year, from September to November, millions of tiny songbirds gather along the Northeastern coastline, get fat feasting on insects and take to the skies. And then they fly and they fly and they fly.

It’s long been believed that the blackpoll warbler, a speckled grey and white bird with a black cap and an unusually high-pitched song, completed an unimaginably long journey across the Atlantic Ocean. This week, a team of researchers from Canada and the northeastern United States, confirmed it. The warblers fly south over water as far as 1,700 hundred miles — with no layover.

“Many consider it one of the most amazing migratory feats on the planet,” said Bill DeLuca, lead author of the study and an ecologist at the University of Massachusetts.

While abundant in the United States, the population of blackpoll warblers are declining rapidly, at a rate of 6 percent a year. Rebecca Holberton from the University of Maine, who has been studying these birds for 20 years, said it wasn’t uncommon in the past to catch 300 warblers in the fall. Now you’re lucky if you get 30. Understanding what’s at the root of this decline requires better understanding their life cycle and migratory patterns.

In summer 2013, scientists strapped geolocator backpacks to the backs of 38 birds in Nova Scotia and Vermont to do just that. The geolocators weigh half a gram and consist of a battery, a light sensor and data storage. Each device recorded the daily sunrise and sunset. Scientists use those times to track the birds’ flight path.



“It’s the way mariners have navigated around the world for centuries,” DeLuca said.

But accessing that data required retrieving the geolocator from a bird that’s completed the migration south and then returned to its breeding ground in the north.

“It’s seems like this migration is really on the brink of impossibility,” DeLuca said. “And then to say we’re now going to strap this half a gram thing on the bird’s back and hope to get it the following year.”

Of the 38 fitted, five were retrieved. Chris Rimmer recalled finding the first bird after it’s return flight.

“Exhilaration. Relief. Amazement. Excitement. All those adjectives,” Rimmer said. “It was a watershed moment for sure.”

William DeLuca and Chris Rimmer attach a geolocator to a blackpoll warbler on Mt. Mansfield in Vermont. Photo by Vermont Center for Ecostudies

Four of the birds made landfall in Hispaniola or Puerto Rico. Another flew from Cape Hatteras, N.C., to Turks and Caicos. All five continued on to Venezuela and Colombia. Their longest flight ranged from 1,410 to 1,721 miles.

The size of these birds and the fact that they’re a forest-dwelling species sets them apart from other long-distance flyers. Most forest dwellers take the path of least resistance, hopping along the coast and from island to island. And of those that cross over water, most are seabirds, much larger and built to feed on fish.

Scientists believe the warblers ride along the tailwinds. Their fat buildup also helps them survive. Before takeoff, the birds nearly double their body weight from 11.5 grams to as much as 30 grams and shrink unneeded organs, so their bodies are little more than wings for flight, fat for fuel and brain for navigation.

“These birds just become little roly poly balls of feather with fat,” Rimmer said. “It’s extraordinary, the sheaths of fat on their skin. You wonder if they could even take off. But they couldn’t be powered on that long flight without this source of fuel.”

They also shut down parts of their brain that they’re not using and build up their storage of red blood cells, which allows them to hold more oxygen in their blood.

The next step for scientists is to better understand the factors that threaten this population. It’s likely a combination of factors, Holberton said. Deforestation is a threat both north and south in the Amazon River basin, along with an increase in the intensity of offshore hurricanes.

“To know and understand how to effectively conserve a migratory bird, you have to really understand what’s happening at all stages of its migratory cycles — where it breeds and where it winters,” Rimmer said. “This is an important piece of that overall puzzle.”

BY Jenny Marder

This tiny songbird flies Canada to Puerto Rico nonstop