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Here’s what the UAE looked like 120 million years ago – EsquireMe

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120 million years ago – in the Early Cretaceous period – UAE cities Dubai and Abu Dhabi looked very different. In fact, they were underwater.

The earth has changed dramatically over the last 4.5 billion years, and a new interactive online map will let you see just how that has affected your hometown, city or country.

According to the map – which was created by California paleontologist Ian Webster – the UAE stayed underwater still attached to the coast of what would become Africa until 35-million years ago, when it rose above the water in the Mid Tertiary period.

People around the world are sharing the map online, along with images of where their homes would have been millions of years ago.

The map uses GPlates, a software that visualizes plate tectonics – as well as current and historic map data.

You can play around with the map right here.

According to Webster, the map “shows that our environment is dynamic and can change,” he told CNN.

“The history of Earth is longer than we can conceive, and the current arrangement of plate tectonics and continents is an accident of time. It will be very different in the future, and Earth may outlast us all.”


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The detection of phosphine in Venus' clouds is a big deal – here's how we can find out if it's a sign of life – The Conversation US

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On Sept. 14, 2020, a new planet was added to the list of potentially habitable worlds in the Solar System: Venus.

Phosphine, a toxic gas made up of one phosphorus and three hydrogen atoms (PH₃), commonly produced by organic life forms but otherwise difficult to make on rocky planets, was discovered in the middle layer of the Venus atmosphere. This raises the tantalizing possibility that something is alive on our planetary neighbor. With this discovery, Venus joins the exalted ranks of Mars and the icy moons Enceladus and Europa among planetary bodies where life may once have existed, or perhaps might even still do so today.

I’m a planetary scientist and something of a Venus evangelical. This discovery is one of the most exciting made about Venus in a very long time — and opens up a new set of possibilities for further exploration in search of life in the Solar System.

Venus as seen in the infrared by the Japanese Akatsuki spacecraft. The warm colors are from the hot lower atmosphere glowing through the cooler cloud layers above. Image credit: JAXA/ISAS/DARTS/Damia Bouic.
JAXA/ISAS/DARTS/Damia Bouic

Atmospheric mysteries

First, it’s critical to point out that this detection does not mean that astronomers have found alien life in the clouds of Venus. Far from it, in fact.

Although the discovery team identified phosphine at Venus with two different telescopes, helping to confirm the initial detection, phosphine gas can result from several processes that are unrelated to life, such as lightning, meteor impacts or even volcanic activity.

However, the quantity of phosphine detected in the Venusian clouds seems to be far greater than those processes are capable of generating, allowing the team to rule out numerous inorganic possibilities. But our understanding of the chemistry of Venus’ atmosphere is sorely lacking: Only a handful of missions have plunged through the inhospitable, carbon dioxide-dominated atmosphere to take samples among the global layer of sulfuric acid clouds.

So we planetary scientists are faced with two possibilities: Either there is some sort of life in the Venus clouds, generating phosphine, or there is unexplained and unexpected chemistry taking place there. How do we find out which it is?

A model of the Soviet Vega 1 spacecraft at the Udvar-Hazy Center, Dulles International Airport. Vega 1 carried a balloon to Venus on its way to visit Halley’s Comet in 1985.
Daderot

First and foremost, we need more information about the abundance of PH₃ in the Venus atmosphere, and we can learn something about this from Earth. Just as the discovery team did, existing telescopes capable of detecting phosphine around Venus can be used for follow-up observations, to both definitively confirm the initial finding and figure out if the amount of PH₃ in the atmosphere changes with time. In parallel, there is now a huge opportunity to carry out lab work to better understand the types of chemical reactions that might be possible on Venus — for which we have very limited information at present.

Antennas of the Atacama Large Millimeter/submillimeter Array telescope, on the Chajnantor Plateau in the Chilean Andes. The telescope was used to confirm the initial detection of phosphine in Venus’ atmosphere.
ESO/C. Malin.

Once more unto the breach

But measurements on and from Earth can take us only so far. To really get to the heart of this mystery, we need to go back to Venus. Spacecraft equipped with spectrometers that can detect phosphine from orbit could be dispatched to the second planet with the express purpose of characterizing where, and how much, of this gas is there. Because spacecraft can survive for many years in Venus’ orbit, we could obtain continuous observations with a dedicated orbiter over a much longer period than with telescopes on Earth.

But even orbital data can’t tell us the whole story. To fully get a handle on what’s happening at Venus, we have to actually get into the atmosphere. And that’s where aerial platforms come in. Capable of operating above much of the acidic cloud layer – where the temperature and pressure are almost Earthlike – for potentially months at a time, balloons or flying wings could take detailed atmospheric composition measurements there. These craft could even carry the kinds of instruments being developed to look for life on Europa. At that point, humanity might finally be able to definitively tell if we share our Solar System with Venusian life.

A concept for an aerial platform at Venus. Two connected balloons could take turns to inflate, allowing the balloon to control the altitude at which it floats. An instrument package would then hang from below the balloons.
NASA/JPL-Caltech

A new dawn for Venus exploration?

Thirty-one years have elapsed since the United States last sent a dedicated mission to Venus. That could soon change as NASA considers two of four missions in the late 2020s targeting Venus. One, called VERITAS, would carry a powerful radar to peer through the thick clouds and return unprecedented high-resolution images of the surface. The other, DAVINCI+, would plunge through the atmosphere, sampling the air as it descended, perhaps even able to sniff any phosphine present. NASA plans to pick at least one mission in April 2021.

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I have argued before for a return to Venus, and will continue to do so. Even without this latest scientific discovery, Venus is a compelling exploration target, with tantalizing evidence that the planet once had oceans and perhaps even suffered a hellish fate at the hands of its own volcanic eruptions.

But with the detection of a potential biomarker in Venus’ atmosphere, we now have yet another major reason to return to the world ancient Greek astronomers called Phosphorus — a name for Venus that, it turns out, is wonderfully prescient.

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Municipalities look to Elon Musk for improved internet – Hanna Herald

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The Federation of Northern Ontario Municipalities’ board  of directors passed a resolution Sept. 15 in support of Starlink, Elon Musk’s satellite internet project.
Bill Pugliano/Getty Images


Sarah Cooke, Local Journalism Initiative

Internet access and remote/rural communities usually don’t go together well in a sentence, but Elon Musk’s satellite internet project  aims to fix that.
The Federation of Northern Ontario Municipalities’ board  of directors passed a resolution Sept. 15 in support of Starlink —  which is a low Earth orbit satellite system which can provide improved  upload/download speeds and response times for rural residents.
“We know today our citizens require greater connectivity than 50/10  megabits per second,” says Danny Whalen, president of FONOM. “FONOM  believes that the Starlink program is our best option.”
The resolution also calls on the Canadian Radio-Television and Telecommunications Commission (CRTC) to permit the company a basic international telecommunications service licence (BITS).
Space Exploration Technologies Corporation (SpaceX) is the parent company of Starlink and it applied for a BITS licence May 1.
On July 6, the CRTC published the procedural letter on  its website which states that it “received a number of  interventions, both in support of and in opposition” to SpaceX’s request  for a licence.
The letter further states that the CRTC provided SpaceX the opportunity to reply to these interventions.
The interventions and replies are available on the commission’s website under “closed BITS licenses.”
Discussions surrounding broadband and connectivity dominated much of  FONOM’s recent board meeting, according to a release issued Sept. 16.,  as the federation is looking to work with municipal organizations and  governments to bring improved internet services to its 110 communities.
SpaceX launched 180 satellites last month to grow the  “mega-constellation” and Starlink has allegedly begun private beta  testing.
A tweet from Musk on June 24 stated that, “Canada is a major priority for Starlink!”
Those interested in signing up for the potential to beta test Starlink can do so on the company’s website.
FONOM said it will not be communicating with its partners to seek additional support for the Starlink program.


Sarah Cooke is a Local Journalism Initiative reporter with muskokaregion.com. The Local Journalism Initiative is funded by the Government of Canada.

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Municipalities look to Elon Musk for improved internet – The North Bay Nugget

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The Federation of Northern Ontario Municipalities’ board  of directors passed a resolution Sept. 15 in support of Starlink, Elon Musk’s satellite internet project.
Bill Pugliano/Getty Images


Sarah Cooke, Local Journalism Initiative

Internet access and remote/rural communities usually don’t go together well in a sentence, but Elon Musk’s satellite internet project  aims to fix that.
The Federation of Northern Ontario Municipalities’ board  of directors passed a resolution Sept. 15 in support of Starlink —  which is a low Earth orbit satellite system which can provide improved  upload/download speeds and response times for rural residents.
“We know today our citizens require greater connectivity than 50/10  megabits per second,” says Danny Whalen, president of FONOM. “FONOM  believes that the Starlink program is our best option.”
The resolution also calls on the Canadian Radio-Television and Telecommunications Commission (CRTC) to permit the company a basic international telecommunications service licence (BITS).
Space Exploration Technologies Corporation (SpaceX) is the parent company of Starlink and it applied for a BITS licence May 1.
On July 6, the CRTC published the procedural letter on  its website which states that it “received a number of  interventions, both in support of and in opposition” to SpaceX’s request  for a licence.
The letter further states that the CRTC provided SpaceX the opportunity to reply to these interventions.
The interventions and replies are available on the commission’s website under “closed BITS licenses.”
Discussions surrounding broadband and connectivity dominated much of  FONOM’s recent board meeting, according to a release issued Sept. 16.,  as the federation is looking to work with municipal organizations and  governments to bring improved internet services to its 110 communities.
SpaceX launched 180 satellites last month to grow the  “mega-constellation” and Starlink has allegedly begun private beta  testing.
A tweet from Musk on June 24 stated that, “Canada is a major priority for Starlink!”
Those interested in signing up for the potential to beta test Starlink can do so on the company’s website.
FONOM said it will not be communicating with its partners to seek additional support for the Starlink program.


Sarah Cooke is a Local Journalism Initiative reporter with muskokaregion.com. The Local Journalism Initiative is funded by the Government of Canada.

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