Mystery radio signal first spotted in Canada traced to nearby galaxy – Global News
If the aliens are trying to tell us something, we finally have a better sense of where to listen for them.
Astronomers say they’ve traced the origin point of a mysterious, repeating radio signal from outer space to a galaxy that’s relatively close to our own, in a discovery that raises more questions about the origins of these strange bursts.
The signal, known as a fast radio burst (FRB), appears to be coming from a spiral galaxy some 500 million light-years from Earth, according to new findings published in the journal Nature. That’s not exactly within walking distance, but it’s still much closer to our planet than any of the other FRB origins identified to date.
And no, the FRB isn’t saying “Hi.” At least, not that scientists can tell.
FRBs are typically one-off blasts of radio waves through space, with each one lasting no more than a millisecond. Scientists have identified hundreds of FRBs over the years, but they’ve only traced five of them back to their points of origin.
This latest find is unusual because it’s just the second repeating signal to be tracked back to its source, which is somewhere in a patch of space some seven light-years wide.
“This object’s location is radically different from that of not only the previously located repeating FRB, but also previously studied FRBs,” astronomer and lead study author Kenzie Nimmo said in a statement released through the National Science Foundation’s National Optical-Infrared Astronomy Research Laboratory.
Canada’s CHIME telescope in Okanagan Falls, B.C., first detected the FRB in 2018, when it heard four extremely brief bursts over the course of about five hours. Researchers later aimed several other telescopes at the sky to determine the repeating signal’s origin point.
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Nimmo says the discovery “blurs” the line between repeating and non-repeating FRBs.
“It may be that FRBs are produced in a large zoo of locations across the universe and just require some specific conditions to be visible.”
The first repeating FRB has already been traced back to a dwarf galaxy filled with stars and metal objects. That galaxy was about three billion light-years away.
The new findings are expected to help researchers look for more FRB origin points, in hopes of one day learning what causes them and how they travel through the universe.
© 2020 Global News, a division of Corus Entertainment Inc.
Why do animals keep evolving into crabs?
A flat, rounded shell. A tail that’s folded under the body. This is what a crab looks like, and apparently what peak performance might look like — at least according to evolution. A crab-like body plan has evolved at least five separate times among decapod crustaceans, a group that includes crabs, lobsters and shrimp. In fact, it’s happened so often that there’s a name for it: carcinization.
So why do animals keep evolving into crab-like forms? Scientists don’t know for sure, but they have lots of ideas.
Carcinization is an example of a phenomenon called convergent evolution, which is when different groups independently evolve the same traits. It’s the same reason both bats and birds have wings. But intriguingly, the crab-like body plan has emerged many times among very closely related animals.
The fact that it’s happening at such a fine scale “means that evolution is flexible and dynamic,” Javier Luque, a senior research associate in the Department of Zoology at the University of Cambridge, told Live Science.
Related: Does evolution ever go backward?
Crustaceans have repeatedly gone from having a cylindrical body plan with a big tail — characteristic of a shrimp or a lobster — to a flatter, rounder, crabbier look, with a much less prominent tail. The result is that many crustaceans that resemble crabs, like the tasty king crab that’s coveted as a seafood delicacy, aren’t even technically “true crabs.” They’ve adopted a crab-like body plan, but actually belong to a closely related group of crustaceans called “false crabs.”
When a trait appears in an animal and sticks around through generations, it’s a sign that the trait is advantageous for the species — that’s the basic principle of natural selection. Animals with crabby forms come in many sizes and thrive in a wide array of habitats, from mountains to the deep sea. Their diversity makes it tricky to pin down a single common benefit for their body plan, said Joanna Wolfe, a research associate in organismic and evolutionary biology at Harvard University.
Wolfe and colleagues laid out a few possibilities in a 2021 paper in the journal BioEssays. For example, crabs’ tucked-in tail, versus the lobster’s much more prominent one, could reduce the amount of vulnerable flesh that’s accessible to predators. And the flat, rounded shell could help a crab scuttle sideways more effectively than a cylindrical lobster body would allow.
But more research is needed to test those hypotheses, Wolfe said. She is also trying to use genetic data to better understand the relationships among different decapod crustaceans, to more accurately pinpoint when various “crabby” lineages evolved, and pick apart the factors driving carcinization.
There’s another possible explanation: “It’s possible that having a crab body isn’t necessarily advantageous, and maybe it’s a consequence of something else in the organism,” Wolfe said. For example, the crab body plan might be so successful not because of the shell or tail shape itself, but because of the possibilities that this shape opens up for other parts of the body, said Luque, who is a co-author of the 2021 paper with Wolfe.
For example, a lobster’s giant tail can propel the animal through the water and help it crush prey. But it can also get in the way and constrain other features, Luque said. The crab body shape might leave more flexibility for animals to evolve specialized roles for their legs beyond walking, allowing crabs to easily adapt to new habitats. Some crabs have adapted their legs for digging under sediment or paddling through water.
“We think that the crab body plan has evolved so many times independently because of the versatility that the animals have,” Luque said. “That allows them to go places that no other crustaceans have been able to go.”
The crab-like body plan also has been lost multiple times over evolutionary time — a process known as decarcinization.
“Crabs are flexible and versatile,” Luque explained. “They can do a lot of things back and forth.”
Wolfe thinks of crabs and other crustaceans like Lego creations: They have many different components that can be swapped out without dramatically changing other features. So it’s relatively straightforward for a cylindrical body to flatten out, or vice versa. But for better or worse, humans won’t be turning into crabs anytime soon. “Our body isn’t modular like that,” Wolfe said. “[Crustaceans] already have the right building blocks.”
Rocket Lab Launches Second Batch of TROPICS Satellites – SpaceWatch.Global
Ibadan, 29 May 2023. – Rocket Lab USA, Inc. has successfully completed the second of two dedicated Electron launches to deploy a constellation of tropical cyclone monitoring satellites for NASA. The “Coming To A Storm Near You” launch lifted off on May 26 at 15:46 NZST (03:46 UTC) from Rocket Lab Launch Complex 1 on New Zealand’s Mahia Peninsula, deploying the final two CubeSats of NASA’s TROPICS constellation to orbit.
“Coming To A Storm Near You” is Rocket Lab’s second of two TROPICS launches for NASA, following the first launch on May 8th NZST. Like the previous launch, “Coming To A Storm Near You” deployed a pair of shoebox-sized satellites to low Earth orbit to collect tropical storm data more frequently than other weather satellites. The constellation aims to help increase understanding of deadly storms and improve tropical cyclone forecasts.
Rocket Lab has now launched all four satellites across two dedicated launches within 18 days, enabling the TROPICS satellites to settle into their orbits and begin commissioning ahead of the 2023 North American storm season, which begins in June.
“Electron was for exactly these kinds of missions – to deploy spacecraft reliably and on rapid timelines to precise and bespoke orbits, so we’re proud to have delivered that for NASA across both TROPICS launches and meet the deadline for getting TROPICS to orbit in time for the 2023 storm season,” said Rocket Lab founder and CEO Peter Beck. “Thank you to the team at NASA for entrusting us with such an important science mission, we’re grateful to be your mission launch providers once again.”
‘Coming To A Storm Near You’ was Rocket Lab’s fifth mission for 2023 and the Company’s 37th Electron mission overall. It brings the total number of satellites launched into orbit by Rocket Lab to 163.
NASA Astronomy Picture of the Day 29 May 2023: Milky Way Galaxy and the Bioluminescent Sea – HT Tech
Our solar system, with the Sun at the center and 8 other planets besides Earth, reside in an obscure part of a galaxy known as the Milky Way Galaxy. It is a barred spiral galaxy that spans about 100,000 light-years across and was formed approximately 14 billion years ago. According to NASA, the Milky Way Galaxy has over 100 billion stars and all of them orbit a supermassive black hole at the galaxy’s center, which is estimated to be four million times as massive as our Sun.
NASA’s Astronomy Picture of the Day is a breathtaking snapshot of the Milky Way Galaxy captured over the bioluminescence of the sea in the Maldives. What is the turquoise glow in the water? It occurs due to single-celled Planktons, known as Noctiluca scintillans, which illuminate when stimulated by the sea waves to keep predators away. The Milky Way Galaxy dominates the sky with the Omega Centauri star cluster to the left and the Southern Cross Asterism in the center. The picture was captured by astrophotographers Petr Horalek and Sovena Jani.
NASA’s description of the picture
What glows there? The answer depends: sea or sky? In the sea, the unusual blue glow is bioluminescence. Specifically, the glimmer arises from Noctiluca scintillans, single-celled plankton stimulated by the lapping waves. The plankton use their glow to startle and illuminate predators. This mid-February display on an island in the Maldives was so intense that the astrophotographer described it as a turquoise wonderland. In the sky, by contrast, are the more familiar glows of stars and nebulas.
The white band rising from the artificially-illuminated green plants is created by billions of stars in the central disk of our Milky Way Galaxy. Also visible in the sky is the star cluster Omega Centauri, toward the left, and the famous Southern Cross asterism in the center. Red-glowing nebulas include the bright Carina Nebula, just right of center, and the expansive Gum Nebula on the upper right.
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