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- ‘It’s all bad for you’: Bartender shares how she deals with customers who ask ‘how many calories’ are in their drinks The Daily Dot
- I’m a bartender – here’s what I say to people worried about calories Daily Mail
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European Space Agency Shares Incredible Image Of Cone Nebula In Deep Space
The cone nebula has a lighthouse-like shape.
A stunning image of a cone nebula in deep space has left the astronomers in shock. The image shows a strange figure in the vast universe that appears to be staring at us. The image has been released by the European Southern Observatory (ESO). The nebula is seven light years long and looks like a lighthouse in the infinite space. The photo was clicked by the ESO’s Very Large Telescope to celebrate its 60th anniversary. The cone nebula is part of a larger complex 2,500 light years away called NGC 2264, according to a report in Science Alert.
NGC 2264 is located in constellation Monoceros, according to the outlet.
Unlike other nebulae, which glow brightly with a complex array of colours, this one is made up of thick dust that absorbs light.
This dark feature gives the nebula an eerie appearance of a human-like figure.
“Its pillar-like appearance is a perfect example of the shapes that can develop in giant clouds of cold molecular gas and dust, known for creating new stars,” the ESO said in the caption while sharing the photo.
What is cone nebula?
According to American space agency NASA, it resembles a nightmarish beast rearing its head from the dark sea called space.
It is called cone nebula because of its conical shape in images.
Radiation from hot, young stars slowly erode the nebula over millions of years. Ultraviolet light heats the edges of the dark cloud, releasing gas into the relatively empty region of surrounding space, thus creating this figure, said the space agency.
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Dramatic photo shows ominous Cone Nebula like never before
A dramatic new image of the Cone Nebula shows the pillar-like cloud of cold, star-forming molecular gas and dust in unprecedented detail.
The nebula gets its name from its conical shape and is located in the turbulent, 7-light-year-long region of NGC 2264, which is a site of intense star formation located around 2,500 light-years from Earth.
Because it is relatively close to our planet, the Cone Nebula has been well studied., However, previous images lacked the incredible detail seen in the new observation, made earlier this year by the Very Large Telescope (VLT), located in the Atacama Desert of northern Chile, according to a statement (opens in new tab) from the European Southern Observatory, which operates the telescope.
Related: ‘Orion’s Fireplace’: Flame Nebula is ablaze with color in stunning new image
In the VLT image, the nebula — which is found in the constellation Monoceros, “The Unicorn” — takes on a dark and impenetrably cloudy appearance, making it look, fittingly, almost like a mythological creature itself.
NASA’s Hubblesite colorfully describes the Cone Nebula as “resembling a nightmarish beast rearing its head from a crimson sea.”
In the image, captured with the VLT’s Focal Reducer/low dispersion Spectrograph 2 (FORS2), hydrogen gas can be seen in blue and sulfur gas in red. Rather than appearing in their usual blue, young stars in the nebula look almost like golden sparkles.
The Cone Nebula is a striking example of the pillar-like clouds of cold molecular gas and dust that serve as the raw materials for star birth. This pillar shape forms when infant bright-blue stars give off intense ultraviolet radiation and stellar winds that blow material away from their vicinity. As this material shifts, it pushes on gas and dust farther from these young stars, compressing it into dense, tall pillars.
The young stars of NGC 2264 have been eroding material in this region over millions of years, forming the dense and dark Cone Nebula that points away from NGC 2264.
According to Hubblesite (opens in new tab), the tendrils of gas in NGC 2264 will eventually erode so much that only the densest regions will remain. These areas of dense gas and dust will become the sites of further star formation and may eventually birth planets.
ESO released the new image of the Cone Nebula to celebrate the 60-year anniversary of its. ESO selected the picture to be released as part of a campaign marking the five countries signing the convention to create the organization, which now has 16 collaborating member states and organizations.
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Forecast track, cone and more
The latest: As of Tuesday evening, Ian is a major hurricane between Cuba and the Florida Keys. Its most recent track shows landfall in Southwest Florida.
Related: Tuesday Live Updates: Tampa Bay in final hours of prep as Hurricane Ian nears
Where is Ian heading right now?
Here is the latest forecast track and cone from the National Hurricane Center, as well as recent satellite footage. The line and cone represent where the eye of the storm is expected to go in the coming days.
No prediction is exact — the cone shows the range that two out of three storms would take on average. But a third of the time, storms leave the cone.
A storm’s effects can reach much farther than its eye. This satellite video shows the storm for the last three hours.
Hover or tap on the circles on the map to see when the storm is predicted to reach each point.
Data from the National Hurricane Center. Video images from the National Environmental Satellite Data and Information Service.
• • •
2022 Tampa Bay Times Hurricane Guide
HOW TO TALK TO KIDS ABOUT THE HURRICANE: A school mental health expert says to let them know what’s happening, keep a routine and stay calm.
WHAT TO EXPECT IN A SHELTER: What to bring — and not bring — plus information on pets, keeping it civil and more.
SAFEGUARD YOUR HOME: Storms and property damage go hand in hand. Here’s how to prepare.
IT’S STORM SEASON: Get ready and stay informed at tampabay.com/hurricane.
RISING THREAT: Tampa Bay will flood. Here’s how to get ready.
DOUBLE-CHECK: Checklists for building all kinds of hurricane kits
PHONE IT IN: Use your smartphone to protect your data, documents and photos.
SELF-CARE: Protect your mental health during a hurricane.
• • •
PART 1: The Tampa Bay Times partnered with the National Hurricane Center for a revealing look at future storms.
PART 2: Even weak hurricanes can cause huge storm surges. Experts say people don’t understand the risk.
PART 3: Tampa Bay has huge flood risk. What should we do about it?
INTERACTIVE MAP: Search your Tampa Bay neighborhood to see the hurricane flood risk.
Tropical Storm Ian has formed, SWFL remains in forecast cone for major hurricane
Tropical Depression 9 just upgraded to Tropical Storm Ian Friday evening. It has been a busy few days in the tropics as Fiona, a Category 3 storm heads to Canada, and Tropical Storm Hermine formed just off the West Coast of Africa. Read more about them here.
In the meantime, the focus at the NBC2 First Alert Hurricane Tracking center will be Tropical Storm Ian.
Ian was still able to reach tropical storm status while enduring a bit of wind shear south of Hispaniola, which means this is a hardy storm. Over the weekend, Ian will be entering an even better environment for development once the storm gets south of Jamaica and/or Cuba. This is where the storm will find an environment with relatively low wind shear and very warm ocean waters. This will give the storm the opportunity to intensify quickly to a hurricane. The environment is so conducive for tropical development that a major hurricane (Cat 3 or higher) is forecast by next week.
The latest forecast cone has the storm moving through the western side of Cuba. Although there are some areas of higher terrain in this part of Cuba, it is not where the tallest mountains are.
Furthermore, it is the narrowest part of Cuba which will minimize land interaction. For the aforementioned reasons, the storm will have a chance to maintain its strength north of Cuba.
If the storm is able to avoid a lot of land interaction, and slide through the Yucatan Channel, a stronger storm may be possible.
However, just because it is farther west, does not mean Florida is in the clear. The jet stream is forecast to pull the storm north into the Gulf and SWFL may be stuck dealing with the stronger side (the east side) of the hurricane.
It is important to remember the cone only represents where the center of low pressure will go. Given the graphic below, there is an equal chance that the center of the storm may be south of the Florida Panhandle as it is near the Bahamas come Wednesday at 2 PM.
For this reason, it is nearly impossible to tell the magnitude of the impacts we will have here in SWFL. It is too early to know how much rain, wind, and/or storm surge we will have next week.
It is clear this will be a significant storm for some parts of the eastern Gulf, but the specifics aren’t there yet.
Over the weekend, it is a good idea to refresh your hurricane kit and get a plan together with your family. Stay tuned to NBC2 on air and online as we gather more information.
You can brush up on your tropical weather knowledge using our NBC2 Hurricane Guide+ here.
Philadelphia teens fatally beat 73-year-old man James Lambert with traffic cone, video shows
Surveillance video released by police shows a group of teens chasing the victim and hurling what appears to be a traffic cone at him. The footage shows one teen chasing him across the street and striking him with the traffic cone. Immediately afterward, another teen could be seen picking it up and hitting him again, then chasing him down the sidewalk and hitting him with it for a third time.
Police said Lambert, who was blurred in the video, was taken to a hospital where he died the next day of his injuries.
Attempts to reach Lambert’s relatives on Saturday were unsuccessful.
It is not clear what happened in the moments leading up to the attack or whether the teens knew the victim. But for about 20 minutes afterward, the teens could be seen on surveillance video wandering around the area, one of them riding a scooter.
Relatives of the victim told WCAU in Philadelphia that they had seen Lambert, also known as “Simmie,” hours before the incident and could not believe kids had attacked him. Police said the Black teens appeared to be in their early to midteens. Police did not provide any further descriptions except that one teen had a blond patch of hair.
The family members told the news station that they are heartbroken.
As of July 8, there have been 280 homicides in Philadelphia in 2022 — a 4 percent decrease from the same time last year, according to crime statistics from the Philadelphia Police Department.
More people were killed in Philadelphia in 2021 than any other year in recent history. It prompted a harsh debate on policing and criminal justice between two well-known Philadelphia Democrats — District Attorney Larry Krasner, who is White, and former mayor Michael Nutter, who is Black.
As Washington Post reporter Cleve R. Wootson Jr., reported at the time:
The year 2021 in the City of Brotherly Love will always be marked by the shocking number of people whose lives came to an abrupt and violent end: an 18-year-old shot two weeks before his high school graduation, two men killed in a hail of gunfire at a July Fourth cookout, a pregnant woman gunned down as she unpacked presents from her baby shower.
Police said a $20,000 reward is being offered for any information leading to an arrest and conviction in the June 24 attack. The case is being investigated by the homicide unit, police said.
Cindy Parlow Cone reelected as U.S. Soccer president, defeats Carlos Cordeiro
Cindy Parlow Cone won re-election as U.S. Soccer Federation president on Saturday, fending off a challenge from predecessor Carlos Cordeiro.
Cone won 52.9% of the weighted vote from the USSF’s National Council, and will now serve a new, four-year term that will expire in 2026, just a few months before the U.S. will co-host that year’s World Cup with Canada and Mexico.
“The moment of division is now in the past. We are one Federation. We are one team. I promise to be the leader for all of us soccer,” Parlow Cone said following the vote. “I have never been more excited and more hopeful about the future of our beautiful game. Our national teams are young, exciting and full of promise. Our professional leagues are at the vanguard of driving our sport for the grassroots soccer as vibrant, healthy and changing lives every day. And we are assumed to host at least one World Cup and show the world what we have to offer.
“Now is the time for all of us to work together. No more divisions. We don’t have time for all of that. Our moment is now and I promise you that each and every one of you have a friend and a partner and as president of U.S. Soccer.”
As recently as three months ago, Cone looked like she might run unopposed. She had taken over following Cordeiro’s resignation in 2020 when legal filings from the USSF in the equal pay lawsuit made disparaging remarks about the women’s players stating they “do not perform equal work requiring equal skill [and] effort” because “the overall soccer-playing ability required to compete at the senior men’s national team level is materially influenced by the level of certain physical attributes such as speed and strength.”
Following Cordeiro’s resignation, Cone navigated the USSF through the COVID-19 pandemic, and under her watch the USSF secured a settlement in the equal pay lawsuit, as well as a new media rights deal with Turner Sports.
But dissatisfaction with Cone’s performance within the grassroots state associations led some voters to push Cordeiro to run for his old job. There were also concerns that the USSF under Cone was squandering an opportunity to grow the sport that comes with hosting the World Cup. Cordeiro announced his intention to run in early January.
Yet Parlow Cone was able to secure enough votes — she secured several public endorsements from members of the Athletes Council, which held 33.3 percent of the weighted vote — to win re-election. On the eve of Saturday’s election, Cone had received the endorsements of 32 players on the United States women’s national team.
Following the result, USWNT players’ spokesperson Molly Levinson said: “Equal pay has gone from a whisper in the locker room to a roar on the field to fundamentally changing the business of sports and soccer in the United States, and around the world. We look forward to Cindy’s leadership.”
This 3D-Printer Uses Ink Made From Microbes to Print Blobs That Are Alive
We’ve seen how 3D-printing can revolutionize certain manufacturing processes – whether on Earth or anywhere else – but there’s a growing field of research looking at ways this can be applied to producing living, biological structures as well.
In a new study, scientists have outlined a new type of ‘living ink’ or bioink made from programmed Escherichia coli bacterial cells, which can be 3D-printed to create hydrogels in different kinds of shapes that release different types of drugs or absorb toxins, depending on how they’re engineered.
What makes this approach different from previous bioinks is how it uses genetic programming to control the mechanical properties of the ink itself – leading to better end results in the finished material and more practical uses for the ink (some existing bioinks don’t operate properly at room temperature, for example).
Examples of the printed bioink. (Joshi et al., Nature Communications, 2021)
“A tree has cells embedded within it and it goes from a seed to a tree by assimilating resources from its surroundings in order to enact these structure-building programs,” says chemical biologist Neel Joshi from Northeastern University in Massachusetts.
“What we want to do is a similar thing, but where we provide those programs in the form of DNA that we write, and genetic engineering.”
The way it works is by bioengineering the bacterial cells to create living nanofibers. The E. coli cells were combined with other substances to create the fibers, using a chemical process inspired by fibrin – a protein that plays a key part in blood clots in mammals.
These protein-based nanofibers can then be fed into a 3D-printer and manipulated into various shapes. Unlike previous bioinks, this one doesn’t use any artificial substances, and is instead entirely biological. It’s squeezed out like a toothpaste, but can then keep its form if it is kept from drying out.
So far the technique has been used to make very small objects: a circle, a square, and a cone. But now that the scientists have shown that the microbial ink can be 3D-printed in this way, it opens up more possibilities for the future.
“If you were to take that whole cone and dunk it into some glucose solution, the cells would eat that glucose and they would make more of that fiber and grow the cone into something bigger,” says Joshi.
“There is the option to leverage the fact that there are living cells there. But you can also just kill the cells and use it as an inert material.”
In experiments, the team was able to combine their bioink with other microbes to perform specific tasks: absorbing toxic chemicals, for example, or delivering an anti-cancer drug. In the future, the ink could also be engineered to self-replicate, the researchers say.
This study builds on previous work by the same team, looking at how E. coli cells could be formed into a hydrogel that self-replicates when it comes into contact with a particular tissue – opening up a new and sustainable method of manufacture that could be used on the Moon and Mars as well as here on Earth.
Although the 3D-printable bioink has only been used on a small scale so far, further down the line it could ultimately be used in everything from building self-healing structures to producing bottle caps that are able to remove dangerous chemicals from water.
“Biology is able to do similar things,” says Joshi. “Think about the difference between hair, which is flexible, and horns on a deer or a rhino or something. They’re made of similar materials, but they have very different functions. Biology has figured out how to tune those mechanical properties using a limited set of building blocks.”
The research has been published in Nature Communications.
Pine cone trapped in amber reveals rare and ‘intriguing’ type of plant behavior
Seed germination typically occurs in the ground after a seed has fallen, but several embryonic stems were captured emerging from the ancient pine cone in a rare botanical feat known as precocious germination, or viviparity, in which seeds sprout before leaving the fruit.
“That’s part of what makes this discovery so intriguing, even beyond that it’s the first fossil record of plant viviparity involving seed germination,” said George Poinar Jr., a paleobiologist at the Oregon State College of Science and author of a study on the discovery, in a news release.
“I find it fascinating that the seeds in this small pine cone could start to germinate inside the cone and the sprouts could grow out so far before they perished in the resin.”
Precocious germination in pine cones is so rare that only one naturally occurring example of this condition, from 1965, has been described in scientific literature, Poinar said in the statement.
When seed germination does occur inside plants, it tends to be in things like fruit — think of the baby pepper you sometimes see when you cut open a bell pepper — but it’s rare in gymnosperms such as conifers that produce “naked” or non-enclosed seeds.
The fossilized pine cone is from an extinct species of pine tree called Pinus cembrifolia. Preserved in Baltic amber, clusters of needles are visible, some in bundles of five.
Some of paleontology’s most extraordinary discoveries in recent years have come from amber: A dinosaur tail, parts of primitive birds, insects, lizards and flowers have all been found entombed in globs of tree resin that date back millions of years. The vivid creatures and plants look like they just died yesterday and are often exquisitely preserved with details that would otherwise be lost in the crush of fossils formed in rock.
Based on their position, some of the stems’ growth, if not most, occurred after the pine cone came into contact with the sticky tree resin, Poinar said. The research was published in the journal Historical Biology last week.
Poinar has worked on amber fossils for decades, first discovering in a 1982 study that amber could preserve intracellular structures in an organism trapped inside. His work inspired the fictional science in the “Jurassic Park” book and movie franchise, where DNA is extracted from dinosaur blood inside a mosquito trapped in amber to recreate the prehistoric creatures.
Seeds Sprouting From 40-Million-Year-Old Pine Cone Encased in Amber
The first fossil evidence of a rare botanical condition known as precocious germination in which seeds sprout before leaving the fruit. Credit: George Poinar Jr., OSU
Oregon State University research has uncovered the first fossil evidence of a rare botanical condition known as precocious germination in which seeds sprout before leaving the fruit.
In a paper published in Historical Biology, George Poinar Jr. of the Oregon State College of Science describes a pine cone, approximately 40 million years old, encased in Baltic amber from which several embryonic stems are emerging.
“Crucial to the development of all plants, seed germination typically occurs in the ground after a seed has fallen,” said Poinar, an international expert in using plant and animal life forms preserved in amber to learn about the biology and ecology of the distant past. “We tend to associate viviparity – embryonic development while still inside the parent – with animals and forget that it does sometimes occur in plants.”
Most typically, by far, those occurrences involve angiosperms, Poinar said. Angiosperms, which directly or indirectly provide most of the food people eat, have flowers and produce seeds enclosed in fruit.
“Seed germination in fruits is fairly common in plants that lack seed dormancy, like tomatoes, peppers and grapefruit, and it happens for a variety of reasons,” he said. “But it’s rare in gymnosperms.”
Gymnosperms such as conifers produce “naked,” or non-enclosed, seeds. Precocious germination in pine cones is so rare that only one naturally occurring example of this condition, from 1965, has been described in the scientific literature, Poinar said.
“That’s part of what makes this discovery so intriguing, even beyond that it’s the first fossil record of plant viviparity involving seed germination,” he said. “I find it fascinating that the seeds in this small pine cone could start to germinate inside the cone and the sprouts could grow out so far before they perished in the resin.”
At the sprouts’ tips are needle clusters, some in bundles of five, associating the fossil with the extinct pine species Pinus cembrifolia, which was previously described from Baltic amber, Poinar said.
Pine cones in Baltic amber are not commonly found, he added. The ones that do appear are prized by collectors and because the cones’ scales are hard, they’re usually very well preserved and appear lifelike.
Viviparity in plants typically shows up in one of two ways, Poinar said. Precocious germination is the more common of the two, the other being vegetative viviparity, such as when a bulbil emerges directly from the flower head of a parent plant.
“In the case of seed viviparity in this fossil, the seeds produced embryonic stems that are quite evident in the amber,” he said. “Whether those stems, known as hypocotyls, appeared before the cone became encased in amber is unclear. However, based on their position, it appears that some growth, if not most, occurred after the pine cone fell into the resin.
“Often some activity occurs after creatures are entombed in resin, such as entrapped insects depositing eggs,” Poinar said. “Also, insect parasites sometimes flee their hosts into the resin after the latter become trapped. In the case of the pine cone, the cuticle covering the exposed portions of the shoots could have protected them from rapid entrance of the resin’s natural fixatives.”
Research on viviparity in extant gymnosperms suggests the condition could be linked to winter frosts. Light frosts would have been possible if the Baltic amber forest had a humid, warm-temperate environment as has been posited, Poinar said.
“This is the first fossil record of seed viviparity in plants but this condition probably occurred quite a bit earlier than this Eocene record,” he said. “There’s no reason why vegetative viviparity couldn’t have occurred hundreds of millions of years ago in ancient spore-bearing plants like ferns and lycopods.”
Reference: “Precocious germination of a pine cone in Eocene Baltic amber” by George Poinar Jr, 8 November 2021, Historical Biology.
DOI: 10.1080/08912963.2021.2001808