- Australia’s Great Barrier Reef suffers ‘extensive’ coral bleaching, as scientists fear seventh mass bleaching event CNN
- Aerial surveys of Great Barrier Reef ordered after flights confirm mass coral bleaching The Guardian
- Helicopter Surveys Confirm ‘Extensive Coral Bleaching’ In Southern Great Barrier Reef DeeperBlue.com
- Extensive coral bleaching on southern end of Great Barrier Reef after summer of warmer ocean temperatures ABC News
- Great Barrier Reef authority plans full survey after observing extensive coral bleaching WION
Tag Archives: Coral
Passengers were left on a ‘crummy cruise to nowhere’ after their ship was turned away from New Zealand because it had 3 mussels and a piece of coral stuck to the hull – Yahoo News
- Passengers were left on a ‘crummy cruise to nowhere’ after their ship was turned away from New Zealand because it had 3 mussels and a piece of coral stuck to the hull Yahoo News
- ‘Nightmare’ cruise at center of controversy after ship forced to tour totally different country instead of original destination New York Post
- Couple’s planned wedding ruined when P&O cruise turned away from New Zealand | ABC News ABC News (Australia)
- Pacific Adventure refused New Zealand entry due to biosecurity risk Seatrade Cruise News
- Bride ‘heartbroken’ as Hobbit wedding cancelled after cruise ship is turned away from port Yahoo! Voices
- View Full Coverage on Google News
Roach Discovery Triggers Mandatory Follow-Up Inspection After Customer Complaint • Coral Springs Talk – Coral Springs Talk
- Roach Discovery Triggers Mandatory Follow-Up Inspection After Customer Complaint • Coral Springs Talk Coral Springs Talk
- Panama City area restaurant and food truck inspections: Aug. 14-20, 2023 The News Herald
- Live roaches, rodent droppings close Sarasota, Bradenton restaurants Sarasota Herald-Tribune
- Fort Myers, Cape Coral restaurant, food truck inspections Aug. 14-20 News-Press
- Melbourne area restaurant and food truck inspections Aug. 14-20: Restaurant inspection: 4 Brevard are perfect; 30 fail Florida Today
- View Full Coverage on Google News
Here’s the Pixel Watch band in Coral and 3rd-party bezel case
The Pixel Watch has thoroughly leaked ahead of Thursday but here’s a look at the Coral Active band directly from Google, as well as a bezel case – of sorts – for the wearable.
The first rumor of a “Coral” Active band for the Pixel Watch emerged two weeks ago. We spotted what could be it this evening in a Google Store email announcing the new wired Nest Doorbell. That said, it’s a bit darker and redder than expected, with raspberry coming to mind. We see the watch face’s hour and seconds hands matching the band.
It appears at the end of the promo message as part of a “Meet the latest from Google” that’s somewhat phrased as if the Pixel 7/Pro and Watch were already announced.
Explore the latest devices like Pixel 7, Pixel 7 Pro, the Google Pixel Watch, and Chromecast with Google TV (HD).
This might imply that Google was planning to announce the new Doorbell and Nest Wifi Pro, as well as the Chromecast with Google TV (HD) from last month, at the same event. Some found it curious this morning that Google decided to make major Nest hardware and software announcements just two days before “Made by Google.”
When the company teased the event at the start of last month, it implied there would be Nest products too. At this rate, unless there’s a surprise, October 6 should be all about the Pixel 7, 7 Pro, and Watch.
Tangent aside, third-party accessories for the Pixel Watch are starting to appear on Amazon. Case maker Ringke is releasing a “Bezel Styling” that adds a stainless steel perimeter to Google’s wearable.
It’s meant to “keep your device protected from scratches and dust gathered from frequent use,” as well as cracks due to impacts. This accessory attaches via “cushioned double-side type” with a cutout for the crown.
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Scientists Discover 4,000-Feet Coral Reef In Australian Desert: Report
Australia was surrounded by oceans and rain forests for hundreds of millions of years.
The remnants of a millions of years old coral reef has been discovered in the middle of an Australian desert. The reef has been discovered in the Nullarbor Plain in southern Australia, which has now been transformed into a 76,000-square-mile desert with limestone bedrock, said a report in Newsweek. However, during the Cenozoic era, some 14 million years ago, the reef was believed to be submerged under a tropical ocean.
Scientists from Curtin University’s School of Earth and Planetary Sciences in Perth have identified these coral reefs as a bull’s-eye form in fresh and high-resolution satellite photos, the outlet further said.
The discovery has challenged their prior beliefs that the Nullarbor Plain had never had any features. Milo Barham, co-author and geologist from Curtin University was quoted as saying by Newsweek, “Unlike many parts of the world, large areas of the Nullarbor Plain have remained largely unchanged by weathering and erosion processes over millions of years, making it a unique geological canvas recording ancient history in remarkable ways.”
“Through high-resolution satellite imagery and fieldwork we have identified the clear remnant of an original sea-bed structure preserved for millions of years, which is the first of this kind of landform discovered on the Nullarbor Plain,” Mr Braham added.
According to Newsweek, 18% of Australia is considered to be desert, making it largely arid in contemporary times. However, Australia was surrounded by oceans and rain forests for hundreds of millions of years, including the ocean that once submerged the Nullarbor Plain.
According to a study published in the journal Earth Surface Processes and Landforms, the coral reef structure includes a circular raised rim and a centre dome shape. The structure has a diameter of 3,950 to 4,250 feet.
The structure also differs from other plain landforms and cannot be described by any of the local geological processes, as per the study, Newsweek further said.
Mystery 4,000-Foot Coral Reef Found in the Middle of the Desert
The remains of a multimillion-year-old coral reef have been discovered in the middle of a desert in Australia.
Southern Australia’s Nullarbor Plain, where the reef was found, is now a 76,000-square- mile desert consisting of limestone bedrock. But it was covered by a tropical ocean about 14 million years ago, during the Cenozoic period.
Researchers from the Timescales of Mineral Systems Group at Curtin University’s School of Earth and Planetary Sciences in Perth spotted the reef as a bull’s-eye shape on new high-resolution satellite imagery. The discovery challenged their previous assumptions that the Nullarbor Plain had always been featureless.
“Unlike many parts of the world, large areas of the Nullarbor Plain have remained largely unchanged by weathering and erosion processes over millions of years, making it a unique geological canvas recording ancient history in remarkable ways,” co-author and geologist Milo Barham of Curtin University said in a statement.
“Through high-resolution satellite imagery and fieldwork we have identified the clear remnant of an original sea-bed structure preserved for millions of years, which is the first of this kind of landform discovered on the Nullarbor Plain,” Barham said.
Curtin University School of Earth and Planetary Sciences / Timescales of Mineral Systems Group
Most of Australia has been dry in modern times, with 18 percent of the country classified as desert. But for hundreds of millions of years, Australia was covered with rain forests and seas, including the ocean that once put the Nullarbor Plain underwater.
The coral reef structure has a circular elevated rim and a central dome shape, according to a paper published in the journal Earth Surface Processes and Landforms. The structure is between 3,950 and 4,250 feet in diameter.
In addition, the structure is distinct from other landforms observed on the plain and cannot be explained by any of the geological processes common to the area, the paper said.
“The ring-shaped ‘hill’ cannot be explained by extra-terrestrial impact or any known deformation processes but preserves original microbial textures and features typically found in the modern Great Barrier Reef,” Barham said.
The researchers’ access to new high-resolution satellite imagery has allowed them to spot much more subtle features of the Nullarbor Plain. This led them to realize it wasn’t a featureless and unchanging landscape, which they had thought it became after its ocean dried up.
“Evidence of the channels of long-vanished rivers, as well as sand dune systems imprinted directly into limestone, preserve an archive of ancient landscapes and even a record of the prevailing winds,” Barham said.
“And it is not only landscapes. Isolated cave shafts punctuating the Nullarbor Plain preserve mummified remains of Tasmanian tigers and complete skeletons of long-extinct wonders such as Thylacoleo, the marsupial lion,” he said.
Curtin University School of Earth and Planetary Sciences / Timescales of Mineral Systems Group
Further exploration of the geology of Nullarbor may aid researchers in their quest to learn more about the beginnings of our solar system and of Earth itself.
“At the surface, due to the relatively stable conditions, the Nullarbor Plain has preserved large quantities of meteorites, allowing us to peer back through time to the origins of our solar system,” Barham said.
“These features, in conjunction with the millions of years old landscape features we have now identified, effectively make the Nullarbor Plain a land that time forgot and allow a fascinating deeper understanding of Earth’s history,” he said.
Scientists at Florida Aquarium make major breakthrough in race to save Caribbean coral reefs
Florida Keys
CNN
—
Scientists at the Florida Aquarium have made a breakthrough in the race to save Caribbean coral: For the first time, marine biologists have successfully reproduced elkhorn coral, a critical species, using aquarium technology.
It’s a historic step forward, and one they hope could help revitalize Caribbean ecosystems and could pay humans back by offering extra protection from the fury of hurricanes.
Elkhorn coral once dominated the Caribbean. But, just as other vital coral ecosystems are degrading around the world, elkhorn are now rarely seen alive in the wild. This species — so important because it provides the building blocks for reefs to flourish — has been until now notoriously difficult to grow in aquariums.
Which is why scientists were thrilled when they saw their reproductive experiment was a success.
“When it finally happened, the first sense is just sheer relief.” said Keri O’Neil, the senior scientist that oversees the Tampa aquarium’s spawning lab. “This is a critical step to preventing elkhorn coral from going extinct in the state of Florida.”
O’Neil’s colleagues call her the “coral whisperer” because she has managed to spawn so many varieties of coral. Elkhorn marks the aquarium’s 14th species spawned inside the Apollo Beach lab, but the team ranks it as its most important yet.
O’Neil estimates there are only about 300 elkhorn coral left in the Florida Keys Reef Tract — but the spawning experiment produced thousands of baby coral. She expects up to 100 of them could survive into adulthood.
Named for its resemblance to elk antlers, the coral thrives at the top of reefs, typically growing in water depths of less than 20 feet. This makes their colonies crucial for breaking up large waves. During peak hurricane season, reefs are a silent but powerful ally that protects Florida’s coastlines from storm surges, which are growing larger as sea levels rise.
“As these reefs die, they begin to erode away and we lose that coastal protection as well as all of the habitat that these reefs provide for fish and other species,” O’Neil said. “Now there are so few left, there’s just a few scattered colonies. But we’re really focusing on restoring the elkhorn coral population for coastal protection.”
The Florida Aquarium’s news comes after scientists reported in early August that the Great Barrier Reef was showing the largest extent of coral cover in 36 years. But the outlook for coral around the world is grim — studies have shown that the climate crisis could kill all of Earth’s coral reefs by the end of the century.
Elkhorn coral was listed as federally threatened under the US Endangered Species Act in 2006 after scientists found that disease cut the population by 97% since the 1980s. And ocean warming is its largest threat. As ocean temperature rises, coral expels the symbiotic algae that lives inside it and produces nutrients. This is the process of coral bleaching, and it typically ends in death for the coral.
“They’re dying around the world,” O’Neil told CNN. “We are at a point now where they may never be the same. You can’t have the ocean running a fever every summer and not expect there to be impacts.”
Elkhorn coral seem to have something analogous to a fertility problem. Its reproduction is sporadic in the wild, making it difficult to sustain a much-needed increase in population. Because of its low reproductive rate, genetic diversity can also be very low, making them more susceptible to disease.
“You could say they’re successfully having sex, but they’re not successfully making babies [in the wild],” O’Neil said. “Terrestrial animals do this all the time. When you have an endangered panda or chimpanzee, the first thing you do is start a breeding program, but coral reproduction is super weird.”
The most challenging part for O’Neil’s team was doing the unprecedented — getting the coral to spawn in a lab. O’Neil said other researchers doubted they could pull it off.
“We faced a lot of criticism from people,” she said. They would say “‘you can’t keep those in an aquarium. You know that’s impossible!’”
They were right. At first.
Elkhorn coral only spawn once a year. In the lab’s 2021 experiment, the environment was strictly controlled to imitate natural conditions. Using LED lights, they accurately mimicked sunrise, sunset and moon cycles. But the coral didn’t spawn.
We “realized that the timing of moonrise was off by about three hours,” O’Neil said.
After that frustrating failure, the aquarium’s scientists knew they had a much better shot this year. And, with support from the National Oceanic and Atmospheric Administration Restoration Center and the National Fish and Wildlife Foundation, the Florida Aquarium did in August what was thought impossible by some peers.
The spawning could be a game-changer, according to Thomas Frazer, the dean of the College of Marine Science at the University of South Florida, and it could lead to a future where coral is more resilient to the dramatic changes brought by the climate crisis.
“This type of work really matters,” Frazer told CNN. “Corals selected for restoration might, for example, be more resistant to warmer ocean temperatures and bleaching, exhibit skeletal properties that are able to withstand more intense wave energy, or traits that might make them more resistant to disease or other environmental stressors.”
Margeret W. Miller is a coral ecologist who has focused on restoration research for more than two decades. Miller co-authored a study in 2020 that found the elkhorn rate of reproduction in the Upper Florida Keys was so low, it would indicate the species was already “functionally extinct” and could be wiped out in six to 12 years.
Miller said the Florida Aquarium’s breakthrough will open new doors to tackle the larger restoration effort.
“Because this species is an important restoration target, the capacity for spawning under human care opens lots of research opportunities to develop interventions that might make restoration efforts more resilient to climate change and other environmental threats,” Miller told CNN.
Miller said more research needs to be done to make sure lab-spawning elkhorn coral is reasonably safe and effective, to be used in species conservation.
“This sort of captive spawning is not a tool that directly addresses widespread coral restoration at the global scale that would match the scale of the need. Indeed, no current coral restoration efforts meet that scale, and none will truly succeed unless we can take serious action to ensure that coral reef habitats can remain in a viable condition where corals can thrive,” Miller told CNN.
The climate crisis is the ultimate problem that needs to be solved, Miller said. The rapid increase in ocean temperature needs to be addressed, along with threats to water quality. Still, she said, the ability to grow elkhorn in a lab is an important tool in the restoration effort.
“The research on coral propagation and interventions that can be enabled by captive spawning efforts can, however, buy time for us to make such changes effectively before corals disappear from our reefs completely,” Miller said.
Elkhorn branches can grow as much as five inches per year, making it one of the fastest-growing coral species, according to NOAA. And based on observations from the Florida Aquarium scientists, their new elkhorn coral babies will take three to five years to become sexually mature.
Within a year or two, scientists intend to replant these lab-grown corals in the Florida Keys National Marine Sanctuary.
In the race to restore the reefs, scientists agree this breakthrough is only a first step.
“We are really buying time,” O’Neil said. “We’re buying time for the reef. We’re buying time for the corals.”
The ultimate goal is a breeding program where scientists could select for genetic diversity and breed more resilient coral capable of withstanding threats like pollution, warming ocean waters and disease.
Then nature can take the wheel.
“There is hope for coral reefs,” O’Neil said. “Don’t give up hope. It’s all not lost. However, we need to make serious changes in our behavior to save this planet.”
Parts of Australia’s Great Barrier Reef show highest coral cover in 36 years
MELBOURNE/SYDNEY, Aug 4 (Reuters) – Two-thirds of Australia’s Great Barrier Reef showed the largest amount of coral cover in 36 years, but the reef remains vulnerable to increasingly frequent mass bleaching, an official long-term monitoring programme reported on Thursday.
The recovery in the central and northern stretches of the UNESCO world heritage-listed reef contrasted with the southern region, where there was a loss of coral cover due to crown-of-thorns starfish outbreaks, the Australian Institute of Marine Sciences (AIMS) said in its annual report.
“What we’re seeing is that the Great Barrier Reef is still a resilient system. It still maintains that ability to recover from disturbances,” AIMS monitoring programme leader Mike Emslie told Reuters.
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“But the worrying thing is that the frequency of these disturbance events are increasing, particularly the mass coral bleaching events,” he said.
The report comes as UNESCO considers whether to list the Great Barrier Reef as “in danger”, following a visit by UNESCO experts in March. The World Heritage Committee meeting where the fate of the reef was on the agenda was due to be held in Russia in June but was postponed.
Assorted reef fish swim above a staghorn coral colony as it grows on the Great Barrier Reef off the coast of Cairns, Australia October 25, 2019. REUTERS/Lucas Jackson
In a key measure of reef health, AIMS defines hard coral cover of more than 30% as high value, based on its long-term surveys of the reef.
On the northern region, average hard coral cover grew to 36% in 2022 from a low of 13% in 2017, while on the central region hard coral cover increased to 33% from a low of 12% in 2019 – the highest levels recorded for both regions since the institute began monitoring the reef in 1985.
In the southern region, however, which generally has higher hard coral cover than the other two regions, cover fell to 34% in 2022 from 38% a year earlier.
The recovery comes after the fourth mass bleaching in seven years and the first during a La Nina event, which typically brings cooler temperatures. While extensive, the institute said, the bleaching in 2020 and 2022 was not as damaging as in 2016 and 2017.
On the down side, the growth in cover has been driven by Acropora corals, which AIMS said are particularly vulnerable to wave damage, heat stress and crown-of-thorns starfish.
“We’re really in uncharted waters when it comes to the effects of the bleaching and what it means moving forward. But as of today, it’s still a fantastic place,” Emslie said.
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Reporting by Sonali Paul in Melbourne and James Redmayne in Sydney; Editing by Stephen Coates
Our Standards: The Thomson Reuters Trust Principles.
Dolphins use healing properties of coral, study suggests
They were choosy about which type of corals they rubbed against, noticed wildlife biologist Angela Ziltener, a guest researcher at the University of Zurich who spent the next 13 years trying to unravel the perplexing behavior.
The results of her extensive research on the community of 360 dolphins were published on Thursday.
By observing the dolphins and studying the properties of the coral, Ziltener and her colleagues discovered that the dolphins appear to use the reef as a medicine chest: Bioactive compounds in mucus released by two different types of coral and a sea sponge likely help the dolphins protect their skin.
It’s the first time this type of behavior has been witnessed in cetaceans — the scientific order of marine mammals that includes dolphins, whales and porpoises — the study said. However, some birds, mammals, insects and reptiles have previously been observed using plant parts or other substances to combat pathogens or parasites.
Building trust
It took Ziltener years of scuba diving with the local dolphin population to earn their trust. “You have to be kind of adopted by the dolphins. It took time to actually see all their secrets,” she said.
The dolphins only rubbed against a gorgonian coral known as Rumphella aggregata, the leather coral Sarcophyton sp., and the sea sponge Ircinia sp., Ziltener observed. What’s more, they used the organisms in different ways.
With the leather corals and sponges — which are more compact and harder in texture than the soft gorgonian coral branches — the dolphins tended to push an isolated body part in and twist it around, the study found. In contrast, they slid their entire bodies into the gorgonian coral several times, rubbing multiple body parts at once.
The dolphin behavior of rubbing against the gorgonian coral, dubbed gorgoning, and Ziltener’s research were first revealed in 2017 in the BBC documentary “Blue Planet II” and a number of other nature documentaries. However, this is the first time a detailed study of the behavior has been published in a scientific journal.
When in groups, the dolphins often lined up and took turns rubbing against the gorgonian coral. Interacting with the leather coral didn’t appear to be a group activity.
With leather coral, a dolphin would sometimes uproot it from the ground and carry it in its mouth for a few minutes, swinging it around — an action that caused the compounds to leak out of the coral and spread around the dolphin’s head, staining it yellow and green.
Coral samples
Because the reef is protected, the team obtained permission to take small samples — just a centimeter — of the corals and sea sponge used by the dolphins. The study analysis found that these organisms contained 17 bioactive compounds, with different properties, such as antibacterial, antioxidative or hormonal attributes, said coauthor Gertrud Morlock, an analytical chemist and professor of food science at Justus Liebig University Giessen in Germany.
The three different organisms showed similar, and some different, effects, Morlock said.
“In common was that all three had a wealth of antibacterial and antimicrobial activities. And what was special for the leather corral, for example, it contained estrogen-like compounds while not the other two.”
“We were surprised to find that there were so many (compounds),” she said. “We think (the dolphins) very clearly select these substrates, and we have proven they have bioactive compounds and when they rub on this (the coral), their skin is in direct contact with these molecules.”
Skin treatment
The purpose of the behavior is likely to regulate and protect the skin’s microbiome — a bit like how humans might use a skin cream, Morlock explained. She said that the research team didn’t have definitive proof that the dolphins were using the coral as a form of medicine, although dolphins do regularly suffer from fungal infections and skin rashes.
Not every dolphin in the pod rubs against coral. Young calves under 1 year old just watch, Ziltener said. This led the researchers to believe the behavior is learned rather than innate.
“Initially, this behavior could have arisen as a result of a drive or instinct, or just merely by chance. Perhaps, a dolphin with irritated skin rubbed along a random coral that released skin-healing chemicals. The relieved dolphin remembered the behaviors and repeated them, then taught those behaviors to others, as in the case of the Australian bottlenose sponge-wearing population,” said Diana Barrett, a lecturer in the department of biology at the University of Massachusetts Dartmouth, who was not involved in the research.
“This ability to remember the behaviors and their resultant effects, and then repeat those behaviors to treat future skin problems adds (to) the wealth of evidence that dolphins are intelligent,” she said.
Dolphins have long been viewed as highly intelligent animals that are able to communicate and use tools, such as shells, to help them hunt. Ziltener said it’s possible that other marine animals might use corals in this way, but it’s difficult to observe underwater animals systemically.
Ziltener said the dolphins often wake from naps to perform the coral rubbing behavior.
“It’s almost like they are showering, cleaning themselves before they go to sleep or get up for the day,” she said.
A bizarre Martian rock looks just like coral
In 1877, an American astronomer named Percival Lowell looked at Mars and saw something extraordinary: canals, which Lowell thought undoubtedly were a sign of life on the planet. Lowell proceeded to spread the news far and wide, even building an observatory in Arizona for the sole purpose of studying the engineering marvels. After all, if canals exist on Mars, that means some intelligent life forms had to have constructed them.
Of course, Lowell had misinterpreted the images from Mars. The striations he saw on Mars were an artifact, caused by poor optics technology and misinterpretations of actual features on the red planet.
That brings us to the coral-resembling “crystal” recent discovered on Mars.
RELATED: Mars’ weird geology is making Perseverance’s job more complicated
It looks like a flower, or maybe a piece of undersea life. As such, it is easy to see it and think that it might actually be a current or former living thing. NASA’s Curiosity rover captured an image of this mineral deposit, which is just two-fifths of an inch wide. Though shaped like a sea sponge or fungus, the newly-dubbed Blackthorn Salt is comprised of minerals that exist after Martian rocks interacted with water long ago. By definition, this makes the Blackthorn Salt a diagenetic feature, or one that occurs after sediment is turned sedimentary rock. These which can be round or dendritic (branched) like the Blackthorn Salt.
“We’ve seen diagenetic features with similar shapes before,” Dr. Abigail Fraeman, a planetary scientist and deputy project scientist for the Curiosity rover, told Live Science, “but this dendritic shape is particularly beautiful.”
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Curiosity itself is a car-size rover more than six feet tall and with a seven foot arm that stretches toward rocks with the tools NASA scientists need in order to examine them. It can also bring rocks, soil and even air on board and study them directly on the rover itself. Curiosity is currently exploring Gale crater, which is 96 miles wide in diameter and can be found on the southeastern section of the planet. The central peak of Gale is Aeolis Mons, an 18,000 foot mountain. Curiosity is going to explore both that mountain and the nearby region.
Martian geology has surprised scientists before. Last year the scientists behind the Perseverance rover were baffled when they use a drill to extract rock samples and came back empty-handed. Although they could confirm that they had indeed drilled into the rock, they could not figure out why samples had not been collected — until they determined that their drilling had likely caused the rock to crumble into “small fragments.” In other words, they had unintentionally pulverized the very materials they had hoped to study until they became an essentially useless powder.
As for people hoping that the Blackthorn Salt was actually proof of Martian life: Scientists now believe that if life does exist on Mars (or if it did previously), it would almost certainly be microscopic — no land-roving, multicellular Martian dinosaurs.
“I think the first thing to keep in mind in our expectations for life on Mars is that it’s probably microbial,” Dr. Woodward Fischer, a professor of geobiology at Caltech, told Salon last year. While they might have left a fossil record, it will not be as easy to detect as the existence of dinosaurs on Earth. Indeed, two NASA scientists claimed in 1996 that they accidentally found a fossilize microbe while looking through a Martian rock at over 100,000 time magnification. Although their assertion is controversial, it remains the most concrete case for life on Mars ever discovered. The fossilized object had many structures that indicate it came from a once-living microorganism. These include grains formed by pyrite, made from iron and sulfur, and which were nearly pure. The only known way to produce such pure crystals is through the biological processes inside the bodies of bacteria.
“When it comes to microbes, there is a fossil record, but it’s much more subtle and it’s much more nuanced,” Fischer explained, since microbes express their diversity through their metabolism rather than their shape or form. As such, scientists seeking proof that life once existed on Mars are not going to seek out the same things as someone trying to find trilobite fossils. They will instead look for “certain minerals that the environment doesn’t otherwise want to make, but the presence of biology there helps make those minerals,” Fischer told Salon, such as certain iron oxide minerals. They might also look for microscopic preservation of parts of cells themselves” such as little filaments and little rods and balls that would actually reflect their former cells.”
Unfortunately, because the Martian soil is so unpredictable — indeed, so literally alien — it is likely going to present more features like canals and flowers that could be mistaken as proof of life.
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