Tag Archives: Possessed

New research suggests early mammals possessed dark, dim greyish brown fur

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Fur colours, which serve many functions, are essential for the evolution of mammal behavior, physiology and habitat preferences. However, little is known about the colour of Mesozoic mammals that co-evolved with dinosaurs. In a new study, scientists from China, Belgium, the Netherlands, the UK and the US used the dataset Melanosome (Melanin-Containing Organelle) We quantitatively measured the morphology and quantitatively measured hair colours of 116 live mammals to reconstruct the colours of six Mesozoic mammals, including the species Yuhalamiidan mammals that were not previously described.

Reconstructing the life of Shenshou Luian extinct squirrel-like euhalamidian species from the Jurassic region of central China. Image credit: Tamuranobu, http://spinops.blogspot.com.

From communication to camouflage, animal colour plays an important role in many behavioral ecological functions.

Some animals exhibit distinct and vivid arrangements like birds, but mammalian fur is generally limited to muted tones due to their dependence on the single pigment melanin.

Mammals lack palettes, but have evolved a diverse and distinctive coat pattern.

However, due to lack of data on pigmentation in extinct mammals, the evolutionary history of hairy colour is not well understood.

Recent studies have shown that melanosomes, which cause pigmentation, can be preserved in fossilized specimens.

A similar technique has successfully reconstructed the colours of dinosaurs, but despite well-preserved fur specimens, it has not been widely applied to fossil mammals.

In the new study, Dr. Ruoshuang Li, a colleague of the Chinese University of Earth Sciences and colleague, analyzed melanosomes in 116 living mammals and created a predictive model to reconstruct the hairy colour based on melanosome morphology.

The authors applied the model to six Mesozoic mammalian forms of fossilized melanosomes, including the newly described euhalamyidan species that lived 158.5 million years ago (Late Jurassic Epoch).

The authors found that the fur of these early mammals was primarily and uniformly dark in colour, with no stripes and spots that adorn many modern mammals.

This suggests that despite evolutionary differences in phylogenetics and ecology, the early mammalian melanin colored systems remained little different.

This is in stark contrast to the diverse melanosome structures found in feathered dinosaurs, early birds and pterosaurs, indicating a distinct evolutionary pattern of mammalian colour.

“The typical modern nocturne mammals, such as the dark, uniformly dull fur found in these species – moles, mice, rats and nocturne bats, support the previous hypothesis that early mammals are also largely nocturne and colored for camouflage,” the researchers said.

“In addition, the high melanin content of the fur may have been beneficial in providing mechanical strength for thermoregulation and protection.”

“Following the Cretaceous – Fat extinction event, mammals rapidly diversified into niches previously occupied by dinosaurs, leading to more diverse melanosome structures and new perage colour strategies that are more suited to a more diverse environment.”

Survey results It was published in the journal today Science.

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rushuang li et al. 2025. Mesozoic mammalian forms illuminate the origin of the colour of the hair. Science 387 (6739): 1193-1198; doi: 10.1126/science.ads9734

Source: www.sci.news

The Cretaceous period larvae possessed advanced eyes

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Paleontologists have discovered three racewing larvae in Myanmar's 100 million Kachin amber with large forward trunks (the eyes of Holometabolan). These specimens show highly developed, simple eye convergent evolution of at least two additional lines, indicating the enormous diversity of Cretaceous larvae.

A larva from Kachin Amber, 100 million years ago. Image credit: Haug et al. , doi: 10.1111/1744-7917.13509.

Adult insects are known for their fascinating and complicated eyes. This allows you to achieve amazing sensory feats when performing functions such as food and peers search.

However, in many insect larvae, these eyes are not yet developed. The simple eyes known as the stem are usually sufficient for these larvae. Often, it is a machine that is mostly eating at this stage.

However, some insect larvae are predators, and a few of these have developed highly efficient imaging systems from simple stems.

“The adults and pups of beetles, bees, flies, butterflies and close relative insects also have complex eyes that are present in some larvae,” says Dr. Carolin Haug, researcher at Ludwig-Maximilians-Universität München.

“In contrast, most holometaboran larvae have a small group of up to seven simple eyes, known as stems, on either side of the head.”

“The trunk is inherent to holometaborane, usually a simple structure, often slightly radial oriented, creating a wide field of view.”

“However, the fields of the right and left trunks rarely overlap, but denies binocular vision in the larvae.”

“And more, most stems lack the complex internal structures needed to create images.”

“In contrast, several predatory holometaboran larvae evolved anteriorly directed stems, which were expanded with overlapping fields of vision that promote binocular vision.”

“Examples include the larvae of diving beetles known as water tigers, tiger beetles, anthraion and the Whirlgihi beetle.”

“The trunk has been reported in over 120 fossil larvae, but no imaging eyes have been identified that allow binocular vision.”

In a new study, the authors discovered three predatory larvae with unusually large and positive trunks in the Cretaceous Cachin Amber.

They found that the size and orientation of the larvae eyes are comparable to the size and orientation of modern anthraions, allowing for similar optical resolution.

“This is evidence of the first fossils of such an eye and therefore the oldest,” Dr. Haug said.

“The highly refined, simple eyes of predatory larvae evolved with a further double convergence, not just anti-, water tigers and tiger beetles, but also at least among extinct larvae.”

“Our results reveal greater diversity in morphology, ecology, and feeding strategies among Cretaceous larvae than today.”

Survey results Published in the journal Insect Science.

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Karolyn Haug et al. Cretaceous horny larvae with binocular vision show convergent evolution of refined, simple eyes. Insect SciencePublished online on February 18th, 2025. doi:10.1111/1744-7917.13509

Source: www.sci.news

Newly discovered fossils show that trilobites possessed five pairs of head appendages

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Based on multiple analytical techniques applied to two well-preserved soft-bodied specimens of trilobites, the Late Ordovician species Triarturus Eatonii and Middle Cambrian species Polygonum gracilis, paleontologists claim that there was an additional pair of cephalopods just behind the antennae, indicating that the trilobite had five pairs of cephalopods and six segments.

Triarturus Eatonii Image credit: Jin-bo Hou and Melanie J. Hopkins, doi: 10.1111/pala.12723.

Trilobites are extinct arthropods that dominated the marine fauna of the Paleozoic Era.

During their lifetime on Earth, which lasted much longer than the dinosaurs, they survived two major extinctions and dominated undersea ecosystems.

They appeared in the ancient oceans of the Early Cambrian period about 540 million years ago, long before life appeared on land, and disappeared during the mass extinction at the end of the Permian period about 252 million years ago.

They are incredibly diverse, with around 20,000 species, and fossils of their exoskeletons have been found all over the world.

Like other arthropods, trilobites have a body made up of many segments and a head made up of several fused segments.

Like the rest of the trilobite’s body (the thorax and tail), these segments are associated with appendages whose functions range from sensing to feeding to locomotion.

“The number of these segments and how it relates to other important features, such as eyes and legs, is important for understanding how arthropods relate to each other and how they evolved,” said Dr. Melanie Hopkins, curator and head of the Department of Palaeontology at the American Museum of Natural History.

The segments on a trilobite’s head can be counted in two different ways: by looking at the grooves (called sulci) on the top of the trilobite fossil’s hard exoskeleton, and by counting the pairs of antennae and legs preserved on the underside of the fossil.

However, trilobites’ soft appendages are rarely preserved, and when looking at trilobite head segments, researchers frequently find a mismatch between these two methods.

In the new study, Dr. Hopkins and Dr. Hou Jinbo of Nanjing University studied Triarturus Eatonii.

These fossils are known for their golden glow from well-preserved pyrite replacements, and show that there are additional, previously undescribed legs beneath the head.

“This incredible preservation method allows us to view the 3D appendages of hundreds of specimens directly from the ventral side of the animals, just like grabbing an appendage from a horseshoe crab on the beach and turning it upside down to view it,” Dr. Hou said.

Exceptionally well preserved compared to other trilobite species, Polygonum gracilis based on the fossil, which was discovered in the Burgess Shale of British Columbia, the authors propose a model for how the appendages may have been attached to the head in relation to grooves in the exoskeleton.

“This model resolves apparent inconsistencies and shows that the trilobite head contained six segments: the anterior segment associated with the origin of eye development, and five additional segments each associated with a pair of antennae and four pairs of walking legs,” the researchers explained.

Their paper published in the journal Paleontology.

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Jin-bo Hou & Melanie J. Hopkins. 2024. New evidence for five cephalopods in trilobites and its implications for trilobite head segmentation. Paleontology 67(5):e12723; doi:10.1111/pala.12723

Source: www.sci.news

Miocene giraffe species possessed double sets of antlers

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Pakistani paleontologists have uncovered a new genus and species of a prehistoric relative of the giraffe from the Miocene period.

Reconstruction of an ancient giraffe. Image by Apokryltaros / CC BY 3.0.

Blamiscus Micro It lived in what is now northern Pakistan about 9 million years ago (Miocene epoch).

This prehistoric species Giraffeare a large family of ruminant, artiodactyla mammals that share a common ancestor with deer and bovids and that include modern-day giraffes and okapis.

Blamiscus Micro Probably two pairs Bone horn (horn-like protrusions) on its head.

Blamiscus Micro “This giraffe probably possessed two pairs of antlers that differed in size, orientation and ornamentation from those of other early and middle Miocene giraffids and giraffiniformes,” Dr Maria Rios from the New University of Lisbon and her colleagues wrote in the paper.

Skull, teeth, and remains after the skull Blamiscus Micro The fossils were discovered at the Dok bun Amir Khatun (Chinji Formation) fossil site in Chakwal district, Punjab province, Pakistan. Additional fossils were identified from the Hasvard Siwaliks collection.

“Early Miocene giraffids are less diverse and abundant than their Late Miocene counterparts, with most of the evidence coming from the Chinji Formation of Pakistan,” the paleontologists write.

“Giraffidae remains have also been found in the Kalodir, Ropelot and Mol Olot Hills of the Losidok Formation of West Turkana, Kenya, on Rusinga Island in the Hiwegi Formation of Kenya, and at Gebel Zelten in Libya.”

“The genera known from the Early Miocene are Progirafa and Canthomerix” they added.

“By the Middle Miocene, several more species (e.g. Ginger-leaf lily, giraffe) Adaptive radiation then occurred, with several more giraffidae species occurring in the Chinji Formation of Pakistan, Fort Ternan in Kenya, and on the island of Chios in Greece, with many more species found in Africa and the Middle East.

Blamiscus Micro It coexisted simultaneously with other giraffes. Progirafa exigua, Ginger-leaf lily, giraffe, giraffeand other species yet to be named.

“Our specimen is the oldest record of a giraffe with true bony horns in the Indian subcontinent,” the researchers concluded.

their paper Published online in the journal Paleoniologia Electronica.

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Maria Rios others2024. New Kirin Blamiscus Micro A new genus and species (Ruminant, Giraffidae) discovered from the Miocene of northern Pakistan. Paleoniologia Electronica 27(2):a29; Source: 10.26879/1243

Source: www.sci.news

Australian pterosaurs possessed large tongues for consuming prey.

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Illustration of the newly identified species, Haliskia petersenii

Gabriel Ugueto

A 100-million-year-old pterosaur fossil discovered in Australia may have had the largest, most muscular tongue of its kind.

The fossil was discovered in 2021 by Kevin Pietersen, curator at Kronosaurus Corner, a museum near the Queensland outback town of Richmond.

Typically, with a pterosaur, a flying reptile that lived on Earth at the same time as the dinosaurs, you’d find just one bone, Petersen said. “But as we started digging, we started finding more and more bones, and we realized we had to work very carefully,” he said.

Nearly a quarter of the skeleton has been recovered, making it the most complete pterosaur yet discovered by Australian scientists.

The entire lower jaw, part of the upper jaw, vertebrae, ribs, leg and foot bones were preserved, but most surprising was the preservation of an extremely delicate throat bone, just a few millimetres in diameter, which Petersen says reminded him of spaghetti.

Lead team Adele Pentland Researchers from Curtin University in Perth identified the fossil as belonging to an entirely new genus and species of pterosaur in the Anhangeria family, which are found around the world. The creature had an estimated wingspan of 4.6 metres. In Petersen’s honour, the fossil has been named “Anhangeria”. Haliskia petersenii.

Though it wasn’t related to any bird, Petersen said it would have looked a bit like a giant pelican, but Pentland said it would have been a “devil pelican” because of its mouth full of sharp teeth.

What sets it up H. Petersenyi What sets this dinosaur apart from other known pterosaurs is that it had much larger throat bones, indicating it had a huge, muscular tongue, Pentland said.

The team believes that the tongue was used to capture and hold prey, possibly slippery animals such as squid or fish. Once the prey was grasped in the jaws, H. Petersenyi Pentland says the dinosaur’s teeth would have closed like a zipper or cage, preventing escape.

Like pelicans, it likely swallowed its prey whole, she says, and its tongue would have also been used to shove the food down its throat.

In the Cretaceous H. Petersenyi At the time, what is now inland Queensland was covered by sea, which served as hunting grounds for pterosaurs.

“It’s truly breathtaking to look at the remains of these fossil animals and imagine the wealth of life that must have been there at that time and how different it must have been to what we see in outback Queensland today,” Pentland says.

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Source: www.newscientist.com