Tag Archives: Relatives

The Tree-Dwelling Relatives of Tuatala: Inhabitants of the Solnhoven Islands 145 Million Years Ago.

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Solnhofen Archipelago refers to a collection of islands that thrived during the late Jurassic era in present-day Bavaria, Germany.

Life expressions of Sphenodraco scandentis in the ancient environment of the Solnhofen Archipelago. Image credit: Gabriel Ugueto.

The newly identified species Sphenodraco scandentis belongs to the earliest known clade of its sister group (lizards, snakes, and worm lizards), namely Rhynchocephalia.

Currently, this group is epitomized by a solitary extant species, the Tuatara (Sphenodon punctatus), although Rhynchocephalians were once as prevalent as modern lizards.

The fossil specimen of Sphenodraco scandentis is separated into two main slabs, as documented in literature, with previous assignments to Homoeosaurus maximiliani, along with a counterslab containing the majority of its skeletal remains.

These two segments were sold individually to museums in Frankfurt and London nearly a century ago.

“The breakthrough occurred while I was examining fossil reptiles at the Museum of Natural History in London,” remarked PhD candidate Victor Beccali from the Paleontology Museum in Munich.

“I observed a striking resemblance between the fossils in the museum’s collection and those I studied at the Senckenberg Museum of Natural History in Frankfurt.”

“It was revealed that they were not merely similar; they were two halves of the same fossil, likely split in the 1930s for a greater profit.”

Holotype of Sphenodraco scandentis. Left: Main slab featuring bone fragments and skeletal traces. Right: Counterslab showcasing most remains of the skeleton. Image credit: Beccali et al. , doi: 10.1093/zoolinnean/zlaf073.

According to Beccari and colleagues, comparisons with modern lizards, including the Tuatara, indicate that Sphenodraco scandentis shared elongated limbs, toes, and compact bodies, suggesting these creatures may have inhabited the treetops of Jurassic forests.

“The deeper I delve into the historical study of these animals, the more I realize that species definitions are not always straightforward,” stated Beccali.

“Today’s islands host hundreds of reptilian species, so it’s plausible that ancient islands did too.”

“This research highlights the vital role that museum collections play in enhancing our understanding of ancient biodiversity.”

“Many of these fossils were unearthed nearly two centuries ago, yet they still hold significant insights to offer.”

“The Solnhofen region provides pristine, complete skeletons for many Rhynchocephalians, though their skulls may be crushed or some skeletons remain embedded in rock,” explained Dr. Mark Jones, curator of Fossil Reptiles and Amphibians at the Museum of Natural History in London.

“Until recently, this meant that Solnhofen’s specimens weren’t contributing to our understanding as much as they should have.”

“Utilizing micro-X-ray CT, and in this case, UV imaging, has helped clarify anatomical features.”

“This recent study underscores the necessity of investigating all available samples.”

The study was published on July 2, 2025, in The Linnean Society’s Journal of Zoology.

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Victor Beccali et al. 2025. The importance of the appendix skeleton for tumors in the tree-bark thoracic cube and scaly pidosaurs from the late Jurassic in Germany. The Linnean Society’s Journal of Zoology 204 (3): ZLAF073; doi: 10.1093/zoolinnean/zlaf073

Source: www.sci.news

New Research Reveals Asian Elephants Have Larger Brains Than Their African Relatives

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Elephants are fascinating creatures. Despite their allure, our understanding of the elephant brain remains limited, and there are notable neuroanatomical differences between the Asian (Elephas Maximus) and African elephants (Loxodonta africana), which have largely gone unexplored. In a recent study, researchers from Humboldt Universität in Berlin and the Leibniz Institute for Zoo and Wildlife Research collected numerous elephant brains to investigate the macroanatomical features that differentiate the species. Surprisingly, they found that Asian elephants possess a larger brain and greater grey matter volume than African elephants, an intriguing contrast given the smaller body size of Asian elephants.

Asian elephant in Myanmar. Image credit: John Jackson.

“The morphological distinctions among elephant species are well-documented,” stated Dr. Marav Schah from Humboldt Universität Berlin and his colleagues.

“For instance, African savanna elephants are larger and have bigger ears than their Asian counterparts.”

“It is also noted that only female African elephants grow larger tusks compared to the minimal tusks found in Asian females.”

“These disparities indicate significant genetic divergence between savanna elephants in Asia and Africa, believed to have arisen 50,000 to 8 million years ago.”

In this research, the team examined the brain weights and structures of both Asian and African elephants via dissections, existing literature, and MRI scans from wildlife and zoo animals.

The findings revealed that adult Asian elephants are significantly heavier than their African counterparts, whose brains average just over 4,400 grams.

This specific finding could not be definitively validated for male elephants, as data for the brain weights in Asian males is limited.

However, the cerebellum appears proportionately heavier in African elephants (22% of total brain body weight) compared to Asian elephants (19%).

Researchers also demonstrated that elephants undergo extensive postnatal brain growth.

By adulthood, an elephant’s brain is roughly three times heavier than at birth.

This indicates that elephants experience notably more brain growth than all primates; except for humans, where the brain weighs only about one-fifth of its final weight at birth.

A boy African elephant in Kenya. Image credit: George Wittemyer.

“The variance in brain weight is likely the most significant difference among these two elephant species,” Dr. Shah noted.

“This accounts for the behavioral variations observed between elephants in Asia and Africa.”

“For instance, the two species display markedly different interactions with humans.”

“Asian elephants have been partially domesticated for millennia and serve as working animals across various cultures and regions.”

“Conversely, only a handful of cases of partial domestication have been somewhat successful with African elephants.”

“It is considerably harder to integrate an African elephant into human society compared to an Asian elephant.”

The study was published today in the journal pnas nexus.

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Marav Shah et al. 2025. The larger and relatively small cerebellum of Asian elephants compared to the African savanna elephants. pnas nexus 4(5): PGAF141; doi: 10.1093/pnasnexus/pgaf141

Source: www.sci.news

Increased Cancer Risk in Relatives of Men with Infertility

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The study looked at men who produced less than 1.5 million sperm per milliliter of semen, which is considered to produce very few or no sperm.

Joshua Resnick/Shutterstock

Relatives of men who have infertility problems may be at increased risk of cancer, and the odds vary widely from family to family.

Research suggests that certain relatives within three generations of such men are more likely to develop a variety of cancers, including cancers that affect the colon, testicles, and uterus. However, the risk varies by family lineage and whether the man is infertile or subfertile.

Male infertility has been linked to multiple health problems; cardiovascular diseases etc.. Previous research has also pointed out the following: Association between male infertility and increased cancer risk in relatives of such men.

Joey Ramsay Researchers at the University of Utah in Salt Lake City suspected this might vary from family to family. To find out, they analyzed the sperm counts of 360 men who produced fewer than 1.5 million sperm per milliliter of semen and 426 men who produced no sperm at all. These men were matched in age to more than 5,600 of his others with whom he had at least one biological child. Researchers do not know whether any of the participants were transgender.

Next, they obtained information on cancer diagnoses in the men's first-, second-, and third-degree relatives from Utah's database.

The research team found that relatives of men with low sperm counts within three generations were more likely to develop colon and testicular cancer compared to the general population, and some of those related to men with low sperm counts They discovered there was a high chance of developing sarcoma, Hodgkin said. Lymphoma, cancer of the uterus and thyroid. Both of these groups had much higher rates of bone and joint cancer than the general population.

The researchers then used specially developed software to determine the increased risk of cancer combinations in 34 body regions within different families (both fertile and infertile groups). We have detected a tendency to This resulted in “clustering” that allowed trends within families to be detected.

Two-thirds of male relatives who did not have sperm were at no higher risk of cancer than the general population. However, other families showed a significantly increased risk of various types of cancer, and that risk varied by family lineage, with higher risks for childhood, adolescent, and young adult cancers. There were people too.

Relatives of men with low sperm counts all had an increased risk of at least one type of cancer compared to the general population, but the degree of risk and type of condition varied.

It is unclear why this increased risk occurs, but it may be due to genetic factors or common environmental exposures among relatives. It is hoped that further research will investigate this and lead to tests that identify families at higher risk, Ramsay said.

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Source: www.newscientist.com