Tag Archives: Variety

Cockatoos Showcase an Impressive Variety of Dance Moves

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White Cockatoos Display a Natural Inclination to Dance

Andrew Angelov/Alamy

The head nods, side-to-side movements, and body rolls are just a few of the over 30 dance moves showcased by these remarkable cockatoos.

Since gaining online fame in 2009, the sulfur-crested cockatoo (Cacatua galerita) has become an Internet dance sensation. In 2019, Aniruddh Patel from Tufts University and his team revealed that Snowball, a well-known dancing cockatoo, created 14 unique dance moves and even mixed some of them together.

To explore how prevalent this behavior is, Natasha Love and her research team from Charles Sturt University in Australia examined 45 videos of dancing cockatoos shared on social media. They discovered five different species: the sulfur-crested cockatoo (Cacatua alba), the umbrella cockatoo (Cacatua moluccensis), Tanimbar cockatoos (Cacatua goffiniana), and a lesser sulphur-crested cockatoo (Cacatua sanguinea).

The researchers identified 30 distinct dance moves, each performed by at least two birds. Of these, 17 had not been previously documented in scientific literature. Interestingly, closely related species exhibited varying styles in their dance.

Love and her team also conducted experiments on two pink cockatoos (Lophochroa leadbeateri) and two galahs (Eolophus roseicapilla) at the Wagga Wagga Zoo and Aviary in Australia.


They played various music tracks for the birds—such as “Wake Me Up” by Avicii, a financial podcast “She’s On The Money”, and white noise—and observed that the birds engaged in their dance moves regardless of the type of audio played.

This suggests that cockatoos are not merely mimicking human actions. “It’s uncertain why they dance, but it’s plausible they are expressing themselves in playful ways,” says Love.

Many of the observed dance moves correspond to displays seen during wild parrot courtship, indicating that the ability to dance may have roots in mating behavior, according to Love.

Video evidence leads her and her colleagues to conclude that dancing behavior can be found in at least 10 of the 21 known cockatoo species.

“Snowball developed his dance moves without formal instruction, yet it remains unclear how much of these behaviors are influenced by genetic factors. Recent research indicates that the similarity of movements among different parrots’ dances may not be as predictable,” Patel remarks. “These findings are exhilarating as they show that the capacity for flexible and creative dancing to music is not a trait exclusive to humans.”

So, which cockatoo species stands out as the best dancer? “From our zoo observations, Major Mitchell’s cockatoos seemed to display more enthusiasm and energy in their dances compared to other species,” Love notes.

She emphasizes that further studies are necessary to discern whether birds actually enjoy dancing and if encouraging this behavior can enhance the well-being of domesticated parrots.

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Source: www.newscientist.com

New fossil findings show a variety of terrestrial ecosystems 75,000 years post-Endopermian mass extinction

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Searching for the land refugia is essential for human survival during the hypothetical sixth mass extinction. Studying comparable crises in the past can provide insights, but there is no evidence of fossils of diverse giant fluid ecosystems that survived the most severe biological crisis of the past 540 million years. In a new study, paleontologists have investigated plant and tetrapod fossils and various microfossils in the Permian-Triassic Nantaodonggou section in Xinjiang, China. Their fossil records reveal the presence of gymnasium forests and fern fields in a vibrant area, but marine life has experienced mass extinction.

Artistic reconstruction of the end of Permian mass extinctions based on fossil parinomorphs, plants, and tetrapods, and the end of Permian mass extinctions based on sedimentary data from the Southern Jiang section of China's New Jiang. Image credit: DH Yang.

The mass extinction of Permian, which occurred about 252 million years ago, is widely recognized as the most serious of the five major plant zoic extinctions.

This catastrophic event leads to the extinction of about 80% of known species and is a fact that is well supported by marine fossil records.

Some scientists suggest that volcanic eruptions in Siberia caused widespread terrestrial destruction through wildfires, acid rain and toxic gases.

This evidence includes the continuous extinction of properties. Gigantopteris Flora in southern China Grosso Pteris Flora crossing Gondwanaland around the mass extinction of the Endopermians.

However, other scientists argue that these devastating effects are limited by latitude and atmospheric circulation.

Several fossil discoveries suggest that certain Mesozoic plants exist before extinction events, referring to uninterrupted evolution.

Newly discovered fossils from the southern taodonggou section, located in the Tapan Hami Basin in Xinjiang Province, northwestern China, offer a unique perspective.

“We further confirm that the presence of intact tree trunks and fern stems represents local vegetation rather than transported remains,” said Professor Minli Wang, a researcher at the Institute of Geology and Paleontology at the Chinese Academy of Sciences.

Although some plant species have disappeared locally, researchers have found that the overall extinction rate for spores and pollen species is probably only about 21%.

This conclusion is based on the discovery of many “missing” species in the early Triassic formations elsewhere, indicating temporary migration rather than permanent extinction.

This stable vegetation base was essential for the rapid recovery of local ecosystems.

Fossil evidence shows that within just 75,000 years after the extinction ended, the region supported a diverse tetrapod, including herbivorous. lystrosaurus And carnivorous chronicers show that they can quickly return to complex food webs.

This finding contrasts with previous understanding that it took more than a million years for the ecological restoration of the Endopermians to follow the extinction.

New evidence suggests that local ecological diversity in this field has recovered more than 10 times faster than in other regions.

Scientists cited the region's stable, semi-humid climate as essential to its biological resilience. According to a Paleosol Matrix analysis, the area received consistent rainfall of approximately 1,000 mm per year during this period.

Its consistent precipitation has provided southern gu with more abundant vegetation and habitable environment than other regions following the mass extinction of Permians, providing important support for migrating migrant animals.

Despite its proximity to the volcanic activity that caused the extinction of the Endopermians, the Tarpanhami Basin provides safe shelter for terrestrial life, indicating that even seemingly dangerous places can harbor important biodiversity.

“This suggests that local climate and geographical factors create an incredible pocket of resilience and hope for conservation efforts in the face of changes in the global environment,” says Professor Feng Shui of Nanjing Geology Institute, the Chinese Academy of Sciences.

“In light of current concerns about a potential sixth large-scale extinction driven by human activity, this discovery of a “life oasis” underscores the importance of identifying and protecting such natural refsias. ”

study Published in the journal Advances in science.

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Huiping Peng et al. 2025. Refludium in the abandoned indid: Unearthing the lost flora that escaped the mass extinction of Permians. Advances in science 11 (11); doi:10.1126/sciadv.ads5614

Source: www.sci.news

A Study on the Unique Variety of Camellia sinensis Found in the Tea Plant of Hainan Island

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Tea (Camellia sinensis) originated in China more than 3,000 years ago and evolved from a medicinal herb to a widely consumed beverage. Although there is considerable research focusing on tea plants in southwestern China, research on tea plants has received little attention. Hainan Island. Remarkable similarities between Hainanese tea and tea leaves Camellia sinensis variable Asamika Along with the island’s unique geographic and climatic conditions, research on Hainanese tea presents significant challenges. A new study fills this gap by collecting 500 tea tree samples from Hainan and using whole-genome resequencing to examine differences between Hainanese teas and cultivars. Camellia sinensis.

Guo others. A clear taxonomic position of Hainan tea was confirmed. Camellia sinensis providing valuable insights into resource conservation and molecular breeding. Image credit: Lin2015.

Tea is the oldest recorded tree crop in China, with a history of cultivation spanning more than 3,000 years.

Originally used as a medicinal herb with roots dating back approximately 5,000 years, it later evolved into a widely consumed beverage.

Tea plants grown worldwide are divided into two main groups. Camellia sinensis variable sinensis and Camellia sinensis variable Asamika.

Hainan Island, located in the northern part of the South China Sea, has a rich history of tea cultivation and has vast plantation areas.

There were reports that Hainan Island had abundant tea plant resources at the end of the Qing Dynasty.

For example, American missionary and botanist Benjamin Couch Henry discovered significant numbers of wild tea plants during his extensive explorations of the Li region of Hainan province, indicating that the island had an ancient tea plant resource. I have confirmed that it is plentiful.

Since the Yunnan-Guizhou Plateau is widely recognized as a potential geographic origin of tea, most studies on tea population genomics have focused on southwestern China, especially Camellia sinensis variable Asamika Despite the large number of varieties, research on Hainan tea plants remains relatively sparse.

“Our study clarifies the taxonomic position of Hainan tea and highlights the importance of conservation and molecular breeding efforts,” said researcher Dazhong Guo of Yunnan Agricultural University and colleagues.

In this study, the authors analyzed 500 tea plant samples (including those from ancient tea plants) collected from four major tea-producing regions in Hainan province: Ledong, Qiongzhong, Baisha, and Wuzhishan. The genome sequence was analyzed.

They acquired a total of 6.9 terabytes of raw sequencing data, which they filtered and aligned with a reference genome (Yunkang 10), achieving a final average alignment rate of 98.98%.

After variant calling, 32,334,340 single nucleotide polymorphisms (SNPs) were identified, the majority of which were located in intergenic regions and a small number in exonic regions.

Phylogenetic analysis using SNP data revealed that Hainan tea samples formed a distinct cluster separate from the overall tea leaves. Camellia sinensis variable sinensis and Camellia sinensis variable Asamika There is a significant geographic concentration within the Rim Mountain region, but no clear pattern elsewhere.

Population structure analysis further confirmed that Hainan tea exhibits a unique genetic composition compared to global varieties.

Principal component analysis (PCA) supported these findings and showed that Hainan tea is genetically different from other teas. Camellia sinensis variable sinensis and Camellia sinensis variable Asamikabut shares some genetic similarities with their global counterparts. Camellia sinensis variable Asamika.

Moreover, gene flow analysis suggested limited historical movement between Hainan tea and other tea varieties, reinforcing its unique genetic lineage.

Kinship analysis showed that the close genetic relationships observed in certain Hainanese tea samples were influenced by human activities in managed tea plantations.

Genetic diversity analysis revealed that the Hainan Island and Lim Mountains populations had higher levels of diversity compared to other populations. Camellia sinensis variable sinensis and Camellia sinensis variable Asamikathere is minimal genetic differentiation between Hainan tea and Limshan tea.

These results highlight the unique evolutionary trajectory of Hainan tea, provide valuable insights into its genetic background, and provide implications for conservation and breeding strategies.

The genetic uniqueness and high diversity of Hainan tea highlight its potential as a valuable resource for future breeding programs.

“Our research provides a deeper understanding of biological evolution. Camellia sinensis The stage is now set for further studying the genetic basis of Hainan's amazing plants,” the researchers said.

Their paper Published in a magazine agricultural biodiversity.

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Guo Dazhong others. 2024. Genome resequencing reveals genes with unique origins Camellia sinensis Variety – Hainanese tea. agricultural biodiversity 1 (1): 3-12;doi: 10.48130/abd-0024-0003

Source: www.sci.news

Ancient teeth reveal the variety of theropod dinosaurs in East Sussex during prehistoric times

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Several groups of carnivorous dinosaurs – Tyrannosaurus, Spinosaurus, and their members Velociraptor The family crept into the Bexhill-on-Sea region of present-day East Sussex, England, about 135 million years ago (early Cretaceous period), according to new research.

Early Cretaceous floodplain in southeastern England, 135 million years ago. A spinosaur (center) takes over the carcass of an ornithopod, tormenting smaller tyrannosaurs (left) and dromaeosaurs (bottom right). Image credit: Anthony Hutchings.

Dr Chris Barker, a palaeontologist at the University of Southampton, said: “Carnivorous dinosaurs are rare in the Cretaceous deposits of southern England.”

“Normally it is the Isle of Wight dinosaurs that attract our attention. Little is known about the older Cretaceous specimens recovered from mainland sites.”

In this study, Barker and his colleagues examined assemblages of theropod teeth taken from animals. Wadhurst Clay Formationmainly collected from the Ashdown Brickworks area near Bexhill, East Sussex.

Theropod teeth are complex and vary in size, shape, and serrated edge anatomy.

The authors used several techniques to analyze the fossils, including phylogenetic methods, discriminant methods, and machine learning methods.

“Dinosaur teeth are durable fossils and are typically preserved more frequently than bones, so they are often important when you want to rebuild ecosystem diversity,” Dr. Barker said. .

“There are rigorous methods that help identify teeth with high accuracy.”

“Our findings suggest the presence of spinosaurs, medium-sized tyrannosaurs, and small dromaeosaurs. Velociraptor-There are some theropods in these deposits. ”

A theropod tooth excavated from the Wadhurst Clay Formation. Scale bar – 10 mm. Image credit: Barker others., doi: 10.1002/spp2.1604.

The discovery of Tyrannosaurus is particularly noteworthy. This is because this group has not been previously identified in sediments of this age and region.

These tyrannosaurs would have been about one-third the size of their more famous cousins. tyrannosaurus rexand likely hunted small dinosaurs and other reptiles in floodplain habitats.

“Assigning isolated teeth to a group of theropods can be difficult, especially since many traits evolve independently between different lineages,” says Dr. Lucy Handford. Student at York University.

“Therefore, we employed a variety of methods to refine our findings, leading to a more reliable classification.”

“It is very likely that further discoveries will be made by re-evaluating the theropod teeth elsewhere in the museum.”

Dr Darren Naish, a palaeontologist at the University of Southampton, said: 'Southern England has an extremely good record of Cretaceous dinosaurs, and the various sedimentary layers here are among the world's best in terms of geological age and the fossil content they contain. It's also unique.”

“These East Sussex dinosaurs are older, more mysterious, and less well known than the better-known Cretaceous deposits of the Isle of Wight.”

“We've been hoping to find out for decades which groups of theropods lived here, so the new study's conclusions are really interesting.”

of findings appear in the diary paleontology papers.

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Chris T. Barker others. 2024. Theropod dinosaur diversity of Lower Wealden, England: analysis of the tooth-based fauna of the Wadhurst Clay Formation (Lower Cretaceous: Valanginian) through phylogenetic, discriminant, and machine learning methods. paleontology papers 10 (6): e1604;doi: 10.1002/spp2.1604

Source: www.sci.news

Research: Your Showerheads and Toothbrushes Harbor a Wide Variety of Viruses

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Viruses collected in a Northwestern University-led study are bacteriophages — a type of virus that infects and replicates inside of bacteria.

The average American spends 93% of their time in built environments, almost 70% of that is in their place of residence. Human health and well-being are intrinsically tied to the quality of our personal environments and the microbiomes that populate them. offline, the built environment microbiome is seeded, formed, and re-shaped by occupant behavior, cleaning, personal hygiene and food choices, as well as geographic location and variability in infrastructure. Huttelmaier et al. focused on the presence of viruses in household biofilms, specifically in showerheads and on toothbrushes.

“The number of viruses that we found is absolutely wild,” said Northwestern University's Dr. Erica Hartmann.

“We found many viruses that we know very little about and many others that we have never seen before.”

“It's amazing how much untapped biodiversity is all around us. And you don't even have to go far to find it; it's right under our noses.”

In the study, Dr. Hartmann and her colleagues characterized viruses living on 34 toothbrushes and 92 showerheads.

The samples comprised more than 600 different viruses — and no two samples were alike.

“We saw basically no overlap in virus types between showerheads and toothbrushes,” Dr. Hartmann said.

“We also saw very little overlap between any two samples at all.”

“Each showerhead and each toothbrush is like its own little island.”

“It just underscores the incredible diversity of viruses out there.”

While they found few patterns among all the samples, the researchers did notice more mycobacteriophage than other types of phage.

“We could envision taking these mycobacteriophages and using them as a way to clean pathogens out of your plumbing system,” Dr. Hartmann said.

“We want to look at all the functions these viruses might have and figure out how we can use them.”

The authors caution people not to fret about the invisible wildlife living within our bathrooms.

Instead of grabbing for bleach, people can soak their showerheads in vinegar to remove calcium buildup or simply wash them with plain soap and water.

“And people should regularly replace toothbrush heads,” Dr. Hartmann said.

“I'm also not a fan of antimicrobial toothbrushes, which can lead to antibiotic-resistant bugs.”

“Microbes are everywhere, and the vast majority of them will not make us sick.”

“The more you attack them with disinfectants, the more they are likely to develop resistance or become more difficult to treat. We should all just embrace them.”

The study was published online in the journal Frontiers in Microbiomes.

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Stefanie Huttelmaier et al. 2024. Phage communities in household-related biofilms correlate with bacterial hosts. Front.Microbiomes 3; doi: 10.3389/frmbi.2024.1396560

Source: www.sci.news

Biologists find a variety of bacterial communities in microwave ovens

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Microwave ovens have become an essential part of the modern kitchen, yet their potential as a reservoir for bacterial colonization and the microbial composition within them remain largely unknown. In a new study, microbiologists from the University of Valencia and Darwin Bioprospecting Excellence SL investigated the bacterial communities within microwave ovens and compared the microbial composition of domestic microwave ovens, microwaves used in large shared spaces, and laboratory microwaves. The bacterial populations in microwave ovens were dominated by Proteobacteria, Firmicutes, Actinobacteria, and Bacteroidetes, similar to the bacterial composition of human skin. Comparison with other environments revealed that the bacterial composition of domestic microwave ovens was similar to that of kitchen surfaces, while laboratory microwave ovens contained a higher proportion of species known to tolerate microwave radiation, high temperatures, and dryness.

Iglesias othersMicrowaves were shown to harbor specialized communities of locally adapted microbial genera similar to those reported on kitchen surfaces and solar panels, environments with extremely high radiation exposure.

Microorganisms thriving in ecosystems characterized by extreme environmental conditions have been well studied to elucidate the evolutionary mechanisms that favor their adaptation.

Natural extreme environments are an excellent source of new microbial species as well as new secondary metabolites for biotechnological applications, but we don’t have to go very far to find them.

Microwave irradiation has been used for decades to reduce the presence of microorganisms in foods and to extend the shelf life of foods.

The application of electromagnetic waves in the range of 300 MHz to 300 GHz to a dielectric medium such as food (also known as microwave heating) produces heat that reaches a lethal temperature that inactivates most microorganisms. E. coli, Enterococcus faecalis, Clostridium perfringens, Staphylococcus aureus, Salmonella and Listeria Genus

Recent studies have shown that cellular inactivation is associated with inactivation of genes controlling oxidation, DNA damage, increased permeability, and reduced cell membrane integrity.

Despite this extensive characterization of the biological effects of microwave radiation on foodborne pathogens, there have been no reports of microwaves being a microbial niche, an environment in which a specifically adapted microbiota can form through specific selective pressures (in this case heat shock, microwave radiation, and desiccation).

“Our results reveal that domestic microwaves harbor a more 'humanised' microbiome, similar to kitchen surfaces, while laboratory microwaves harbour bacteria that are more resistant to radiation,” said Dr Daniel Trent, Darwin Bioprospecting Excellence SL researcher.

For the study, Dr Trent and his colleagues sampled microorganisms from inside 30 microwaves: 10 from household kitchens, 10 from shared household spaces such as corporate centers, science labs and cafeterias, and 10 from molecular biology and microbiology laboratories.

The aim of this sampling plan was to determine whether these microbial populations were influenced by interactions with food and by user habits.

They used two complementary methods to explore microbial diversity: next-generation sequencing and culturing 101 strains in five different media.

In total, the authors found 747 different genera within 25 bacterial phyla. The most frequently encountered phyla were Firmicutes, Actinobacteria, and especially Proteobacteria.

The researchers found that the composition of the general microbial community partially overlapped between shared and domestic microwave ovens, but was quite different in laboratory microwave ovens.

Diversity was lowest in home microwaves and highest in laboratory microwaves.

Members of the genus Acinetobacter, Bhargavaea, Brevibacterium, Brevundimonas, Dermatococcus, Klebsiella, Pantoea, Pseudoxanthomonas and Rhizobium It has only been found in domestic microwave ovens.

Arthrobacter, Enterobacter, Yanibacter, Methylobacterium, Neobacillus, Nocardioides, Novosphingobium, Paenibacillus, Peribacillus, Planococcus, Russia, Sporosarcinaand Teribacillus This was only seen in items shared within the household.

Nonomura The bacteria was isolated only from laboratory microwaves. Delftia, Micrococcus, Deinococcus Unidentified genera of the phylum Cyanobacteria were also common and were found at a significantly higher frequency than in Japan.

The researchers also compared the observed diversity with the diversity of specialized habitats reported in the literature.

As expected, the microbiome inside the microwave was similar to that present on typical kitchen surfaces.

“Some genera found in domestic microwave ovens include Klebsiella, Enterococcus and Aeromonaswhich could pose a health risk to humans,” Dr Trent said.

“However, it is important to note that the microorganisms living in microwave ovens do not pose any unique or increased risk compared to other common kitchen surfaces.”

But it also had similarities to the microbiome in industrial environments, namely on solar panels.

The scientists proposed that the constant heat shock, electromagnetic radiation and desiccation in this highly radioactive environment repeatedly selected for more resistant microorganisms, just as occurs in microwave ovens.

“We encourage both the public and laboratory personnel to regularly disinfect their microwave ovens with a diluted bleach solution or a commercially available disinfectant spray,” Dr. Trent said.

“In addition, it's important to wipe down interior surfaces with a damp cloth after each use to remove any residue and wipe up any spills immediately to prevent bacterial growth.”

of result Published in the journal The cutting edge of microbiology.

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Alba Iglesias others2024. The microwave bacteriome: biodiversity in domestic and laboratory microwave ovens. Front. Microbiol 15;doi: 10.3389/fmicb.2024.1395751

Source: www.sci.news