Sunday, June 02, 2024

FOSSILS

Origins of Welsh dragons finally exposed by experts

UNIVERSITY OF BRISTOL

Fig 1 — IMAGE:
ARTIST’S DEPICTION OF A BRITISH ARCHIPELAGO DURING THE TRIASSIC
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CREDIT: GABRIEL UGUETO

A large fossil discovery has helped shed light on the history of dinosaurs in Wales.

Until recently, the land of the dragon didn’t have any dinosaurs. However, in the last ten years, several dinosaurs have been reported, but their life conditions were not well known. In a new study by a team from the University of Bristol and published in Proceedings of the Geologists’ Association, important details have been revealed for the first time.

They found that early Welsh dinosaurs from over 200 million year ago lived on a tropical lowland beside the sea. Dinosaur trackways are known from Barry and other sites nearby, showing that dinosaurs had walked across the warm lowlands.

The discovery was made at Lavernock Point, close to Cardiff and Penarth, where the cliffs of dark-coloured shales and limestones document ancient shallow seas. At several levels, there are accumulations of bones, including the remains of fish, sharks, marine reptiles and occasionally, dinosaurs.

Former student of the Bristol MSc in Palaeobiology Owain Evans led the study. He explained: “The bone bed paints the picture of a tropical archipelago, which was subjected to frequent storms, that washed material from around the surrounding area, both in land and out at sea, into a tidal zone. This means that from just one fossil horizon, we can reconstruct a complex ecological system, with a diverse array of marine reptiles like ichthyosaurs, plesiosaurs and placodonts in the water, and dinosaurs on land.

“I had visited the coast at Penarth all my life, growing up in Cardiff, but never noticed the fossils. Then, the more I read, the more amazing it became. Local geologists had been collecting bones since the 1870s, and most of these are in the National Museum of Wales in Cardiff.”

Cindy Howells, Curator of Palaeontology at the National Museum of Wales, adds: “The collections from Lavernock go all the way back to the 19th century, with many sections of the bone bed being collected over the years. The presence of dinosaur fossils at the site ensure that it remains one of the most significant localities for palaeontology in Wales.”

Two discoveries made by the team while conducting fieldwork at Lavernock were the fossilized remains of a placodont osteoderm, and a single coelacanth gular bone. Supervisor Dr Chris Duffin said: “The remains of coelacanths and placodonts are relatively rare in the UK, which makes these finds even more remarkable. These two fossils alone help build a broader picture of what the Rhaetian in the UK would have looked like.”

Professor Michael Benton from Bristol’s School of Earth Sciences, another project supervisor, adds: “The volume of dinosaur remains found at Lavernock is extremely exciting, and is a chance to study a complex, and often mysterious period in their evolutionary history. We have identified the remains of a large Plateosaurus like animal, along with several bones which likely belonged to a predatory theropod.”

A significant section of the paper is dedicated to the abundant microfossils found at the site, which include fish teeth, scales and bone fragments. By examining thousands of specimens, the team were able to identify the key species in the shallow seas and work out the relative importance of each.

The origins of the Welsh dragons have been pinned down at last.

The paper

‘Microvertebrates from the basal Rhaetian Bone Bed (Late Triassic) at Lavernock, South Wales’ by Owain Evans, Christopher J. Duffin, Claudia Hildebrandt, and Michael J. Benton, in Proceedings of the Geologists’ Association, doi: 10.1016/j.pgeola.2024.05.001.

Footprint found in Triassic rocks from South Wales
CREDIT
Cindy Howells at the National Museum of Wales

JOURNAL

Proceedings of the Geologists Association

METHOD OF RESEARCH

Observational study

SUBJECT OF RESEARCH

Animals

ARTICLE TITLE

Microvertebrates from the basal Rhaetian Bone Bed (Late Triassic) at Lavernock, South Wales

Musankwa sanyatiensis, a new dinosaur

from Zimbabwe

A new Late Triassic sauropodomorph dinosaur discovered in the Mid-Zambezi Basin, Zimbabwe

Peer-Reviewed Publication

UNIVERSITY OF THE WITWATERSRAND

IMAGE:

CAPTION: MAP SHOWING THE GEOGRAPHIC SETTING OF THE MID-ZAMBEZI BASIN AND SPURWING ISLAND IN NORTHWEST ZIMBABWE

CREDIT: LARA SCISCIO

Fossils found on the shoreline of Lake Kariba in Zimbabwe represent a completely new dinosaur species. This remarkable find, named Musankwa sanyatiensis, marks only the fourth dinosaur species named from Zimbabwe. The research detailing this significant discovery is set to be published in the prestigious journal Acta Palaeontologica Polonica. The study was conducted by an international team of scientists from the University of the Witwatersrand (Wits) in South Africa, the Natural History Museum of Zimbabwe, Stony Brook University in New York and was led by Prof Paul Barrett from the Natural History Museum in London.

The discovery of Musankwa sanyatiensis is particularly significant as it is the first dinosaur to be named from the Mid-Zambezi Basin of northern Zimbabwe in over 50 years. Additionally, it is only the fourth dinosaur to be named from Zimbabwe, following the descriptions of “Syntarsus” rhodesiensis in 1969, Vulcanodon karibaensis in 1972, and, most recently, Mbiresaurus raathi in 2022.

The rocks yielding this new specimen date back to the Late Triassic period, approximately 210 million years ago. Musankwa sanyatiensis is represented by the remains of a single hind leg, including its thigh, shin, and ankle bones. “Despite the limited fossil material, these bones possess unique features that distinguish them from those of other dinosaurs living at the same time,” says Dr Kimberley ‘Kimi’ Chapelle, assistant professor at Stony Brook University and an honorary associate at the Evolutionary Studies Institute at Wits.

The discovery was named Musankwa sanyatiensis after the houseboat "Musankwa”. In the Tonga dialect, "Musankwa" means "boy close to marriage". This vessel served as the research team's home and mobile laboratory during two field expeditions to Lake Kariba in 2017 and 2018. The vessel was made available to the research team through the generosity of David and Julie Glynn, and the crew – Coster Katupu, Godfrey Swalika, Simbarashe Mangoroma, and Never Mapira – who provided essential logistic support.

Evolutionary analysis reveals that Musankwa sanyatiensis was a member of the Sauropodomorpha, a group of bipedal, long-necked dinosaurs that were widespread during the Late Triassic. Interestingly, this dinosaur appears to be closely related to contemporaries in South Africa and Argentina. Weighing in at around 390 kg, the plant-eating Musankwa sanyatiensis was one of the larger dinosaurs of its era.

Africa has a long history of dinosaur discovery, with the first dinosaur in the southern hemisphere found in South Africa just three years after the term "dinosaur" was coined by Sir Richard Owen in 1842. However, most known dinosaur fossils have been found in just 10 countries, particularly in the northern hemisphere, leading to a sparse representation of African dinosaur diversity in the global fossil record. “The main reason for the underrepresentation of African dinosaur fossils is ‘undersampling’,” says Barrett. “Put simply, there have been fewer people looking for and unearthing dinosaurs in comparison with other regions of the world,” he notes.

Despite the fewer discoveries in Africa, many of these fossils are historically and scientifically significant. These include some of the oldest dinosaurs like Nyasasaurus parringtoni from Tanzania and Mbiresaurus raathi from Zimbabwe, as well as rich dinosaur faunas from South Africa, Tanzania, Niger, and Morocco.

The Late Triassic-Early Jurassic sediments of Zimbabwe are crucial for understanding the End-Triassic extinction, a catastrophic event that dramatically reshaped Earth's biodiversity around 200 million years ago. These different layers provide insights into how different fossil-bearing sediments around the world correspond in age and help in piecing together the global picture of prehistoric life.

This new dinosaur species also highlights the untapped potential of the region for further paleontological discoveries. Barrett elaborates: “Over the last six years, many new fossil sites have been recorded in Zimbabwe, yielding a diverse array of prehistoric animals, including the first sub-Saharan mainland African phytosaurs (ancient crocodile-like reptiles), metoposaurid amphibians (giant armoured amphibians), lungfish, and other reptile remains”.

As more fossil sites are explored and excavated, there is hope for uncovering further significant finds that will shed light on the early evolution of dinosaurs and the ecosystems they inhabited. “Based on where it sits on the dinosaur family tree, Musanwka sanyantiensis is the first dinosaur of its kind from Zimbabwe,” Dr Kimi Chapelle excitedly explains. “It, therefore, highlights the potential of the region for further palaeontological discoveries,” she says.

Artist reconstruction of Musankwa sanyatiensis, walking in Triassic shallow waters past a metoposaur.

CREDIT

Atashni Moopen

Musankwa sanyatiensis leg bones as they were discovered in the ground on Spurwing Island, Lake Kariba, Zimbabwe

CREDIT

Paul Barrett

The international team composed of scientists from Zimbabwe, South Africa and the UK at the Musankwa sanyatiensis fossil locality on Spurwing Island, Lake Kariba, Zimbabwe.

CREDIT

Lara Sciscio

The house-boat “Musankwa”, the vessel that acted as the home and mobile laboratory during two field expeditions to Lake Kariba in 2017–2018, which was made available through the generosity of David and Julie Glynn, and whose crew, Coster Katupu, Godfrey Swalika, Simbarashe Mangoroma, and Never Mapira, provided essential logistic support.

CREDIT

Jonah Choiniere

JOURNAL

Acta Palaeontologica Polonica

DOI

10.4202/app.01100.2023

ARTICLE TITLE

A new Late Triassic sauropodomorph dinosaur from the Mid-Zambezi Basin, Zimbabwe

ARTICLE PUBLICATION DATE

30-May-2024

Echidnapus identified from an ‘Age of Monotremes’

Australian researchers have found evidence of the oldest known platypus and a new species, dubbed ‘echidnapus’, which has a platypus-like anatomy alongside features that more closely resemble an echidna

Peer-Reviewed Publication

TAYLOR & FRANCIS GROUP

Age of Monotremes + echidnapus bottom right — IMAGE:
SIX MONOTREMES LIVING IN THE SAME PLACE AT THE SAME TIME, 100 MILLION YEARS AGO AT LIGHTNING RIDGE, NSW. CLOCKWISE FROM LOWER LEFT: OPALIOS SPLENDENS, A NEWLY DESCRIBED SPECIES DUBBED AN ‘ECHIDNAPUS’; STIRTODON ELIZABETHAE, THE LARGEST MONOTREME OF THE TIME; KOLLIKODON RITCHIEI, WITH HOT-CROSS-BUN SHAPED MOLARS; STEROPODON GALMANI, NOW KNOWN FROM ADDITIONAL OPALISED FOSSILS; PARVOPALUS CLYTIEI, THE SMALLEST MONOTREME OF THE TIME; AND DHARRAGARRA AURORA, THE EARLIEST KNOWN SPECIES OF PLATYPUS.
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CREDIT: ILLUSTRATION BY PETER SHOUTEN

Published today in the Alcheringa: An Australasian Journal of Palaeontology, evidence of an ‘Age of Monotremes’ has been unearthed by a team of Australian scientists at the Australian Museum (AM), Museums Victoria and Australian Opal Centre.

The findings were led by two renowned mammalogists, Honorary Associate of the Australian Museum, Professor Tim Flannery; and Professor Kris Helgen, Chief Scientist and Director of the Australian Museum Research Institute (AMRI).

Found in the Lightning Ridge opal fields, NSW, the opalised jaws date back to the Cenomanian Age of the Cretaceous Period, between 102 million to 96.6 million years ago.

Professor Flannery said the research reveals that 100 million years ago, Australia was home to a diversity of monotremes, of which the platypus and the echidna are the only surviving descendants.

“Today, Australia is known as a land of marsupials, but discovering these new fossils is the first indication that Australia was previously home to a diversity of monotremes. It’s like discovering a whole new civilisation,” Professor Flannery said.

Chief Scientist and Director of the Australian Museum Research Institute, Professor Kris Helgen, said the three new species demonstrate combinations of features not previously seen before in other living or fossil monotremes. One of the most striking of the new monotremes, Opalios splendens, retains characteristics of the earliest known monotremes, but also some that foreshadow adaptations in the living monotremes, the echidnas and platypus.

“Opalios splendens sits on a place in the evolutionary tree prior to the evolution of the common ancestor of the monotremes we have today. Its overall anatomy is probably quite like the platypus, but with features of the jaw and snout a bit more like an echidna – you might call it an ‘echidnapus’,” Professor Helgen said.

“The story of how our egg-laying mammals evolved is ‘toothy to toothless’ on the oldest monotreme, Teinolophos trusleri, which dates back to Victoria 130 million years ago. What we see at Lightning Ridge is that by 100 million years ago, some of the monotremes still have five molars but some of them are down to three,” Professor Helgen said.

Professor Flannery highlighted that today, echidnas have no teeth, and platypuses too are essentially toothless.

“Adult platypus have no teeth, though juveniles have rudimentary molars. Just when and why adult platypus lost their teeth after nearly 100 million years is a mystery we think we have solved. It may have been competition with the Australian water rat, which arrived in Australia within the last 2 million years, which caused platypus to seek out softer, slipperier food best processed with the leathery pads that adults use today,” Professor Flannery said.

“What is so unusual about this uniquely Australian story is that in one snapshot we see six different egg-laying mammals living together in Lightning Ridge over 100 million years ago. All of them are holding potential evolutionary destinies that can go off in different directions, and all of them are deep distant ancestors and relatives of the current living monotremes.”

Dr Matthew McCurry, Curator of Palaeontology, Australian Museum, said the discovery of three new genera of monotremes helps to piece together their remarkable evolutionary story.

“There are six species of monotremes, including the three newly described here, within the Cenomanian Lightning Ridge fauna of New South Wales making it the most diverse monotreme assemblage on record. Four species are known from a single specimen, suggesting that diversity remains underrepresented. This discovery adds more than 20 per cent to the previously known diversity of monotremes,” Dr McCurry said.

“We have very few monotreme fossils, and so finding new fossils can tell us more about where they lived, what they looked like and how changes in the environment influenced their evolution. Every significant monotreme fossil currently known fits into this evolutionary story, from Teinolophos, the tiny shrew-like creature in Antarctica 130 million years ago to the present day,” Dr McCurry said.

Co-authors from Museums Victoria Research Institute, Dr Thomas Rich, Senior Curator of Vertebrate Palaeontology, and Honorary Associate Professor Patricia Vickers-Rich AO said these curious, unique and ancient Australian animals still have the power to interest the scientific world.

“The platypus and echidna are iconic Australian species. The discovery of these several new species in one small area suggest that the family tree of the egg laying monotremes is far more complicated than the living platypus and echidna alone suggest,” Dr Thomas Rich said.

“As the fieldwork continues in the Mesozoic of Australia, we continue to increase our understanding of how life changed over time. This, to me, is what makes science so exciting,” Professor Patricia Vickers-Rich AO said.

The fossils were found by Elizabeth Smith and her daughter Clytie of the Australian Opal Centre in Lightning Ridge, who have spent decades working and searching over the opal fields.

“Opal fossils are rare, but opalised monotreme fossils are infinitely more rare, as there’s one monotreme fragment to a million other pieces. We don’t know when, or exactly where, they’ll turn up,” Elizabeth Smith said.

“These specimens are a revelation. They show the world that long before Australia became the land of pouched mammals, marsupials, this was a land of furry egg-layers – monotremes. It seems that 100 million years ago, there were more monotremes at Lightning Ridge than anywhere else on earth, past or present,” Elizabeth said.

PORTRAIT OF PALEONTOLOGIST PROFESSOR KRIS HELGEN HOLDING A TINY TOOTH FRAGMENT DATED AT ONE HUNDRED MILLION YEARS OLD (AND PROJECTED AT SCALE IN BACKGROUND) ON SITE AT THE AUSTRALIAN MUSEUM IN SYDNEY WHERE MUCH OF THE ACADEMIC WORK ABOUT THE FINDING WAS MADE. MAY 22, 2024.

CREDIT

Photograph by James Alcock / Australian Museum

USAGE RESTRICTIONS

JOURNAL

Alcheringa An Australasian Journal of Palaeontology

DOI

10.1080/03115518.2024.2348753

ARTICLE TITLE

A diverse assemblage of monotremes (Monotremata) from the Cenomanian Lightning Ridge fauna, New South Wales, Australia

ARTICLE PUBLICATION DATE

27-May-2024

SPACE

A leap in lunar exploration: HI-13 accelerator enhanced capability to uncovers clues from supernovae in lunar dust

Researchers at the China Institute of Atomic have made significant advancements in the study of cosmic events, such as supernovae that occurred millions of years ago.

NUCLEAR SCIENCE AND TECHNIQUES

The target chamber of the Q3D magnetic spectrograph — IMAGE:
THE TARGET CHAMBER WAS EQUIPPED WITH A COLLIMATOR, A TARGET HOLDER, AND A FARADAY CUP. SI3N4 FOIL DEGRADERS WERE INSTALLED ON THE TARGET HOLDER. THE Q3D MAGNETIC SPECTROGRAPH IS ABLE TO ROTATE AROUND THE TARGET CHAMBER.
RESEARCHERS AT THE CHINA INSTITUTE OF ATOMIC ENERGY (CIAE) HAVE SIGNIFICANTLY ENHANCED THE METHOD OF DETECTING IRON-60 (60FE), A RARE ISOTOPE FOUND IN LUNAR SAMPLES, USING THE HI-13 TANDEM ACCELERATOR. THIS ACHIEVEMENT PAVES THE WAY OF DETECTING 60FE IN LUNAR SAMPLES FOR A DEEPER UNDERSTANDING OF COSMIC EVENTS LIKE SUPERNOVAE THAT OCCURRED MILLIONS OF YEARS AGO. HTTPS://DOI.ORG/10.1007/S41365-024-01453-X
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CREDIT: CREDIT: CHINA INSTITUTE OF ATOMIC ENERGY

Researchers at the China Institute of Atomic Energy (CIAE) have significantly enhanced the method of detecting iron-60 (60Fe), a rare isotope found in lunar samples, using the HI-13 tandem accelerator. This achievement paves the way of detecting 60Fe in lunar samples for a deeper understanding of cosmic events like supernovae that occurred millions of years ago.

Enhanced Detection of 60Fe on the Moon

The study, led by Bing Guo, utilized a refined accelerator mass spectrometry (AMS) technique to detect 60Fe, a rare isotope produced by supernovae and found in samples returned from the Moon. The enhanced AMS system, equipped with a Wien filter, successfully identified 60Fe in simulation samples with sensitivity levels previously unachievable. This finding demonstrates a detection sensitivity better than 4.3 × 10−14 and potentially reaching 2.5 × 10−15 in optimal conditions.

Tackling a Cosmic Challenge

For decades, the challenge of detecting low-abundance isotopes like 60Fe in lunar samples have stumped scientists due to the isotope's scarcity and the presence of interfering elements. The traditional methods fell short in sensitivity. The latest modifications at the CIAE's HI-13 tandem accelerator facility represent a significant step forward. Bing Guo shared, "Our team agreed that the only way to track historical supernovae events accurately was by pushing the boundaries of what our equipment could do. The installation of the Wien filter could be a game-changer for us."

From Lunar Dust to Cosmic Revelations

The findings of this research extend beyond the academic realm, offering insights into the processes that shape our universe. The ability to measure minute quantities of 60Fe on the Moon provides a direct link to studying past supernovae events that have occurred nearby. These discoveries have implications for astrophysics, offering a new lens through which to view the history and evolution of stars.

Looking to the Future: Expanding Lunar Science

Looking ahead, the CIAE research team plans to refine their techniques further to improve the sensitivity of their measurements. Enhancements in ion source and beam transmission efficiencies are expected to push detection capabilities even further. "Our next goal is to optimize our entire AMS system to reach even lower detection limits. Every bit of increased sensitivity opens up a universe of possibilities," explained Guo.

The successful development of this enhanced AMS method contributes to both lunar research and the study of interstellar phenomena. As researchers continue to refine this technology, our understanding of the universe's history grows deeper, proving once again that our journey through the cosmos is far from over.

A Wien filter with a maximum voltage of ±60 kV and a maximum magnetic field of 0.3 T was added after the switching magnet to lower the detection background for the low abundance nuclides.

The cathode holder disk is part of the NEC multi-cathode source of negative ions by cesium sputtering. Cathodes of 60Fe samples and blank samples were installed on the holder disk.

Professor Guo, professor He, and professor Yan, from the Nuclear Analysis Research Center for Lunar Sample at the Department of Nuclear Physics of the China Institute of Atomic Energy, examine experimental results.

CREDIT

Credit: China Institute of Atomic Energy

JOURNAL

Nuclear Science and Techniques

DOI

10.1007/s41365-024-01453-x

METHOD OF RESEARCH

Experimental study

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Stepped-up development of accelerator mass spectrometry method for the detection of 60Fe with the HI-13 tandem accelerator

ARTICLE PUBLICATION DATE

25-May-2024

Cosmic light shows decoded: HKU space scientists unravel the unified framework for diverse aurorae across planets unlocking pathways for better space weather prediction

THE UNIVERSITY OF HONG KONG

IMAGE:
A CONCEPTUAL IMAGE ILLUSTRATING THE DIFFERENT AURORA BETWEEN EARTH AND JUPITER. IMAGE CREDIT: PROFESSOR ZHONGHUA YAO
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CREDIT: THE UNIVERSITY OF HONG KONG

Unravelling the diversity of planetary aurorae

Earth, Saturn and Jupiter all generate their own dipole-like magnetic field, resulting in funnel-canopy-shaped magnetic geometry that leads the space’s energetic electrons to precipitate into polar regions and cause polar auroral emissions. On the other hand, the three planets differ in many aspects, including their magnetic strength, rotating speed, solar wind condition, moon activities, etc. It is unclear how these different conditions are related to the different auroral structures that have been observed on those planets for decades.

Using three-dimensional magnetohydrodynamics calculations, which model the coupled dynamics of electrically conducting fluids and electromagnetic fields, the research team assessed the relative importance of these conditions in controlling the main auroral morphology of a planet. Combining solar wind conditions and planetary rotation, they defined a new parameter that controls the main auroral structure, which for the first time, nicely explains the different auroral structures observed at Earth, Saturn and Jupiter.

Stellar winds’ interaction with planetary magnetic fields is a fundamental process in the universe. The research can be applied to grasp the space environments of Uranus, Neptune, and even exoplanets.

‘Our study has revealed the complex interplay between solar wind and planetary rotation, providing a deeper understanding of aurorae across different planets. These findings will not only enhance our knowledge of the aurorae in our solar system but also be potentially extend to the study of aurorae in exoplanetary systems,’ said Professor Binzheng Zhang, Principal Investigator and the first author of the project.

‘We have learnt that the aurorae at Earth and Jupiter are different since 1979, it is a big surprise that they can be explained by a unified framework,’ added Professor Denis GRODENT, Head of the STAR institute at the University of Liege and co-author of the project.

By advancing our fundamental understanding of how planetary magnetic fields interact with the solar wind to drive auroral displays, this research has important practical applications for monitoring, predicting, and exploring the magnetic environments of the solar system.

This study also represents a significant milestone in understanding auroral patterns across planets that deepened our knowledge of diverse planetary space environments, paving the way for future research into the mesmerising celestial light shows that continue to capture our imagination.

The journal paper ‘A unified framework for global auroral morphologies of different planets’ can be accessed here: https://www.nature.com/articles/s41550-024-02270-3

For media enquiries, please contact Ms Casey To, External Relations Officer (tel: 3917 4948; email: caseyto@hku.hk / Ms Cindy Chan, Assistant Director of Communications of HKU Faculty of Science (tel: 39175286; email: cindycst@hku.hk).

Images download and captions: https://www.scifac.hku.hk/press

JOURNAL

Nature Astronomy

DOI

10.1038/s41550-024-02270-3

METHOD OF RESEARCH

Experimental study

SUBJECT OF RESEARCH

Not applicable

ARTICLE PUBLICATION DATE

30-May-2024

Rethinking the sun’s cycles

New physical model reinforces planetary hypothesis

HELMHOLTZ-ZENTRUM DRESDEN-ROSSENDORF

The sun is currently approaching a maximum activity in the 11-year “Schwabe cycle” again, here a Solar Orbiter image from October 2023. — IMAGE:
THE SUN IS CURRENTLY APPROACHING A MAXIMUM ACTIVITY IN THE 11-YEAR “SCHWABE CYCLE” AGAIN, HERE A SOLAR ORBITER IMAGE FROM OCTOBER 2023.
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CREDIT: ESA & NASA/SOLAR ORBITER/EUI TEAM

Researchers at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) and the University of Latvia have posited the first comprehensive physical explanation for the sun’s various activity cycles. It identifies vortex-shaped currents on the sun, known as Rossby waves, as mediators between the tidal influences of Venus, Earth as well as Jupiter and the sun’s magnetic activity. The researchers thus present a consistent model for solar cycles of different lengths – and another strong argument to support the previously controversial planetary hypothesis. The results have now been published in the journal Solar Physics (DOI: 10.1007/s11207-024-02295-x).

Although the sun, being near to us, is the best researched star, many questions about its physics have not yet been completely answered. These include the rhythmic fluctuations in solar activity. The most famous of these is that, on average, the sun reaches a radiation maximum every eleven years – which experts refer to as the Schwabe cycle. This cycle of activity occurs because the sun's magnetic field changes during this period and eventually reverses polarity. This, in itself, is not unusual for a star – if it weren’t for the fact that the Schwabe cycle is remarkably stable.

The Schwabe cycle is overlaid by other, less obvious fluctuations in activity ranging from a few hundred days to several hundred years, each named after their discoverers. Although there have already been various attempts to explain these cycles and mathematical calculations, there is still no comprehensive physical model.

Planets set the beat

For some years, Dr. Frank Stefani of HZDR’s Institute of Fluid Dynamics has been an advocate of the “planetary hypothesis” because it is clear that the planets’ gravity exerts a tidal effect on the sun, similar to that of the moon on the Earth. This effect is strongest every 11.07 years: whenever the three planets Venus, Earth and Jupiter are aligned with the sun in a particularly striking line, comparable to a spring tide on Earth when there is a new or full moon. This coincides conspicuously with the Schwabe cycle.

The sun’s magnetic field is formed by complex movements of the electrically conducting plasma inside the sun. “You can think of it like a gigantic dynamo. While this solar dynamo generates an approximately 11-year activity cycle in its own right, we think the planets’ influence then intervenes in the workings of this dynamo, repeatedly giving it a little push and thus forcing the unusually stable 11.07-year rhythm on the sun,” Stefani explains.

Several years ago, he and his colleagues discovered strong evidence of a clocked process of this kind in the available observation data. They were also able to correlate various solar cycles with the movement of the planets just using mathematical methods. At first, however, the correlation could not be sufficiently explained physically.

Rossby waves on the sun act as intermediaries

“We have now found the underlying physical mechanism. We know how much energy is required to synchronize the dynamo, and we know that this energy can be transferred to the sun by so-called Rossby waves. The great thing is that we can now not only explain the Schwabe cycle and longer solar cycles but also the shorter Rieger cycles that we hadn’t even considered previously,” says Stefani.

Rossby waves are vortex-shaped currents on the sun similar to the large-scale wave movements in the Earth's atmosphere that control high- and low-pressure systems. The researchers calculated that the tidal forces during the spring tides of two of each of the three planets Venus, Earth and Jupiter had exactly the right properties to activate Rossby waves – an insight with many consequences: first of all, these Rossby waves then achieve sufficiently high speeds to give the solar dynamo the necessary impetus; secondly, this occurs every 118, 193 and 299 days in accordance with the Rieger cycles that have been observed on the sun. And thirdly, all additional solar cycles can be calculated on this basis.

All cycles explained by a single model

This is where mathematics comes in: The superimposition of the three short Rieger cycles automatically produces the prominent 11.07-year Schwabe cycle. And the model even predicts long-term fluctuations of the sun because the movement of the sun around the solar system’s center of gravity causes a so-called beat period of 193 years on the basis of the Schwabe cycle. This corresponds to the order of magnitude of another cycle that has been observed, the Suess-de Vries cycle.

In this context, the researchers discovered an impressive correlation between the 193-year period that had been calculated and periodic fluctuations in climate data. This is another robust argument for the planetary hypothesis because “the sharp Suess-de Vries peak at 193 years can hardly be explained without phase stability in the Schwabe cycle, which is only present in a clocked process,” Stefani estimates.

Does this mean the question as to whether the sun follows the planets’ beat has finally been answered? Stefani says, “We’ll probably only be 100 percent certain when we have more data. But the arguments in favor of a process clocked by the planets are now very strong.”

Publication:
F. Stefani, G. M. Horstmann, M. Klevs, G. Mamatsashvili, T. Weier: Rieger, Schwabe, Suess-de Vries: The Sunny Beats of Resonance, in Solar Physics, 2024 (DOI: 10.1007/s11207-024-02295-x)

Further information:
Dr. Frank Stefani
Institute of Fluid Dynamics at HZDR
Phone: +49 351 260 3069 | Email: f.stefani@hzdr.de

Medienkontakt:
Simon Schmitt | Head
Department of Communications and Media Relations at HZDR
Phone: +49 351 260 3400 | Mob.: +49 175 874 2865 | Email: s.schmitt@hzdr.de

The Helmholtz-Zentrum Dresden-Rossendorf (HZDR) performs – as an independent German research center – research in the fields of energy, health, and matter. We focus on answering the following questions:

How can energy and resources be utilized in an efficient, safe, and sustainable way?
How can malignant tumors be more precisely visualized, characterized, and more effectively treated?
How do matter and materials behave under the influence of strong fields and in smallest dimensions?

To help answer these research questions, HZDR operates large-scale facilities, which are also used by visiting researchers: the Ion Beam Center, the Dresden High Magnetic Field Laboratory and the ELBE Center for High-Power Radiation Sources.
HZDR is a member of the Helmholtz Association and has six sites (Dresden, Freiberg, Görlitz, Grenoble, Leipzig, Schenefeld near Hamburg) with almost 1,500 members of staff, of whom about 670 are scientists, including 220 Ph.D. candidates.

JOURNAL

Solar Physics

DOI

10.1007/s11207-024-02295-x

METHOD OF RESEARCH

Observational study

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Rieger, Schwabe, Suess-de Vries: The Sunny Beats of Resonance

Close to 1 in 2 surveyed say they would use air taxis in the future, finds NTU Singapore study

Intention to use is shaped by factors such as attention to news about air taxis, trust in AI technology, and hedonic motivation

NANYANG TECHNOLOGICAL UNIVERSITY

A study by researchers from Nanyang Technological University, Singapore (NTU Singapore) has found that Singaporeans are open to ride air taxis, which are small autonomous aircraft that carry passengers over short distances.

Through a study of 1,002 participants, the NTU Singapore team found that almost half (45.7 per cent) say they intend to use this mode of transport when it becomes available, with over one-third (36.2 per cent) planning to do so regularly.

According to the findings published online in the journal Technology in Society in April, the intention to take autonomous air taxis is associated with factors such as trust in the AI technology deployed in air taxis, hedonic motivation (the fun or pleasure derived from using technology), performance expectancy (the degree to which users expect that using the system will benefit them), and news media attention (the amount of attention paid to news about air taxis).

Air taxis and autonomous drone services are close to becoming a reality: China’s aviation authority issued its first safety approval certification last year to a Chinese drone maker for trial operations, and in Europe, authorities are working to certify air taxis safe to serve passengers at the Paris Olympics this year.

For Singapore, which is looking to become a base for air taxi companies[1], the study findings could help the sector achieve lift-off, said the research team from NTU’s Wee Kim Wee School of Communication and Information (WKWSCI) led by Professor Shirley Ho.

Professor Ho, who is also NTU’s Associate Vice President for Humanities, Social Sciences & Research Communication, said: “Even though air taxis have yet to be deployed in Singapore, close to half of those surveyed said they would be keen to take air taxis in the future. This signifies a positive step forward for a nascent technology. Our study represents a significant step forward in understanding the factors that influence one’s intention to take air taxis. Insights into the public perception of air taxis will enable policymakers and tech developers to design targeted interventions that encourage air taxi use as they look to build up an air taxi industry in Singapore.”

The study aligns with NTU’s goal of pursuing research aligned with national priorities and with the potential for significant intellectual and societal impact, as articulated in the NTU 2025 five-year strategic plan.

How the study was conducted

To gauge the public perception of air taxis, the NTU WKWSCI team surveyed 1,002 Singaporeans and permanent residents, drawing on a validated model[2] that measures technology acceptance and use and the factors driving this behaviour.

Participants were asked to score on a five-point scale in response to various statements about factors such as their trust in the AI system used in air taxis, their attention to news reports on air taxis, their perceived ease of use and usefulness of air taxis, as well as their attitudes and intention to take air taxis in the future.

The scores for each participant were then tabulated and used in statistical analyses to find out how these factors related to the participant’s intention to take air taxis.

“Generally positive” sentiment about air taxis

Upon tabulating the scores, the researchers found that sentiments around air taxis are generally positive among the participants. Almost half (45.7 per cent) said they intend to use this mode of transport when it becomes available. Close to four in 10 (36.2 per cent) said they plan to do so regularly.

Close to six in 10 (57 per cent) thought taking air taxis would be fun, and 53 per cent said they were excited about taking air taxis.

Six in 10 (60.9 per cent) agreed that taking air taxis would help to get things done more quickly, and 61.2 per cent believed that it would increase productivity.

Half the participants also trusted the competency of the AI technology used in air taxis, and the AI engineers building the technology. Five in 10 (52.9 per cent) agreed that the AI system in air taxis would be competent and effective at helping to transport people

Factors that predict air taxi use

Upon conducting statistical analyses on the survey data, the researchers found that the following factors directly impacted participants’ intention to take air taxis:

news media attention;
trust in the AI system used in air taxis;
attitude towards air taxis;
performance expectancy;
hedonic motivation;
price value;
social influence;
habit (the perception that taking air taxis could become a habit).

These findings suggest that when Singaporeans consider whether they would use autonomous air taxis, not only do they value the practical aspects of the technology, but also how much they can trust the AI system, said NTU WKWSCI’s PhD student Justin Cheung, a co-author of the study.

Surprisingly, habit was the most robust predictor of people’s intention to use air taxis, despite the relatively smaller number of participants who agreed that taking the vehicles would become a habit for them, he said. This suggests that while the user base for autonomous passenger drones may be small, it could be a loyal one, he added.

Another robust predictor of use intention was attention to news media. In addition, the researchers found that news media attention could shape intentions to use air taxis and attitudes towards them by influencing trust in the AI systems, as well as the engineers who develop the AI systems behind air taxis.

Prof Ho said: “When technologies are yet to be deployed in the public sphere, news media offers the main and, in many instances, the only source of information for members of the public. Our findings suggest that policymakers could leverage positive news media reporting when introducing air taxis to shape public perceptions and thereby use intention.”

Credibility affects trust in media reports on AI technology

These findings build on a study authored by Prof Ho and WKWSCI research fellow Goh Tong Jee. Published online in journal Science Communication in May, the study identified considerations that could affect the public’s trust in media organisations, policymakers and tech developers that introduce AI in autonomous vehicles (AVs).

Through six focus group discussions with 56 drivers and non-drivers, the researchers found that media credibility is a foundation upon which the public would evaluate the trustworthiness of media organisations.

The focus group discussion participants said they would consider qualities such as balance, comprehensiveness, persuasiveness and objectivity of media organisations when assessing their ability to create quality content.

The researchers also found that non-drivers raised more qualities than drivers regarding trust in media organisations. The researchers attributed this observation to the enthusiasm non-drivers could have over the prospective use of AVs, which drove the non-drivers’ tendency to seek information.

Some qualities raised only by non-drivers during the focus group discussions include a media organisation’s ability to spur discussions on whether AV is a need or a want. Another consideration is a media organisation’s ability to create varied content.

Non-drivers also shared their expectations that media organisations should be transparent and reveal “unflattering” information in the public’s interest during crises, even if it means affecting the reputation of policymakers or tech developers.

The findings from these two studies reaffirm the need for accurate and balanced reporting on AVs such as air taxis, due to the role news media can play in shaping public perception, and the public’s expectations of media organisations, said Prof Ho.

Prof Ho added: “The two studies highlight the importance for media organisations to translate emerging scientific evidence accurately to facilitate informed decision-making. Given the speed at which innovative technologies emerge in the age of digitalisation, accurate science communication has never been more crucial.”

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Notes to Editor:

1. Study on public perception of air taxis in Singapore

The paper titled ‘Trust in artificial intelligence, trust in engineers, and news media: Factors shaping public perceptions of autonomous drones through UTAUT2’ was published in Technology in Society, Volume 77, 2024, 102533, ISSN 0160-791X https://doi.org/10.1016/j.techsoc.2024.102533

The study is supported by the National Research Foundation, Prime Minister’s Office, Singapore under its Campus for Research Excellence and Technological Enterprise (CREATE) programme.

2. Study on factors that could affect the public’s trust in media organisations, policymakers and tech developers that introduce AI in autonomous vehicles

The paper titled ‘Trustworthiness of Policymakers, Technology Developers, and Media Organizations Involved in Introducing AI for Autonomous Vehicles: A Public Perspective’ was published online in Science Communication.

https://doi.org/10.1177/10755470241248169

The study is supported by the National Research Foundation, Prime Minister’s Office, Singapore, under its AI Singapore Programme.

***END***

[1] Singapore aims to become base for air taxi firms; CAAS working with regional counterparts on guidelines, CNA

[2] This model, called the Unified Theory of Acceptance and Use of Technology 2, is a validated technology acceptance model that aims to explain user intentions to use an information system and subsequent usage behaviour.

Warmer wetter climate predicted to bring societal and ecological impact to the Tibetan Plateau

Increased rainfall and glacier meltwater set to dramatically reverse shrinking trend and expand land-locked lakes on Tibetan Plateau by 50%

BANGOR UNIVERSITY

While recent reports have stated that more than half the world’s largest lakes, including lakes in the Tibetan plateau, are drying up, a paper in Nature Geoscience today (27/5/24 DOI 10.1038/s41561-024-01446-w ) suggests that, by the end of this century, land-locked lakes on the Tibetan Plateau are set to increase exponentially, resulting in major land loss and related economic, environmental and climatic impacts.

Climate and weather predictions suggest that increased rainfall due to climate change will enlarge these lakes, and see water levels rise by up to 10 metres.

The volume of water caught in these land-locked lakes is estimated to increase fourfold by 2100 according to the research by Dr Iestyn Woolway of Bangor University (UK) and colleagues in China, Saudi Arabia, USA and France.

The increased lake surface area will also mean the loss of critical land area, for agriculture, human habitation, critical road and rail networks and economic disruption.

Dr Woolway commented,
“Climate change is making the Tibetan Plateau greener and more habitable, attracting more people to higher altitudes due to better access to water. However, rising lake levels require urgent planning and policies to mitigate impacts on the region's ecology and population.”

The resultant land loss could also lead to a change in the landscape, as lakes merge and the course of the rivers which feed and inter-connect the lakes are altered.

This could lead to increased greenhouse gas emissions and a positive feedback loop, amplifying climate change. An increase in freshwater, and in flow between lakes could also cause a change in ecology and affect wildlife. As an example, when the Zonang Lake in Hoh Xil Nature Reserve burst its banks in 2011, the Tibetan Antelope found their migration route blocked.

JOURNAL

Nature Geoscience

DOI

10.1038/s41561-024-01446-w

METHOD OF RESEARCH

Data/statistical analysis

ARTICLE TITLE

Widespread societal and ecological impacts from projected Tibetan Plateau lake expansion

ARTICLE PUBLICATION DATE

27-May-2024