Thursday, June 17, 2021

 

The give and take of mega-flares from stars

HARVARD-SMITHSONIAN CENTER FOR ASTROPHYSICS

Research News

IMAGE

IMAGE: THE LAGOON NEBULA, ONE OF THE STAR-FORMING REGIONS IN THE LATEST STUDY, IS ABOUT 4,400 LIGHT YEARS FROM EARTH IN THE MILKY WAY GALAXY WHERE STARS. THIS FIELD-OF-VIEW SHOWS THE... view more 

CREDIT: X-RAY: NASA/CXC/PENN STATE/K. GETMAN, ET AL; INFRARED: NASA/JPL/SPITZER

The long relationships between stars and the planets around them - including the Sun and the Earth - may be even more complex than previously thought. This is one conclusion of a new study involving thousands of stars using NASA's Chandra X-ray Observatory.

By conducting the largest survey ever of star-forming regions in X-rays, a team of researchers has helped outline the link between very powerful flares, or outbursts, from youthful stars, and the impact they could have on planets in orbit.

"Our work tells us how the Sun may have behaved and affected the young Earth billions of years ago," said Kostantin Getman of Pennsylvania State University in University Park, Pennsylvania who led the study. "In some ways, this is our ultimate origin story: how the Earth and Solar System came to be."

The scientists examined Chandra's X-ray data of more than 24,000 stars in 40 different regions where stars are forming. They captured over a thousand stars that gave off flares that are vastly more energetic than the most powerful flare ever observed by modern astronomers on the Sun, the "Solar Carrington Event" in 1859. "Super" flares are at least one hundred thousand times more energetic than the Carrington Event and "mega" flares up to 10 million times more energetic.

These powerful flares observed by Chandra in this work occur in all of the star-forming regions and among young stars of all different masses, including those similar to the Sun. They are also seen at all different stages in the evolution of young stars, ranging from early stages when the star is heavily embedded in dust and gas and surrounded by a large planet-forming disk, to later stages when planets would have formed and the disks are gone. The stars in the study have ages estimated to be less than 5 million years, compared to the Sun's age of 4.5 billion years.

The team found several super-flares occur per week for each young star, averaged over the whole sample, and about two mega-flares every year.

"We want to know what kinds of impact - good and bad - these flares have on the early lives of planets," said co-author Eric Feigelson, also of Penn State. "Flares this powerful can have major implications."

Over the past two decades, scientists have argued that these giant flares can help "give" planets to still-forming stars by driving gas away from disks of material that surround them. This can trigger the formation of pebbles and other small rocky material that is a crucial step for planets to form.

On the other hand, these flares may "take away" from planets that have already formed by blasting any atmospheres with powerful radiation, possibly resulting in their complete evaporation and destruction in less than 5 million years.

The researchers also performed detailed modeling of 55 bright super- and mega-flares and found that most of them resemble long-lasting flares seen on the Sun that produce "coronal mass ejections," powerful ejections of charged particles that can damage planetary atmospheres. The Solar Carrington Event involved such an ejection.

This work is also important for understanding the flares themselves. The team found that the properties of the flares, such as their brightness and frequency, are the same for young stars with and without planet-forming disks. This implies that the flares are likely similar to those seen on the Sun, with loops of magnetic field having both footprints on the surface of the star, rather than one anchored to the disk and one to the star.

"We've found that these giant flares are like ones on the Sun but are just greatly magnified in energy and frequency, and the size of their magnetic loops," said co-author Gordon Garmire from the Huntingdon Institute for X-ray Astronomy in Huntingdon, Pennsylvania". Understanding these stellar outbursts may help us understand the most powerful flares and coronal mass ejections from the Sun."


CAPTION

RCW 120 is another star-forming region that was part of the new research. It is slightly farther away than the Lagoon Nebula at a distance of about 5,500 light years. This view of RCW 120, which has the same wavelengths and colors as the Lagoon composite, contains an expanding bubble of hydrogen gas, about 13 light years across. This structure may be sweeping up material into a dense shell and triggering the formation of stars.

CREDIT

X-ray: NASA/CXC/Penn State/K. Getman, et al; Infrared: NASA/JPL/Spitzer

This work was presented at the recent meeting of the American Astronomical Society meeting and is described in two papers accepted for publication in The Astrophysical Journal and available here and here [arXiv URL to be added for Paper II]. NASA's Marshall Space Flight Center manages the Chandra program. The Smithsonian Astrophysical Observatory's Chandra X-ray Center controls science from Cambridge, Massachusetts, and flight operations from Burlington, Massachusetts.

Advocating reimbursement parity for nurse practitioners

UNIVERSITY OF PENNSYLVANIA SCHOOL OF NURSING

Research News

IMAGE

IMAGE: , ALYCIA BISCHOF, MSN, APRN, PNP-BC, SENIOR LECTURER AT THE UNIVERSITY OF PENNSYLVANIA SCHOOL OF NURSING view more 

CREDIT: ALYCIA BISCHOF

PHILADELPHIA (June 16, 2021) - The current Medicare reimbursement policy for nurse practitioners (NPs) allows NPs to directly bill Medicare for services that they perform, but they are reimbursed at only 85% of the physician rate. A growing number of states are granting full practice authority to nurse practitioners. Even more states have loosened practice restrictions due to COVID-19. Both of these reasons illustrate why payment parity is essential.

In an article in The Online Journal of Issues in Nursing, Alycia Bischof, MSN, APRN, PNP-BC, Senior Lecturer at the University of Pennsylvania School of Nursing (Penn Nursing), argues that given the increased role of NPs (particularly during the pandemic) and their proven ability to provide care comparable to physicians, Congress should allow Medicare to increase the NP reimbursement rate to 100% of the physician pay rate.

"The COVID- 19 pandemic serendipitously led to the removal of many restrictions on NP practice, a positive change that needs to become permanent. This is the time for NPs to seize the opportunity to work with MedPAC to achieve full reimbursement for care provided," she says.

In the article, she summarizes the evolution of the practice of NPs and the rationale for reimbursement parity for nurse practitioners. She also outlines the potential benefits of providing NPs with 100% reimbursement, including incentivizing them to practice in primary care settings where there is a shortage.

Bischof encourages nurse advocacy groups and researchers to direct future studies to investigate how full practice authority and the removal of practice barriers due to the COVID-19 pandemic have affected the level of care that NPs provide. "Such studies can then be used to support further evolution of reimbursement policy, if NPs indeed produce an equal or better product than physicians," she says.

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The co-author of the article is Sherry A. Greenberg, PhD, RN, GNP-BC, FGSA, FAANP, FAAN, of Seton Hall University College of Nursing. The article "Post COVID-19 Reimbursement Parity for Nurse Practitioners" is available online.

About the University of Pennsylvania School of Nursing

The University of Pennsylvania School of Nursing is one of the world's leading schools of nursing. For the sixth year in a row, it is ranked the #1 nursing school in the world by QS University and is consistently ranked highly in the U.S. News & World Report annual list of best graduate schools. Penn Nursing is ranked as one of the top schools of nursing in funding from the National Institutes of Health. Penn Nursing prepares nurse scientists and nurse leaders to meet the health needs of a global society through innovation in research, education, and practice. Follow Penn Nursing on: Facebook, Twitter, LinkedIn, & Instagram.

 

Immune system dysfunction can modify the association between cannabis use and psychosis

Brazilian researchers show that a combination of inflammatory cytokines in the blood and cannabis use, daily or during adolescence, heightens the odds of developing psychiatric disorders

FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO

Research News

The presence of pro-inflammatory cytokines in the blood can boost the effects of daily cannabis use and heighten the risk of developing psychosis in adulthood. Similar results have been observed, also in the presence of cytokines, when cannabis is used during adolescence. Psychotic disorders have symptoms such as delirium, loss of a sense of reality, hallucinations, hearing voices, and cognitive and social impairments.

A study by researchers at the University of São Paulo's Ribeirão Preto Medical School (FMRP-USP) in Brazil, reported in an article in the journal Psychological Medicine, finds for the first time that individuals exposed to a combination of these two factors - the presence of pro-inflammatory cytokines in the blood and cannabis use (either daily or during adolescence) - are more likely to suffer from psychosis than those who are exposed to neither or to only one. According to the authors, the study provides "the first clinical evidence that immune dysregulation modifies the cannabis-psychosis association".

The study was part of a project conducted by the European Network of National Schizophrenia Networks Studying Gene-Environment Interactions (EU-GEI), a consortium of research centers in 13 countries, including Brazil. An article published in The Lancet Psychiatry by the consortium in 2019 showed that daily cannabis use increased the likelihood of suffering from a psychotic disorder threefold.

In the more recent study, the researchers analyzed data for 409 people aged 16-64, including patients experiencing their first psychotic episode and community-based controls. The sample was drawn from the populations of Ribeirão Preto and 25 other cities in the region. The variables analyzed included cannabis use frequency (daily, not daily or never), duration (five years or less), and onset age (in adolescence or later).

In addition to the questionnaire on cannabis use, the researchers measured various cytokines in plasma donated by the volunteers and calculated scores representing their systemic inflammatory profiles. They also collected clinical and socio-demographic data, especially variables known as confounders, such as age, gender, schooling, ethnicity, body mass index, smoking, and use of psychoactive substances. The results obtained were independent of confounding factors.

"Not everyone who uses cannabis develops psychosis. This suggests that the association may be modified by other factors, which may be biological, genetic or environmental," said Fabiana Corsi-Zuelli, first author of the article. "In a previous study conducted as part of my master's research, we identified a correlation between plasma cytokines and the first psychotic episode. Following up on this discovery, and the consortium's recent publication showing a higher incidence of psychosis among subjects who used cannabis on a daily basis, our next step was to see if the biological factor [inflammatory profile] affected the link between cannabis use and psychosis."

The main conclusion was that such a link did indeed exist. "We found a statistically significant correlation between inflammatory profile and cannabis use on a daily basis or during adolescence. In sum, the results showed that immune system dysfunction can modify the association between cannabis use and psychosis and that a combination of these two factors increases the odds of suffering from a psychotic disorder," she said.

Corsi-Zuelli is currently a PhD candidate in FMRP-USP's graduate program in neurology and neurosciences, with support from São Paulo Research Foundation - FAPESP.

The principal investigator for the project is Cristina Marta Del-Ben, a professor at FMRP-USP's Department of Neurosciences and Behavioral Sciences. According to Del-Ben, risk factors for psychosis may be biological, including genetic predisposition and problems during pregnancy, as well as environmental, including traumatic experiences during childhood and adolescence, and exposure to psychoactive substances, especially cannabis.

"The mechanisms of the disorder are poorly understood," she said. "Our findings show that frequent current use of cannabis or use of the drug in adolescence is a risk factor for psychosis. We didn't detect the same correlation with occasional or recreational use. In the multicenter study, which included European cities with varying levels and types of cannabis availability, we also found that the risk of psychosis is greater in users of stronger cannabis strains with a THC content or 10% of higher." THC (delta-9-tetrahydrocannabinol) is the primary psychoactive constituent of cannabis or marijuana.

The medical explanation of psychosis is that it is a neuropsychiatric syndrome associated with anatomical and functional alterations in the brain, possibly linked to changes in the action of dopamine, a key neurotransmitter for communication among neurons. Excessive dopamine or direct damage to certain brain regions can lead to hallucinations, delusions, delirium and disorganized behavior.

Other neurotransmitters, such as glutamate, have also been implicated in the neurobiology of psychosis. Specialists are currently discussing what they call the neuroimmune link, and how immune system dysregulation may trigger neurochemical, morphological and behavioral alterations that heighten the risk of developing psychiatric disorders.

Psychotic symptoms may be present in several psychiatric disorders, which may or may not be affective. Recent research has taken note of cases of psychosis in patients infected by SARS-CoV-2. Treatment of psychosis involves a combination of medication, psychotherapy and family support.

Next steps

According to Corsi-Zuelli, the origin of the inflammatory alterations involved in psychosis is still obscure, but it may arise from a combination of genetic and environmental factors. "The inflammation seen in psychiatric disorders is considered low-level and isn't as severe as in patients with autoimmune diseases or sepsis," she said. "Nevertheless, experimental studies suggest it entails sufficient dysregulation to produce neurochemical and behavioral alterations."

The researchers plan next to study genetic variants associated with the immune system and use neuroimaging data to explore the link with environmental risk factors. "Focusing in this way on the interactions between genetics and the environment will help us understand the neurobiology of psychosis, especially the role played by the immune system," she said.

The association between inflammation and psychiatric disorders is highly relevant to clinical practice and has received growing attention. "It's important to the search for alternative treatments for these disorders, and also to answering often neglected questions relating to the physical health of psychiatric patients," Corsi-Zuelli said.

According to Del-Ben, in the pipeline for next steps is a partnership with Geraldo Busatto Filho, a professor at the Medical School (FM) in USP's main campus, to investigate whether inflammatory markers in blood are linked to brain alterations in some of the patients studied.

The research has twice received international recognition. The Society of Biological Psychiatry selected the study for its Predoctoral Scholars Award, which was to have been formalized at SOBP's 2020 annual meeting in New York, but the pandemic forced a postponement until April 2021, when the meeting was held online. And the study was selected by the Schizophrenia International Research Society (SIRS) for presentation at its 2020 Congress, also held online.

Besides the scholarship awarded to Corsi-Zuelli, FAPESP also supported the research via four other grants: 2012/05178-02013/11167-32017/13353-0, and 2018/07581-2.

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About São Paulo Research Foundation (FAPESP)

The São Paulo Research Foundation (FAPESP) is a public institution with the mission of supporting scientific research in all fields of knowledge by awarding scholarships, fellowships and grants to investigators linked with higher education and research institutions in the State of São Paulo, Brazil. FAPESP is aware that the very best research can only be done by working with the best researchers internationally. Therefore, it has established partnerships with funding agencies, higher education, private companies, and research organizations in other countries known for the quality of their research and has been encouraging scientists funded by its grants to further develop their international collaboration. You can learn more about FAPESP at http://www.fapesp.br/en and visit FAPESP news agency at http://www.agencia.fapesp.br/en to keep updated with the latest scientific breakthroughs FAPESP helps achieve through its many programs, awards and research centers. You may also subscribe to FAPESP news agency at http://agencia.fapesp.br/subscribe.

 

Study: Complexity holds steady as writing systems evolve

SANTA FE INSTITUTE



VIDEO: HOW DO WRITING SYSTEMS CHANGE OVER TIME -- AND WHAT FORCES DRIVE THAT EVOLUTION?

A new paper in the journal Cognition examines the visual complexity of written language and how that complexity has evolved.

Using computational techniques to analyze more than 47,000 different characters from 133 living and extinct scripts, co-authors Helena Miton of the Santa Fe Institute and Oliver Morin of the Max Planck Institute for the Science of Human History, addressed several questions around why and how the characters of different writing systems vary in how complex they appear.

"When we started this project, we wanted to test whether you find a general simplification of characters over time," Miton says. "Do scripts simplify their characters as they spend more time exposed to evolutionary pressures from the humans who are learning them and using them?"

We interact with most types of writing through our visual system, so the characters and scripts that make up the hundreds of writing systems humans have used through history are limited to, and optimized for, the way our brains process visual information. Part of that optimization, write the authors, is the graphic complexity of the characters in a script.

Morin illustrates this in a Twitter thread, offering an image of two characters, one apparently more complex, with more detail and contours, than the other. He writes, "Why care about this? Because your brain does. Simpler letters are easier and faster to process." He goes on, "Any small improvements in processing speed can accumulate into big-time gains for readers. Letters are under pressure to simplify, but also have to carry information."

A highly cited study from 2005 suggests that writing systems tend to settle on a common solution to these pressures: using about three strokes per character. In this new paper, Miton and Morin push back against that finding, and others, by studying a larger and broader set of scripts and incorporating new methods that account for cultural evolution and lineages in writing.

Miton and Morin used two measures of graphic complexity to compare characters and scripts from the massive dataset drawn from geographic locations around the world. The first measure, "perimetric" complexity, is a ratio of inked surface to its perimeter. The other measure, "algorithmic," is the number of bytes needed to store a compressed image of a character.

Among their results, they found that large scripts -- those with more than 200 characters -- had, on average, more complex characters than scripts with a smaller number of characters. Relatedly, the study suggests that the main driver of characters' complexity was which linguistic units (e.g., phoneme, syllable, entire word, etc.) the characters encode.  

They were surprised to find little evidence for evolutionary change in complexity: scripts that were invented in the past 200 years used characters of similar complexity to those that have been around for longer.  In forthcoming work led by Piers Kelly, Miton and Morin investigate whether written characters follow an optimization process that happens more quickly than was captured in the current study's dataset.



CAPTION

"Why care about this? Because your brain does. Simpler letters are easier and faster to process. Letters are under pressure to simplify, but also have to carry information." --Oliver Morin

CREDIT

Oliver Morin

Pursuing safer, cheaper pharmaceuticals via electromagnetic control at the atomic level

Researchers explore new ways to synthesize chiral compounds

TEXAS A&M UNIVERSITY

 NEWS RELEASE 

Research News

Commonplace pharmaceuticals, such as ibuprofen, can carry with them an inherent flaw in their atomic structure, which pairs the active, beneficial ingredient with a potentially ineffective -- or even toxic -- counterpart. New research could hold the key to more easily isolating the good while removing the unwanted.

Dr. Shoufeng Lan, assistant professor in the J. Mike Walker '66 Department of Mechanical Engineering at Texas A&M University, is leading a team investigating the use of electromagnetic control over the synthesis of chiral compounds at an atomic level -- a process that could lead to a plethora of practical applications, including in the pharmaceutical industry. The team's research was recently published in the journal Nature Communications.

"Mysteriously, all living organisms on the Earth consist of only left-handed amino acids and right-handed sugars, but not their mirrored counterparts," Lan said. "The phenomenon is the so-called homochirality of life and it is the ultimate form of asymmetric synthesis."

Lan used the example of a human hand to demonstrate the concept of chirality, noting that if you were to create a mirror image of your hand, it could not be perfectly superimposed over the original.

By identifying a successful method of using asymmetrical synthesis to create new versions of structures for items like ibuprofen, Lan said better versions of generic pharmaceuticals with reduced toxicity could be created at a lower cost than currently available due to the current purification process.

However, to achieve success, the researchers will first need to overcome the practical need to implement this magnetic effect on asymmetric synthesis at room temperature. Currently, this effect is relatively weak, even with a strong magnetic field or at a low temperature or -- 450 degrees.

Lan said the topic of addressing chirality was the basis of the 2001 Nobel Prize in chemistry, which uses an existing chiral object -- a catalyst molecule -- to transfer chirality to the desired mirror image form as the final product.

"This Nature Communications paper demonstrated a giant atomic-scale magneto-chiral effect that is orders of magnitude stronger," Lan said. "By applying this effect, it is arguably possible to master an asymmetric synthesis or asymmetric self-assembling."

Lan said his team's research could prove revolutionary to the field by creating a new iteration of biomedical, chemical and pharmaceutical applications. For example, by asymmetrically synthesizing only the active component of racemic Lexapro -- the most common medication in the United States with more than 25 million prescriptions -- the research might reduce the drug's side effects.

'We anticipate that our demonstration could lead to the creation of chiral seeds at the atomic scale," Lan said. "Upon them, we hope to transfer the chirality using cutting-edge technologies, such as a metal-organic framework, to create chiral materials from nanoscales to macroscales."

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Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy

 

Smartphone bans in the workplace

UNIVERSITY OF KONSTANZ

Research News

For many of us, our smartphone has become our ever-present companion and is usually far more than just a phone. Thanks to the constant availability of online content as well as our reachability through messenger services and social networks via our smartphone, this everyday object's potential to distract us is high - at work too. This is why many employers view the use of smartphones during work time with suspicion, and countermeasures taken range from asking staff to refrain voluntarily from using them to banning smartphones in the workplace through an internal agreement. But do such measures actually work and, if so, how?

This is the question now being examined by an interdisciplinary team of economists and a social scientist from the universities of Konstanz, Lüneburg and Vechta in the framework of a comprehensive field experiment and accompanying surveys on the topic. The study, which has been published in the journal Experimental Economics, shows that the benefits of smartphone bans in the workplace depend on the type of work: In the case of standard routine tasks, there was a measurable increase in efficiency as a result of "soft" smartphone bans, that is, bans that are not sanctioned if they are disregarded. By contrast, they did not notably improve the execution of more complex tasks. As possible success factors for soft bans, the study identified that they can change people's perception of social norms, that freedom of choice remains with staff and that these show understanding for the measures.

Corporate managements disagree on effectiveness

Many companies find the distraction of staff through the use of private smartphones in the workplace problematic. However, since smartphones are private property, a strict ban on their use is difficult to enforce and can hardly be controlled, especially in times where people are working more and more from home. That is why the measures taken by companies frequently do not go beyond so-called "soft", non-monitored bans - if any at all - the disregard of which has no consequences. An example of a soft ban would be a written appeal to staff not to use their smartphone during work time. However, there is much disagreement among employers about the effectiveness of such soft bans.

"A survey we conducted in collaboration with the Chamber of Commerce and Industry of Berlin showed that about 20 percent of the companies interviewed already work with soft smartphone bans," reports Dr Adrian Chadi, junior professor for personnel economics and human resource management at the University of Konstanz and one of the authors of the current study. In turn, about half of these 20 percent considered the measures to be successful, but the other half doubted that workforce performance is positively influenced by soft smartphone bans.

Telephone study as field experiment

To gain more clarity in this regard, the researchers carried out a large-scale field experiment: Over 100 students were assigned the task of phoning lists of telephone numbers as part of a real side job and conducting interviews with volunteers for a university research project independent of this study. In this context, a soft ban was imposed on some of the students on using their smartphones during work time, while for the others the private use of smartphones was not expressly forbidden.

A comparison of the two groups' performance showed that the students banned from using their private smartphones made about ten percent more calls per hour than the students without a ban. However, the ban did not have a clear effect on the number of successfully completed interviews, which suggests that the success of a smartphone ban in the workplace depends on the specific type of work. "In the case of less demanding routine tasks, such as working through a long list of phone numbers, it's helpful not to be distracted by a private smartphone. With more complex, creative tasks, such as convincing strangers to participate in a survey, on the other hand, occasional use of a private smartphone between calls seems to be less detrimental," says Chadi, going into more detail.

The secrets of success of "soft" bans

In the framework of further surveys, the researchers looked deeper into the reasons for the effectiveness of soft smartphone bans. One consideration here was that they might change employees' perceptions as to what is socially appropriate. "Social norms play an important role in the context of bans. Soft bans could lead to staff themselves seeing it as less appropriate to use their smartphones during work time - due to perceived social pressure," explains Chadi. "This means that companies might hope to increase productivity in the workforce with soft bans - and without penalties and monitoring leading to distrust, rejection or a negative impact on productivity as a result of declining motivation."

Indeed, the evaluation of follow-up interviews with the students involved in the field experiment revealed that the group with a soft ban on the use of smartphones used them far less frequently during work time than the group without a smartphone ban, indicating that they respected the ban voluntarily. This can explain the difference in productivity described. At the same time, job satisfaction in both groups was very high. "This probably means that it's precisely the voluntary nature of observing rules which is one of the secrets of success of soft bans," assumes Chadi.

Understanding as a further factor

As a further factor for the success of the soft smartphone ban in the study, the follow-up interviews identified that staff could understand their employer's concern and that the ban therefore also made sense from their point of view. Here, the researchers can even see a transferability of their results to other contexts. "The perceived meaningfulness of a ban as well as retaining the right to make autonomous decisions about your own behaviour are with great probability determining success factors not only in the workplace context and are therefore more expedient than enforcing bans by means of coercion and surveillance," says Chadi.

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Key facts:

  • Original publication: Adrian Chadi, Mario Mechtel, Vanessa Mertins (2021). "Smartphone bans and workplace performance", Experimental Economics; DOI: 10.1007/s10683-021-09715-w
  • The benefits of "soft" smartphone bans in the workplace depend on the type of work and are particularly evident in the case of routine tasks.
  • Possible favourable factors for the effectiveness of soft bans are people's changed perception of social norms as a result of the respective ban as well as the fact that staff retain freedom of choice and show understanding for the measure.
  • The original publication is freely available as an open access article. Licensing was undertaken in accordance with the Project DEAL Contract with Springer Nature.

 

Icebergs drifting from Canada to southern Florida

Woods Hole Oceanographic Institution and United States Geological Survey data shows how icebergs drifted more than 5,000km during the last glaciation

WOODS HOLE OCEANOGRAPHIC INSTITUTION

Research News

Woods Hole, MA (June 16, 2021) -- Woods Hole Oceanographic Institution (WHOI) climate modeler Dr. Alan Condron and United States Geological Survey (USGS) research geologist Dr. Jenna Hill have found evidence that massive icebergs from roughly 31,000 years ago drifted more than 5000km (> 3,000 miles) along the eastern United States coast from Northeast Canada all the way to southern Florida. These findings were published today in Nature Communications.

Using high resolution seafloor mapping, radiocarbon dating and a new iceberg model, the team analyzed about 700 iceberg scours ("plow marks" on the seafloor left behind by the bottom parts of icebergs dragging through marine sediment ) from Cape Hatteras, North Carolina to the Florida Keys. The discovery of icebergs in this area opens a door to understanding the interactions between icebergs/glaciers and climate.

"The idea that icebergs can make it to Florida is amazing," said Condron. "The appearance of scours at such low latitudes is highly unexpected not only because of the exceptionally high melt rates in this region, but also because the scours lie beneath the northward flowing Gulf Stream."

"We recovered the marine sediment cores from several of these scours, and their ages align with a known period of massive iceberg discharge known as Heinrich Event 3. We also expect that there are younger and older scours features that stem from other discharge events, given that there are hundreds of scours yet to be sampled," added Hill.

To study how icebergs reached the scour sites, Condron developed a numerical iceberg model that simulates how icebergs drift and melt in the ocean. The model shows that icebergs can only reach the scour sites when massive amounts of glacial meltwater (or glacial outburst floods) are released from Hudson Bay. "These floods create a cold, fast flowing, southward coastal current that carries the icebergs all the way to Florida," says Condron. "The model also produces 'scouring' on the seafloor in the same places as the actual scours"

The ocean water temperatures south of Cape Hatteras are about 20-25°C (68-77°F). According to Condron and Hill, for icebergs to reach the subtropical scour locations in this region, they must have drifted against the normal northward direction of flow -- the opposite direction to the Gulf Stream. This indicates that the transport of icebergs to the south occurs during large-scale, but brief periods of meltwater discharge.

"What our model suggests is that these icebergs get caught up in the currents created by glacial meltwater, and basically surf their way along the coast. When a large glacial lake dam breaks, and releases huge amounts of fresh water into the ocean, there's enough water to create these strong coastal currents that basically move the icebergs in the opposite direction to the Gulf Stream, which is no easy task" Condron said.

While this freshwater is eventually transferred northward by the Gulf Stream, mixing with the surrounding ocean would have caused the meltwater to be considerably saltier by the time it reached the most northern parts of the North Atlantic. Those areas are considered critical for controlling how much heat the ocean transports northward to Europe. If these regions become abundant with fresh water, then the amount of heat transported north by the ocean could significantly weaken, increasing the chance that Europe could get much colder.

The routing of meltwater into the subtropics - a location very far south of these regions - implies that the influence of meltwater on global climate is more complex than previously thought, according to Condron and Hill. Understanding the timing and circulation of meltwater and icebergs through the global oceans during glacial periods is crucial for deciphering how past changes in high-latitude freshwater forcing influenced shifts in climate.

"As we are able to make more detailed computer models, we can actually get more accurate features of how the ocean actually circulates, how the currents move, how they peel off, and how they spin around. That actually makes a big difference in terms of how that freshwater is circulated and how it can actually impact climate," Hill added.

Key Takeaways:

  • The discovery of icebergs in this area opens a door to understanding the interactions between icebergs/glaciers and climate.
  • Evidence suggests that there may be hundreds of undiscovered scours that range in ages
  • A newly developed iceberg computer model helped the researchers understand the timing and circulation of meltwater and icebergs through the global oceans during glacial periods, which is crucial for deciphering how past changes in high-latitude freshwater forcing influenced shifts in climate.

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About Woods Hole Oceanographic Institution

The Woods Hole Oceanographic Institution (WHOI) is a private, non-profit organization on Cape Cod, Massachusetts, dedicated to marine research, engineering, and higher education. Established in 1930, its primary mission is to understand the ocean and its interaction with the Earth as a whole, and to communicate an understanding of the ocean's role in the changing global environment. WHOI's pioneering discoveries stem from an ideal combination of science and engineering--one that has made it one of the most trusted and technically advanced leaders in basic and applied ocean research and exploration anywhere. WHOI is known for its multidisciplinary approach, superior ship operations, and unparalleled deep-sea robotics capabilities. We play a leading role in ocean observation and operate the most extensive suite of data-gathering platforms in the world. Top scientists, engineers, and students collaborate on more than 800 concurrent projects worldwide--both above and below the waves--pushing the boundaries of knowledge and possibility. For more information, please visit http://www.whoi.edu

 

Numerical study first to reveal origin of 'motion of the ocean' in the straits of Florida

Scientists identify mechanisms of instability responsible for the formation of sub-mesoscale eddies

FLORIDA ATLANTIC UNIVERSITY

Research News

IMAGE

IMAGE: ANIMATION SHOWS THE FORMATION OF EDDIES IN THE STRAITS OF FLORIDA. view more 

CREDIT: FLORIDA ATLANTIC UNIVERSITY/HARBOR BRANCH OCEANOGRAPHIC INSTITUTE

Ocean currents sometimes pinch off sections that create circular currents of water called "eddies." This "whirlpool" motion moves nutrients to the water's surface, playing a significant role in the health of the Florida Keys coral reef ecosystem.

Using a numerical model that simulates ocean currents, researchers from Florida Atlantic University's Harbor Branch Oceanographic Institute and collaborators from the Alfred-Wegener-Institute in Germany and the Institut Universitaire Europeen De La Mer/Laboratoire d'Océonographie Physique et Spatiale in France are shedding light on this important "motion of the ocean." They have conducted a first-of-its-kind study identifying the mechanisms behind the formation of sub-mesoscale eddies in the Straits of Florida, which have important environmental implications.

Despite the swift flow of the Florida Current, which flows in the Straits of Florida and connects the Loop Current in the Gulf of Mexico to the Gulf Stream in the Western Atlantic Ocean, eddies provide a mechanism for the retention of marine organisms such as fish and coral larvae. Since they trap the nutrient rich West Florida Shelf waters, they provide habitat to many reef and pelagic species within the region of the Florida Keys Reef Track, which sustains the very high productivity of this region.

Moreover, despite the tendency of the West Florida Shelf to overflow into the Straits of Florida, the formation of eddies provides a mechanism that limits the cross shelf transport of nutrient-laden waters. As a result, the formation of eddies stops the export of the West Florida Shelf waters across the Straits of Florida, preventing events such as red tides from crossing over to Cuba or the Bahamas. Conversely, toxic red tide waters emanating from the shelf remain longer in the vicinity of the Florida Keys Reef Tract coral reef ecosystem, adversely affecting the ecosystem's health.

These small-scale frontal eddies are frequently observed and present a wide variety of numbers, shapes, and sizes, which suggest different origins and formation mechanisms. Their journey through the Straits of Florida is at time characterized by the formation and presence of mesoscale, but mostly sub-mesoscale frontal eddies on the cyclonic side of the current.

The study, published in the Journal of Physical Oceanography, provides a comprehensive overview and understanding of the Straits of Florida shelf slope dynamics based on a realistic two-way nested high-resolution Regional Oceanic Modeling System (ROMS) simulation of the South Florida oceanic region. The full two-way nesting allowed the interaction of multiscale dynamics across the nest boundaries.

Results showed that the formation of the sub-mesoscale frontal eddies in the Straits of Florida are associated with the sloshing of the Florida Current, which consists of the oscillation of the distance of the current core from the shelf. When the Florida Current core is pushed up against the shelf, the shear on the shelf increases and sub-mesoscale frontal eddies can be formed by barotropic instability. When this position is relaxed, baroclinic instability instead is likely to form sub-mesoscale eddies. Unlike barotropic instability, which is shear driven, baroclinic instability is driven by changes in density anomalies.

"In the Straits of Florida, eddies smaller than their open ocean relative are formed. Those eddies, called sub-mesoscale eddies, are common and can be easily observed in ocean color imagery," said Laurent Chérubin, Ph.D., senior author and an associate research professor, FAU Harbor Branch. "Unlike the larger open ocean mesoscale eddies, they are not in geostrophic balance, meaning that their circulation is not sustained by the balance between the pressure gradient and the Coriolis forces. Instead, some of the frontal eddies in the Straits of Florida are in gradient wind balance, which indicates that a third force, the centrifugal force, is large enough to modify the geostrophic balance."

The Florida Current is part of the western branch of the wind driven north Atlantic anti-cyclonic gyre, which is intensified on the western side of the North Atlantic basin in comparison to its eastern side. Similar types of currents also are found on the western side of ocean basins such as the Agulhas current in the southern Indian Ocean or the Kuroshio in the northern Pacific Ocean. They are called boundary currents because they impinge on the continental shelf and as such, they undergo a significant amount of friction on the ocean floor. This friction, which acts vertically and horizontally on the boundary current, contributes to the formation of a sheared boundary layer.

"Our study shows that this shear layer can become unstable and form eddies. This process is in fact a pathway for the dissipation of wind energy injected in the ocean. Therefore, in the Straits of Florida, eddies smaller than their open ocean relative are formed," said Chérubin.

In addition to sub-mesoscale eddies formed locally in the Straits of Florida, there are incoming mesoscale eddies that transit in the Straits of Florida, such as the Tortugas Gyre.

"Findings from our research also show that mesoscale eddies can be squeezed on the shelf and transformed into sub-mesoscale eddies when the Florida Current is in its protracted position or remains relatively unaffected if the Florida Current is retracted from the shelf," said Chérubin.

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Study co-authors are Nicolas Le Paih, a Ph.D. student in physical oceanography, Alfred-Wegener-Institute; and Xavier Carton, Ph.D., a professor at the Institut Universitaire Europeen De La Mer/ Laboratoire d'Océonographie Physique et Spatiale.

This study was supported in part by NOAA grant "Coastal and Ocean Climate Applications" (NA12OAR4310105) and by the Harbor Branch Oceanographic Institute Foundation.

About Harbor Branch Oceanographic Institute:

Founded in 1971, Harbor Branch Oceanographic Institute at Florida Atlantic University is a research community of marine scientists, engineers, educators and other professionals focused on Ocean Science for a Better World. The institute drives innovation in ocean engineering, at-sea operations, drug discovery and biotechnology from the oceans, coastal ecology and conservation, marine mammal research and conservation, aquaculture, ocean observing systems and marine education. For more information, visit http://www.fau.edu/hboi.

About Florida Atlantic University:

Florida Atlantic University, established in 1961, officially opened its doors in 1964 as the fifth public university in Florida. Today, the University serves more than 30,000 undergraduate and graduate students across six campuses located along the southeast Florida coast. In recent years, the University has doubled its research expenditures and outpaced its peers in student achievement rates. Through the coexistence of access and excellence, FAU embodies an innovative model where traditional achievement gaps vanish. FAU is designated a Hispanic-serving institution, ranked as a top public university by U.S. News & World Report and a High Research Activity institution by the Carnegie Foundation for the Advancement of Teaching. For more information, visit http://www.fau.edu.