It’s possible that I shall make an ass of myself. But in that case one can always get out of it with a little dialectic. I have, of course, so worded my proposition as to be right either way (K.Marx, Letter to F.Engels on the Indian Mutiny)
Friday, November 26, 2021
Study shows people who believe in astrology tend to be less intelligent and more narcissistic
A trio of psychologists at Lund University has found via online questionnaire, that people who believe in astrology tend to be less intelligent than the norm and more narcissistic. In their paper published in the journal Personality and Individual Differences, Ida Andersson, Julia Persson and Petri Kajonius describe their study and what they learned from it.
Over the past several decades, scientists have occasionally put astrology to the test despite logic suggesting there is no possible way for the movements of stars and their relative positions to influence human behavior. To date, all have concluded that the idea is nonsense. Still, millions of people around the world believe that it is a true science. In this new effort, the researchers started by noting that belief in astrology has grown in recent years, possibly as a reaction to stresses such as the COVID-19 pandemic. They then set out to find if there were some traits that were common among people who were willing to believe in a pseudo-science that has no evidence of its usefulness.
They created an online questionnaire designed to identify personality traits and then added those questions to an abbreviated version of the Belief in Astrology Inventory assessment, which was created by a pair of researchers at Rovira i Virgili University in 2006. They also added a short IQ test. They then recruited 264 English speaking adults using Facebook to take their questionnaire.
The researchers found that those people who professed a belief in the powers of astrology tended to score higher than average on narcissistic measurements and also did poorly on the IQ test. They suggest this indicates that people who have faith in astrology tend to be more self-focused than average and see themselves as special people with natural leadership skills, and who also happen to be less intelligent than the average person. They noted that the higher a volunteer scored on the IQ portion of the questionnaire, the lower their chances were of being a believer in astrology.
More information:Ida Andersson et al, Even the stars think that I am superior: Personality, intelligence and belief in astrology,Personality and Individual Differences(2021).DOI: 10.1016/j.paid.2021.111389
Researchers at Stockholm University have provided the first experimental evidence that brain regions can evolve independently of each other during cognitive evolution. This so called mosaic brain evolution was verified empirically in an artificial selection experiment with guppies (Poecilia reticulata) where telencephalon size (but no other regions) differed by 10 percent after only four generations of selection. The findings can have wide implications for the understanding of cognitive evolution in other vertebrates, such as primates and humans.
The study indicates that brain evolution can occur in the form of changes in specific brain regions in a mosaic pattern, where the different parts evolve independently from each other. The researchers showed that when under strong artificial selection, the relative size of the telencephalon, or Cerebrum, changes quickly, and in an independent way.
“The finding has large implication for our understanding of how vertebrate brains evolve, and can help us explain even human brain evolution. For instance, it is possible that cognitive demands in the environment led to gradual evolutionary changes in the size of the neocortex towards the large neocortex in humans.”, says Niclas Kolm, professor at the Department of Zoology at Stockholm University and lead principal investigator on the project.
The experiment was carried out with artificial selection experiment with guppies by Stephanie Fong, who recently defended her PhD thesis on the project. After four generations of selection on relative telencephalon volume relative to the rest of the brain, a three-year endeavor that required near 2000 aquaria and many hundreds of brain dissections by Stephanie, she found substantial changes in telencephalon size in both males and females. But no significant changes occurred in other regions, which support the mosaic brain hypothesis.
According to the mosaic brain evolution hypothesis there are selective forces, for instance cognitive demands from the environment to catch food or find mates, that affect specific areas of the brain, but when these adaptive responses occur, they do not involve other parts of the brain. Hence, different brain regions can evolve in a “mosaic” pattern, in different ways and with different rates, and thus save energy in relation to changing the entire brain.
“The study is unique because it demonstrates that targeted selection on a single region can quickly increase and decrease its size without strong correlated changes in other regions”, says Stephanie Fong.
The general layout of the vertebrate brain is remarkably conserved with regards to the different regions in the vertebrate brain. However, size variation is enormous in the different regions among species. And this size variation could have been caused by this type of mosaic brain evolution and have great general cognitive consequences.
“The study suggests that strong selection can independently change separate brain regions and thus potentially yield cost-efficient neural responses to very specific cognitive demands from the environment. The next important step, and we already have publications on the way, is to investigate the functional consequences of these fast evolutionary changes in relative telencephalon size”, says Niclas Kolm..
HARVARD JOHN A. PAULSON SCHOOL OF ENGINEERING AND APPLIED SCIENCES
People rarely walk at a constant speed and a single incline. We change speed when rushing to the next appointment, catching a crosswalk signal, or going for a casual stroll in the park. Slopes change all the time too, whether we’re going for a hike or up a ramp into a building. In addition to environmental variably, how we walk is influenced by sex, height, age, and muscle strength, and sometimes by neural or muscular disorders such as stroke or Parkinson’s Disease.
This human and task variability is a major challenge in designing wearable robotics to assist or augment walking in real-world conditions. To date, customizing wearable robotic assistance to an individual’s walking requires hours of manual or automatic tuning — a tedious task for healthy individuals and often impossible for older adults or clinical patients.
Now, researchers from the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have developed a new approach in which robotic exosuit assistance can be calibrated to an individual and adapt to a variety of real-world walking tasks in a matter of seconds. The bioinspired system uses ultrasound measurements of muscle dynamics to develop a personalized and activity-specific assistance profile for users of the exosuit.
“Our muscle-based approach enables relatively rapid generation of individualized assistance profiles that provide real benefit to the person walking,” said Robert D. Howe, the Abbott and James Lawrence Professor of Engineering, and co-author of the paper.
The research is published in Science Robotics.
Previous bioinspired attempts at developing individualized assistance profiles for robotic exosuits focused on the dynamic movements of the limbs of the wearer. The SEAS researchers took a different approach. The research was a collaboration between Howe’s Harvard Biorobotics Laboratory, which has extensive experience in ultrasound imaging and real-time image processing, and the Harvard Biodesign Lab, run by Conor J. Walsh, the Paul A. Maeder Professor of Engineering and Applied Sciences at SEAS, which develops soft wearable robots for augmenting and restoring human performance.
“We used ultrasound to look under the skin and directly measured what the user’s muscles were doing during several walking tasks,” said Richard Nuckols, a Postdoctoral Research Associate at SEAS and co-first author of the paper. “Our muscles and tendons have compliance which means there is not necessarily a direct mapping between the movement of the limbs and that of the underlying muscles driving their motion.”
The research team strapped a portable ultrasound system to the calves of participants and imaged their muscles as they performed a series of walking tasks.
“From these pre-recorded images, we estimated the assistive force to be applied in parallel with the calf muscles to offset the additional work they need to perform during the push off phase of the walking cycle,” said Krithika Swaminathan, a graduate student at SEAS and the Graduate School of Arts and Sciences (GSAS) and co-first author of the study.
The new system only needs a few seconds of walking, even one stride may be sufficient, to capture the muscle’s profile.
For each of the ultrasound-generated profiles, the researchers then measured how much metabolic energy the person used during walking with and without the exosuit. The researchers found that the muscle-based assistance provided by the exosuit significantly reduced the metabolic energy of walking across a range of walking speeds and inclines.
The exosuit also applied lower assistance force to achieve the same or improved metabolic energy benefit than previous published studies.
“By measuring the muscle directly, we can work more intuitively with the person using the exosuit,” said Sangjun Lee, a graduate student at SEAS and GSAS and co-first author of the study. “With this approach, the exosuit isn’t overpowering the wearer, it’s working cooperatively with them.”
When tested in real-world situations, the exosuit was able to quickly adapt to changes in walking speed and incline.
Next, the research team aims to test the system making constant, real-time adjustments.
“This approach may help support the adoption of wearable robotics in real-world, dynamic situations by enabling comfortable, tailored, and adaptive assistance,” said Walsh, the senior author of the paper.
This research was also co-authored by Dorothy Orzel. It was supported by National Institutes of Health grants BRG-R01HD088619, U01TR002775 and R21AR076686, National Science Foundation grant CMMI-1925085.
INTERNATIONAL & AMERICAN ASSOCIATIONS FOR DENTAL RESEARCH
Alexandria, VA, USA — Dental procedures produce aerosols which contain oral microbes, creating potential for infectious disease transmission. This study, “Local Exhaust Ventilation to Control Dental Aerosols and Droplets” published in the Journal of Dental Research (JDR), investigated the effect of a Local Exhaust Ventilation (LEV) device on aerosols and droplets produced during dental procedures. These devices are designed to be placed over the patient’s mouth to capture aerosols and droplets at the source.
Researchers at Newcastle University, England, conducted experiments on dental mannequins. Ten-minute crown preparations were performed with an air-turbine handpiece in a large open plan clinic, and full mouth ultrasonic scaling was performed for ten minutes in a single dental surgery. Fluorescein was added to instrument irrigation reservoirs as a tracer. In both settings, Optical Particle Counters (OPCs) were used to measure aerosol particles between 0.3 – 10.0 μm and liquid cyclone air samplers were used to capture aerosolised fluorescein tracer. An LEV device with High Efficiency Particulate Air (HEPA) filtration and a flow rate of 5,000 L/min was tested during the experiments.
The results show that using LEV reduced the dispersion of aerosols from the air turbine handpiece by 90% within 0.5 m, and this was 99% for the ultrasonic scaler. The settling of larger droplets was also measured for the air-turbine, and this was reduced by 95% within 0.5 m when LEV was used.
"This study shows that the effect of LEV was substantially greater than suction alone for the air-turbine and was similar to the effect of suction for the ultrasonic scaler,” said IADR President Eric Reynolds, The University of Melbourne, Australia. “While no mitigation measure alone will completely eliminate risk, LEV appears to be a useful approach, which in addition to other measures, substantially reduces dispersion of aerosols, and therefore risk of exposure to pathogens."
About the Journal of Dental Research The IADR/AADOCR Journal of Dental Research (JDR) is a multidisciplinary journal dedicated to the dissemination of new knowledge in all sciences relevant to dentistry and the oral cavity and associated structures in health and disease. The JDR 2-year Journal Impact Factor™ is 6.116, ranking #5 of 91 journals in the “Dentistry, Oral Surgery & Medicine” category, and the JDR 5-year Journal Impact Factor™ is 7.199. The JDR ranks #1 of 91 journals in total citations at 26,197 and Eigenfactor at 0.01683. The JDR Editor-in-Chief is Nicholas Jakubovics, Newcastle University, England. Follow the JDR on Twitter at @JDentRes!
International Association for Dental Research
The International Association for Dental Research (IADR) is a nonprofit organization with over 10,000 individual members worldwide, with a mission to drive dental, oral and craniofacial research for health and well-being worldwide. To learn more, visit www.iadr.org. The American Association for Dental, Oral, and Craniofacial Research (AADOCR) is the largest Division of IADR with 3,100 members in the United States. To learn more, visit www.iadr.org/aadocr
Previous work during the 2003 SARS outbreak has no overall impact on the psychological distress seen in healthcare workers during the COVID-19 pandemic, although it was associated with lower scores of PTSD and depression, according to a new study published this week in the open-access journal PLOS ONE by Rima Styra of University Health Network, Toronto, Canada, and colleagues.
Surveys of physicians and nurses conducted during the current COVID-19 pandemic have found significant levels of depression, anxiety, insomnia and post-traumatic distress, similar to those seen during the 2003 Severe Acute Respiratory Syndrome (SARS) outbreaks. Experience working during a prior infectious disease could either heighten or attenuate a person’s psychological response to an emerging infectious disease.
In the new study, Styra and colleagues conducted an online survey of 3,852 healthcare workers in the greater Toronto area, including 1256 nurses (34.1%), 1243 non-clinical staff (28.3%), 1034 allied health staff (28.1%) and 345 physicians (9.4%). 29.1% of respondents had also worked during the 2003 SARS outbreak. Mental health outcomes of healthcare workers were measured using three distinct scales.
More than half (50.2%) of all healthcare workers surveyed had moderate or severe scores for symptoms of post-traumatic stress disorder (PTSD), while rates of anxiety (24.6%) and depression (31.5%) were also high. Non-clinical healthcare workers were found to be at higher risk of anxiety (OR, 1.68; 95% CI, 1.19–2.15, P = .01) and depression (OR 2.03, 95% CI, 1.34–3.07, P < .001), while healthcare workers using sedatives (OR, 2.55; 95% CI, 1.61–4.03, P < .001), those who cared for only 2-5 patients with COVID-19 (OR, 1.59; 95% CI, 1.06–2.38, P = .01), and those who had been in isolation for COVID-19 (OR, 1.36; 95% CI, 0.96–1.93, P = .05) had a higher risk of PTSD. There was no statistically significant effect of previous SARS work experience on clinical or non-clinical healthcare workers’ overall psychological distress. While those who worked during the SARS outbreak experienced lower scores of PTSD (p=0.002) and depression (p<0.001), these differences disappeared after correcting for other factors such as age and career experience. The authors suggest that the data is important in guiding healthcare systems to provide appropriate, targeted and timely support to healthcare workers.
The authors add: “Our study highlights the universal emotional distress experienced by healthcare workers, both clinical and non-clinical during the COVID-19 pandemic. It identifies that there are risk and protective factors of which we should be mindful given the wide reaching implications for staff wellness and staff retention.”
Pet cats seem to track their owner's location - and are surprised in experiments when their voice appears to come from somewhere else
###
Article Title: Socio-spatial cognition in cats: Mentally mapping owner’s location from voice
Author Countries: Japan
Funding: This study was financially supported by the Grant-in-aid for Scientific Research (KAKENHI) No. 17J08974, No. 19J01485 to S. Takagi, Nos. 25240020, 26119514, 16H01505, 15K12047, 25118002, and 16H06301 to K. Fujita, No. 25118003 to A. Saito, No. JP16J08691 to H. Chijiiwa, and No. JP16J1034 to M. Arahori from the Japan Society for the Promotion of Science (JSPS). Anicom Speciality Medical Institute Inc. provided support in the form of salaries for author M.A, but had no role in study design, data collection or analysis, decision to publish, or preparation of the manuscript. The specific roles of these authors are articulated in the ‘author contributions’ section.
Socio-spatial cognition in cats: Mentally mapping owner’s location from voice
ARTICLE PUBLICATION DATE
10-Nov-2021
COI STATEMENT
The authors declare no conflicts of interest. Anicom Speciality Medical Institute Inc. played no role in the study design, data collection or analysis, decision to publish, or preparation of the manuscript, providing only financial support in the form of M.A.’s salary. This does not alter the authors’ adherence to PLOS ONE policies on sharing data and materials.
Capturing the impact of human sewage on Earth’s coastal ecosystems
New worldwide mapping analysis identifies key exposure hotspots in unprecedented resolution
A first-of-its-kind, high-resolution mapping analysis estimates the amounts of nitrogen and pathogens released into coastal ecosystems from human wastewater sources around the world. Cascade Tuholske (now affiliated with the Columbia Climate School) and colleagues at the University of California, Santa Barbara, present this research in the open-access journal PLOS ONE on November 10, 2021. The researchers have created a visual representation of this, available here.
Human sewage can introduce disease-causing pathogens and nitrogen into the ocean, potentially impacting human health as well as coastal ecosystems and the communities that depend on them for such purposes as fishing. However, most research into humans’ impact on coastal ecosystems has focused on agricultural runoff, while investigations on human sewage have been limited.
To better capture the impact of sewage on coastal ecosystems, Tuholske and colleagues conducted a novel analysis in which they estimated and mapped nitrogen and pathogen inputs into the ocean from sewage for about 135,000 watersheds around the world at a resolution of 1 kilometer. The assessment employed newly available, high-resolution data on global human populations and modeled how wastewater plumes entering the ocean would overlap with different ecosystems.
The analysis suggests that wastewater from human sewage introduces 6.2 teragrams of nitrogen into coastal ecosystems per year—for comparison, that is about 40 percent of estimated inputs from agriculture. Sixty-three percent of the nitrogen is from sewage systems, 5 percent from septic systems, and 32 percent from untreated, direct input.
Of the watersheds that appear to release the most nitrogen from sewage, most are located in India, Korea, and China, with the Chang Jiang (Yangtze) River contributing 11 percent of the global total. The researchers also identified hotspots for coral reef exposure to nitrogen in China, Kenya, Haiti, India, and Yemen. Seagrass exposure hotspots were found in Ghana, Kuwait, India, Nigeria, and China. The Chang Jiang and Brahmaputra Rivers have the highest input of pathogens.
Further research will be needed to refine the model and its estimates. Nonetheless, this work provides a new resource that could play a key role in efforts to mitigate harm to ecosystems and human health—such as by highlighting locations where tradeoffs between managing nitrogen and pathogen levels are particularly important to consider.
The authors add: "The sheer scale of how much wastewater is impacting coastal ecosystems worldwide is staggering. But because we map wastewater inputs to the ocean across more than 130,000 watersheds, our results identify target priority areas to help marine conservation groups and public health officials to work together and reduce the impacts of wastewater on coastal waters across the planet."
CAPTION
The global total wastewater input is 6.2Tg N, with 3.9Tg from sewers, 0.3Tg from septic, and 2Tg from direct input. The top 40 countries are shown in the horizontal bar chart; remaining countries are in the pinwheel, grouped by continent or larger geographical region. Values for all countries are also reported in S5 Table in S1 File. Note that the Netherlands is shown in both places (in red) to help connect the scale of the two parts of the figure.
CAPTION
Maps show where A) coral reefs and B) seagrass beds are heavily impacted (raster cells in top 2.5% of exposure; red dots), not impacted (no exposure to wastewater N; dark blue dots), or impacted but not in the top 2.5% (yellow dots). Raster cells are represented as points which visually over-represents the habitat; red is overlaid on top which makes it visually dominant; blue points are transparent and overlaid on green/yellow points such that higher densities of unimpacted areas are brighter blue.
The tendency for most of us when it comes to human wastewater is out of sight, out of mind. Rarely do we consider what happens after we flush that toilet or turn off that tap.
However, researchers at UC Santa Barbara have turned their attention and considerable computational power to the subject and its impacts on global coastal ecosystems. The results aren’t pretty, but they are enlightening.
“The motivation behind this research was a desire to have a fine-grain understanding of how wastewater is impacting coastal waters worldwide,” said Cascade Tuholske, the lead author of a paper that appears in the journal PLOS One. While research on terrestrial threats to coastal marine ecosystems often focuses on agricultural runoff and what happens when fertilizer and livestock waste winds up in the ocean, he said, few studies investigate what happens when human sewage does the same.
“This isn’t the first study to produce a global wastewater model, but it is the first study to map the inputs of nitrogen and pathogens from wastewater across 130,000 watersheds across the planet,” Tuholske said. “And this is important because there are trade-offs in the intervention space.” Information from this model, he added, could make those trade-offs clearer and management decisions easier to make.
The Scale of the Problem The majority of human wastewater is discharged into the ocean around the world in a variety of treated and untreated states from sewage, septic and direct input sources. Not surprisingly, major human wastewater sources are also places with dense human populations, which tend to aggregate around major watersheds.
“We estimate that 25 watersheds contribute approximately 46% of global nitrogen inputs from wastewater into the ocean,” said Tuholske, a postdoctoral researcher at Columbia University who conducted this study as a graduate student at UC Santa Barbara. “Nearly half as much nitrogen comes from wastewater as agricultural runoff globally,” he added, “which is a huge fraction.” Coastlines all around the world are affected by increased nitrogen, according to the paper.
Tuholske and an interdisciplinary group of fellow UCSB scientists — Ben Halpern, Gordon Blasco, Juan Carlos Villasenor, Melanie Frazier and Kelly Caylor — have created a data visualization that maps globally the sources and destinations of nitrogen, a common element in both agricultural and human wastewater that causes eutrophication. It’s a phenomenon in which excessive nutrients create phytoplankton blooms just offshore that produce toxins and deprive the waters in the area of oxygen. These so-called “dead zones” not only suffocate the sea life unfortunate enough to be trapped in them, but also can cause problems in the food chain, including for humans.
“Many coastal ecosystems, such as coral reefs and seagrass beds, are particularly sensitive to excess nutrients, even if you don’t have a dead zone,” said Halpern, a professor in the Bren School of Environmental Science & Management and the director of the National Center for Ecological Analysis & Synthesis at UCSB. “The whole ecosystem can tip into a highly degraded state when nutrient levels are too high. Coral reefs can be converted into fields of algae that overgrow and kill the corals below them. Our work here helps map where nutrients from wastewater are likely putting these ecosystems at greatest risk.”
For Tuholske, whose research focuses on food systems, the model puts into stark relief the impact of modern diets on coastal ecosystems.
“What was really surprising through this research is how diets shifting to animal-based proteins are impacting marine ecology,” he said. As countries get wealthier and incorporate more meat into their food systems, he explained, the more nitrogen shows up in the wastewater, in addition to the already high levels generated by agriculture.
“The more burgers people are eating, the more nitrogen is getting into the ocean,” he said.
Two Targets Excessive nitrogen isn’t the only concern with the growing amount of human wastewater being discharged into the ocean; where wastewater goes, so too go pathogens. But the removal of nitrogen or pathogens can require very different methods, which can make it difficult for decisionmakers with finite resources and varying priorities to weigh their options between improving public health and protecting coastal ecosystems.
With the fine-scale estimates of nutrient and pathogen inputs provided by this model, the aim is to provide information that can lead to local solutions that together can tackle a complex global problem.
“These top-down, fine resolution hotspot maps can be matched with bottom-up approaches, and we can transfer knowledge across geographies,” Tuholske said. “Adaptation and mitigation really come from the bottom up, and having a global map helps to target priorities and share knowledge.
“While we map the scale of this problem, we can do something about it,” he added. “We can protect both public health and coastal ecosystems.”
###
JOURNAL
PLoS ONE
How does homeschooling affect adolescents’ character, health and well-being?
Compared to peers at public schools, adolescents who are homeschooled are more likely to report greater character strengths and fewer risky health behaviors later in life, but are less likely to attain a college degree, according to a new study published this week in the open-access journal PLOS ONE by Tyler VanderWeele of Harvard T.H. Chan School of Public Health, US, and colleagues.
School experiences are crucial for shaping individuals’ developmental and well-being trajectories later in life. Past studies have explored associations between types of primary and secondary schools and academic achievement, but outcomes beyond academic performance remain less well understood.
In the new study, researchers used data from 12,288 adolescent children of nurses enrolled in the Growing Up Today Study (GUTS). In 1999, baseline data, including the type of school a child was attending, was collected on children between the ages of 11 and 19. Data on outcomes were collected primarily from the 2010 wave of the GUTS questionnaire, or, when missing 2010 data, from the 2013 or 2007 questionnaire .
Few statistically significant differences were seen between children who attended public schools, private independent schools and private religious schools. However when comparing students who were homeschooled with those that attended public schools, some differences emerged. Homeschooled children were more likely to report volunteering activities (β=0.33, 95% CI 0.15-0.52, p<0.002), forgiveness of others (β=0.31, 95% CI 0.16-0.46, p<0.002) and religious service attendance (RR=1.51, 95% CI 1.27-1.80, p<0.002) but less likely to have attained a college degree (RR=0.77, 95% CI 0.67-0.88, p<0.002). They were also somewhat less likely to have used marijuana, had a lower number of lifetime sexual partners, and a greater sense of mission. The results were limited by the fact that the children were all children of nurses and were mostly non-Hispanic White; findings may not be generalizable to other populations.
The authors conclude that the study results might help inform policy-makers, educators, parents and other education stakeholders in their decisions on school policy, especially as homeschooling practices and regulations change in the wake of the COVID-19 pandemic.
The authors add: "In a sample of adolescent children of reasonably well-educated parents, we found, on average, little difference in subsequent young adult health and wellbeing outcomes comparing those who attended public schools versus private schools. Those who were home-schooled were less likely to go on to attend college than those in public schools, but they were subsequently more likely to volunteer, to be forgiving, to have a sense of purpose, and to engage in healthier behaviors."