Saturday, January 06, 2024

 

Asbestos: the size and shape of inhaled nanofibers could be exclusively responsible for the development of pulmonary fibrosis

Peer-Reviewed Publication

CNRS

Pseudo-coloured scanning electron microscopy image 

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PHAGOCYTOSIS BY A MACROPHAGE (RED) OF GLASS NANOFIBRES (BLUE) AFTER 12 H OF FRUSTRATED PHAGOCYTOSIS; SCALE BAR, 5 ΜM

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CREDIT: ©YU-TING QI ET AL., 2023, NATURE NANOTECHNOLOGY.

The pathogenic potential of inhaling the inert fibrous nanomaterials used in thermal insulation (such as asbestos or fibreglass) is actually connected not to their chemical composition, but instead to their geometrical characteristics and size. This was revealed by a study, published on 3 January 2024 in the journal Nature Nanotechnology, conducted on glass nanofibers by a French-Chinese team including a CNRS chemist.1

The reason for this is the inability of the macrophages2 naturally present in pulmonary alveolar tissue to eliminate foreign bodies that are too large. The study was initially conducted in vitro with electrochemical nanosensors, and revealed that when confronted with inert nanofibers over 15 microns in length,3 the cells are unable to distend enough to entirely encapsulate them within their “digestive” vesicle. This results in leaked secretions that are very harmful for the alveolar walls, which this study detected, characterised, and quantified for the first time.4 An experiment on rats subsequently showed that regular unprotected inhalation of similar inert fibrous nanometerials, whatever they may be, causes repeated pulmonary lesions that can eventually lead to the development of fibroma.

This discovery poses a challenge for the use of inert nanofibre felts in construction, which had heretofore been deemed to be less harmful than the asbestos it replaced, but that in reality could present the same health risks for those handling it.

 

Notes : 

1 From the Selective Activation Processes via Uni-Electronic or Radiative Energy Transfer Laboratory (CNRS/ École normale supérieure – PSL/Sorbonne Université), in collaboration with Wuhan University.

2 “Big eater” cells belonging to groups of white blood cells whose primary role is to eliminate cell debris and pathogenic biological agents throughout the body.

3 Or 0.015mm, a micron measuring 10-3 mm.

4 The ROS and RNS species (species reactive to oxygen and nitrogen) secreted by macrophages are known for attacking the bioorganic components of healthy cells, and cause inflammation and mutations that are often cancerous. While the phenomenon of “frustrated phagocytosis” had already been observed, its role in the pathogenesis of the concerned diseases had not yet been clearly established.

Transmission electron microscopy (TEM) image

 

Feathers from deceased birds help scientists understand new threat to avian populations


Peer-Reviewed Publication

UNIVERSITY OF FLORIDA

Wind turbine 

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A WORKING TURBINE AT A WIND ENERGY FACILITY IN NORTHERN CALIFORNIA

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CREDIT: TODD KATZNER



As concerns over the world’s declining bird population mount, animal ecologists developed an analytical approach to better understand one of the latest threats to feathered creatures: the rise of wind and solar energy facilities.

“Bird mortality has become an unintended consequence of renewable energy development,” said Hannah Vander Zanden, an assistant professor of biology at the University of Florida. “If we want to minimize or even offset these fatalities, especially for vulnerable populations, we need to identify the geographic origin of affected birds. In other words, are the dead birds local or are they coming from other parts of North America?”

Birds can be killed when they collide with wind turbines, fly into solar panels they mistake for bodies of water or become singed by the intense heat from concentrating solar power plants. While the death rate of birds due to these energy facilities is far less than deaths due to domestic cats and collisions with building, efforts to mitigate this problem is important, scientists say.

Vander Zanden and colleagues performed geospatial analyses of stable hydrogen isotope data obtained from feathers of 871 individual birds found dead at solar and wind energy facilities in California, representing 24 species.

Their analysis of natural-occurring markers in the feathers provided information about where the feathers were grown based on the water the birds consumed.

“With these markers, we could determine whether the bird was local or if it was migrating from somewhere else,” said Vander Zanden, who is the principal investigator of UF’s Animal Migration and Ecology Lab.

Results from the study, which were published Friday in the journal Conservation Biology, show that the birds killed at the facilities were from a broad area across the continent. Their geographical origins varied among species and included a mix of local and nonlocal birds.

Researchers found most birds killed at solar facilities were nonlocal and peaked during the migratory periods of April and September through October. The percentage of migratory birds found at wind facilities nearly matched that of local birds, at 51%, Vander Zanden said.

“This kind of data can help inform us about best strategies to use to minimize or mitigate the fatalities,” she said. “For example, facilities management could work with conservationists to improve the local habitat to help protect local birds or improve other parts of the species’ range where the migratory birds originate.”

The results also illustrate the power of stable isotope data to assess future population growth or decline patterns for birds due to a variety of reasons.

“Studying the remains of animals is a noninvasive approach to get information that is otherwise hard to track and apply to conservation,” Vander Zanden said. “It’s a great way to understand the mysteries about animals.”

 

Mixed forests protect coastal areas from tsunami impacts better than monoculture forests


Peer-Reviewed Publication

YOKOHAMA NATIONAL UNIVERSITY

Comparison of the percentage of reduction in tree cover pre- and post-tsunami 

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THE UPPER PANEL DEPICTS THE COASTAL FOREST PRE-TSUNAMI, WHILE THE LOWER PANEL ILLUSTRATES THE FOREST POST-TSUNAMI. EACH COLUMN REPRESENTS THE PERCENTAGE DECREASE IN COASTAL TREE COVER RESULTING FROM THE TSUNAMI EVENT (1: NO CHANGE, 5: 41-50%, 10: 91-100%). IN CASES WHERE THERE WAS A 91-100% DECREASE IN TREE COVER, INDICATED BY THE INSET WITH THE BLACK FRAME IN THE BOTTOM RIGHT IMAGE, NEARLY ALL TREES WERE TOPPLED BY THE TSUNAMI. IT IS IMPORTANT TO NOTE THAT WE MAGNIFIED THE SATELLITE IMAGES/AERIAL PHOTOGRAPHS TO ASSESS THE PERCENTAGE DECREASE IN COASTAL FOREST COVER ATTRIBUTABLE TO THE TSUNAMI EVENT.

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CREDIT: YOKOHAMA NATIONAL UNIVERSITY




Coastal forests in Japan had predominantly been afforested with black pine (Pinus thunbergii), a shade-tolerant tree species that can withstand dry land ecosystems and harsh coastal environments. This afforestation initiative, dating back to the Edo period (1603~1867), aimed to mitigate the deleterious effects of robust winds and sand blowing. Subsequent to the Great East Japan Earthquake in 2011, interest shifted to the potential protective effects of coastal forests in reducing the destructive power of tsunamis.

The Great East Japan Earthquake tsunami damaged a total of 2,800 hectares (ha; 10,000 square meters) of coastal forest. While the damage was immense, the devastation provided an opportunity to study which coastal forests withstood the tsunami impact and why some forests fared better than others. The forests can only mitigate tsunami effects if trees remain intact during the tsunami. Recently, scientists from Yokohama National University discovered that coastal forests that contained mixed tree species bore the tsunami forces better and with less damage than monoculture forests made up exclusively of black pine.

The research team published their findings in the 16 October issue of Natural Hazards.

“Prior studies have established that coastal forests decrease the hydrodynamic forces exerted by tsunami on structures and alter inland debris dispersion based on the density and size structure of trees. However, limited attention has been devoted to exploring the role of species diversity in coastal forests. We revealed that mixed coastal forests with black pine exhibited a diminished vulnerability to tsunami impacts when contrasted with monoculture forests,” said Yuki Iwachido, first author of the study paper and assistant professor at Yokohama National University.

The research team determined the effects of species diversity in coastal forests by analyzing satellite images and aerial photographs of coastal forests before and after the Great East Japan Earthquake tsunami on 11 March 2011. The degree of damage between forests that contained only black pine trees was compared to the damage experienced in mixed species forests made up of black pine and other broad-leaved trees.

The researchers hypothesize that mixed forests are less susceptible to tsunami damage because the root morphologies of different tree species utilize more soil space and resources than a single species of tree. In theory, this could enhance aboveground tree growth and overall stability of the mixed species forests. One limitation of the research was that the scientists couldn’t compare their results to a monoculture of broad-leaved trees and therefore could not remove the impact of coniferous trees.

The study also found a benefit in complex tree planting arrangements compared to simple arrangements. Analysis of the visual impact of the Great East Japan Earthquake tsunami suggests that forests with complex spatial structures were more able to withstand tsunami forces.

The research team acknowledges that more studies are required to better understand the capacity of coastal forest tsunami protection and how to maximize its safeguarding effect. “This study primarily focused on analyzing only damage patterns to coastal forests caused by tsunami impacts utilizing satellite images. There is a pressing need to elucidate the mechanisms by which mixed coastal forests alleviate the impacts of tsunamis,” said Takehiro Sasaki, senior author of the study paper and the professor at Yokohama National University.

Minori Kaneko from the Graduate School of Environment and Information Sciences at Yokohama National University in Yokohama, Japan also contributed to the research study.

This work was financially supported by a Fostering Joint International Research A grant (no. 19KK0393) from the Ministry of Education, Culture, Sports, Science, and Technology of Japan.

###

Yokohama National University (YNU or Yokokoku) is a Japanese national university founded in 1949. YNU provides students with a practical education utilizing the wide expertise of its faculty and facilitates engagement with the global community. YNU’s strength in the academic research of practical application sciences leads to high-impact publications and contributes to international scientific research and the global society. For more information, please see: https://www.ynu.ac.jp/english/

 

 

Novel compound protects against infection by virus that causes COVID-19, preliminary studies show


Peer-Reviewed Publication

DANA-FARBER CANCER INSTITUTE




Compounds that obstruct the "landing gear" of a range of harmful viruses can successfully protect against infection by the virus that causes COVID-19, a study published today and led by Dana-Farber Cancer Institute scientists shows.  Based on the findings, researchers have launched a human clinical trial of one such compound made by chemically stabilizing a key coronavirus peptide.

If the compound, called a stapled lipopeptide, proves effective as a nasal spray in the trial, it could be the basis for a new drug modality to prevent or treat COVID-19, say the authors of the study, posted online today in the journal Nature Communications.  Because such compounds foil a mechanism used by many types of viruses to enter and infect cells, stapled lipopeptides may also be effective against dangerous and potentially deadly viruses such as RSV, Ebola, and Nipah, as the authors also demonstrate in their study.

"Although vaccines, monoclonal antibodies, and small molecule drugs have played a crucial role in protecting people from life-threatening COVID-19 infection, there remains a critical gap in the treatment arsenal," says Loren Walensky, MD, PhD, Physician and Principal Investigator, Linde Program in Cancer Chemical Biology at Dana-Farber/Boston Children’s Cancer and Blood Disorders Center. He led the research with Gregory Bird, PhD, of Dana-Farber and Robert Davey, PhD, of Boston University’s National Emerging Infectious Diseases Laboratories (NEIDL). 

“The constant evolution of the virus and the emergence of new variants has markedly decreased the effectiveness of immune-based approaches, requiring periodic reformulation of vaccines.  What has been missing are fast-acting, easy-to-administer, and resistance-proof agents that can be used before or after exposure to the virus to directly prevent infection or reduce symptoms.  Our study is an encouraging indication that stapled lipopeptides offer that potential,” Walensky added.

“It was exciting to see how these peptides, which work by jamming the gears of the virus infection machine, moved quickly from a basic idea on paper to being effective with the viruses and in real disease models,” said Robert Davey, PhD, Professor, Microbiology at Boston University’s NEIDL. “This was a great collaboration that started in the very first days of the pandemic when we wanted to work out a treatment for SARS-CoV-2 using the great biocontainment resources we have at Boston University. Our two labs worked very well together, and this is something we will continue to do in the future on other viruses that I work on like Ebola.” 

Unlike mRNA vaccines, which are a form of immune-based therapy that provides delayed protection and also requires periodic administration due to viral mutation and/or waning immunity, the stapled lipopeptides developed by Walensky's lab act directly on SARS-CoV-2, the coronavirus responsible for COVID-19, interfering with its ability to infect healthy cells.  Because this approach does not use the immune system as an intermediary, it is especially promising for people with weakened immune systems, either due to their disease or treatment with immunosuppressive agents, such as chemotherapy.

Walensky's lab has pioneered the development and application of stapled peptides for nearly 20 years.  These unique agents consist of natural peptides – a stretch of amino acids in a defined sequence – whose bioactive structure is chemically stabilized by an installed “staple” and, in this case, further linked to a lipid, which is believed to help concentrate the stapled peptide at the site of viral infection – the membrane surface of the otherwise healthy cell.  The new study shows that stapled lipopeptides are exceptionally stable, resisting extremes of temperature and chemical conditions, an important feature for persistence both inside and outside the body. The design strategy not only prevents peptide degradation in the body upon administration, but also remedies prior challenges with shipment and storage, such as the required cold chain for COVID-19 vaccines.

In 2010, Walensky's lab first developed double-stapled peptides that target the same key step in the process by which the human immunodeficiency virus (HIV) binds to, and then infects, human cells, causing AIDS.  The stapled peptides mimicked the virus's "landing gear," a bundle of six coils or “helices” of the virus that comes together, enabling the virus to fuse with the membrane of the host cell.  The therapeutic approach, known as fusion inhibition, prevents the virus from entering the cell to off-load its nucleic acid blueprint, which otherwise turns the cell into a virus-producing factory.  The stapled peptide, which mimics one of the coiled regions, disrupts formation of the fusion apparatus, halting infection at its source.

In 2014, Walensky's team developed analogous stapled peptides targeting this same feature of the RSV virus, which can cause severe respiratory illness and even respiratory failure in the elderly and very young alike.  They showed that administering the stapled peptide as a nose drop could prevent RSV infection in mice and also prevent the spread of established nasal infection from migrating to the lungs. When the COVID-19 pandemic broke out in early 2020, Walensky's lab promptly converted one of the coiled motifs of the SARS-CoV-2 six-helix bundle into a stapled peptide in an effort to develop a therapeutic for pre- and post-exposure prophylaxis.

"Remarkably, the viral peptide sequence that we use to block the fusion apparatus is 100% identical between SARS-CoV-2 and SARS1, which emerged as a deadly respiratory virus in 2003,” notes Walensky.  He points out that, in contrast to the viral sequences that mutate frequently to evade immune-based therapies, the virus’s fusion sequences are rarely altered due to the critical role of six-helix bundle assembly in promoting viral infection. In cooperation with researchers expert in highly pathogenic viruses at the NEIDL, Walensky's team began developing dozens of stapled peptide fusion inhibitors for anti-viral testing, altering the location of the staple and the linker between the staple and the lipid, to determine which version worked best against the broadest spectrum of SARS-CoV-2 variants. Ironically, as the virus evolved to evade vaccines and monoclonal antibodies, the more effective the stapled lipopeptides became, owing to the essential nature of the fusion mechanism they target.

Then, in partnership with the laboratory of Richard Bowen, DVM, PhD, of Colorado State University and the newly formed Red Queen Therapeutics of Cambridge, Massachusetts that licensed the Dana-Farber technology, the Walensky lab began testing the inhibitors in hamsters.  The studies evaluated a lead stapled lipopeptide as a preventive and therapeutic agent.  The animals were randomly selected to receive an inhibitor before and/or after nasal inoculation with SARS-CoV-2.

The results were very encouraging, Walensky remarks.  The animals in each group that received the inhibitor maintained their weight, an indication that they remained well despite viral exposure.  Examination of their noses showed a relative drop in viral titers compared to the untreated control group and evaluation of their lung tissue found that the animals were significantly protected from severe pneumonia, a common complication of COVID-19.

"Similar to what we saw with RSV, nasal treatment with a stapled peptide fusion inhibitor – even if given after inoculation with SARS-CoV-2 – prevented the infection from adversely affecting the lungs and causing severe disease," Walensky comments.

A second set of studies explored whether the inhibitors could help reduce transmission of the virus from one hamster to another.  Again, the results were encouraging.  "Animals that weren't treated consistently lost weight.  Those that received treatment, either before or after exposure to an infected hamster, preserved their weight," Walensky notes.  Correspondingly, viral loads in the noses and lungs of treated animals were lower than in untreated animals.

The fact that many viruses with pandemic potential rely on the six-helix bundle to enter and infect cells suggests that stapled lipopeptides developed by Walensky's lab can be adapted to block or reduce infection by other viruses “on demand.”

“Red Queen Therapeutics was founded on the conviction that this novel technology from the Walensky lab would be broadly applicable in successfully combating viral threats, using a pre- and post-exposure prophylaxis paradigm, and COVID presents a proving ground as well as an important opportunity in its own right,” said Ron Moss, M.D., CEO of Red Queen Therapeutics. “We are excited to validate data in this publication with our human trials in SARS-CoV-2 now under way and anticipate having data to share later this quarter,” he added.

"This approach has the potential to fill an important gap in our arsenal against COVID-19 and other viruses that cause severe respiratory and hemorrhagic diseases," Walensky relates.  "Imagine being able to protect yourself from COVID-19 or other disruptive respiratory viruses with a simple nasal spray that you could use to avoid infection at a large gathering or after exposure to a close contact who turns out to test positive for SARS-CoV-2.  That is the promise this work holds, not only for otherwise healthy individuals, but especially for immunocompromised patients who remain most at risk of severe infection. As a Dana-Farber chemical biology lab that specializes in studying mechanisms of cancer chemoresistance in children, my group has also been interested in tackling the secondary causes of morbidity and mortality in our patients, and that includes life-threatening infections by treatment-resistant bacteria and viruses.     

The research was supported by the Dana-Farber Cancer Institute, a grant from the Massachusetts Consortium on Pathogen Readiness and the National Institutes of Health to the NEIDL, and the Pre-clinical Services Program of the National Institute for Allergy and Infectious Diseases, which funded in part the animal testing performed at Colorado State University.

 

UofL study shows nicotine in e-cigarettes may not be harmless, as some claim


Pod-based e-cigarettes with higher nicotine more likely to cause irregular heartbeat


Peer-Reviewed Publication

UNIVERSITY OF LOUISVILLE




With the start of a new year, smokers and vapers may have resolved to quit or cut back on the habit to improve their health. They may want to use caution, however, if their strategy involves switching from cigarettes to e-cigarettes, considered by some to be a less harmful alternative.

A new study from the University of Louisville shows the nicotine in certain types of e-cigarettes may be more harmful than others, increasing risk for irregular heartbeat, or heart arrhythmias.

A popular claim is that nicotine in e-cigarettes is relatively harmless, whereas additives and combustion products largely account for the harms of traditional cigarettes. The UofL research, which tested the effects of e-cigarettes with various types and doses of nicotine in animal models, showed that the nicotine form contained in pod-based e-cigarettes, nicotine salts, led to heart arrhythmias, particularly at higher doses.

In the study, published in Nicotine and Tobacco Research, researchers compared heart rate and heart rate variability in mice exposed to vape aerosols containing different types of nicotine. The aerosols contained either freebase nicotine, used in older types of e-cigarettes; nicotine salts, used in Juul and other pod-based e-cigarettes; or racemic freebase nicotine, simulating the recently popularized synthetic nicotine; and their effects were compared to nicotine-free e-cigarette aerosols or air. In addition, the research team delivered increasing concentrations of the nicotine over time, from 1% to 2.5% to 5%.

The nicotine salts induced cardiac arrhythmias more potently than freebase nicotine, and the cardiac arrhythmias increased with the higher concentrations of nicotine.

“This suggests the nicotine is harmful to the heart and counters popular claims that the nicotine itself is harmless,” said Alex Carll, assistant professor in UofL’s Department of Physiology, who led the study. “Our findings provide new evidence that nicotine type and concentration modify the adverse cardiovascular effects of e-cigarette aerosols, which may have important regulatory implications.”

The study also revealed that the higher levels of nicotine salts increased sympathetic nervous system activity, also known as the fight-or-flight response, by stimulating the same receptor that is inhibited by beta blockers, heart medications which are prescribed to treat cardiac arrhythmias. In the autonomic nervous system, sympathetic dominance increases the fight-or-flight response in bodily functions, including heart rate.

“The nicotine in e-cigarettes causes irregular heartbeats (arrhythmias) in a dose-dependent manner by stimulating the very receptor that many heart medications are designed to inhibit,” Carll said. 

The findings conclude that inhalation of e-cig aerosols from nicotine-salt-containing e-liquids could increase cardiovascular risks by inducing sympathetic dominance and cardiac arrhythmias.

This work is part of a growing body of research on the potential toxicity and health impacts of e-cigarettes reported by the American Heart Association Tobacco Regulation and Addiction Center, for which UofL serves as the flagship institute. The team’s previous research found that exposure to e-cigarette aerosols containing certain flavors or solvent vehicles caused ventricular arrhythmias and other conduction irregularities in the heart, even without nicotine, leading Carll to speculate that the arrhythmias may not be the result of the nicotine alone, but also by the flavors and solvents included in the e-cigarettes.

The researchers concluded that, if these results are confirmed in humans, regulating nicotine salts through minimum pH standards or limits on acid additives in e-liquids may mitigate the public health risks of vaping.

Even without regulatory changes, however, the research suggests that users may reduce potential harm by opting for e-cigarettes with freebase nicotine instead of nicotine salts or using e-cigarettes with a lower nicotine content.

 

Protected areas for elephants work best if they are connected


Protection has kept populations stable, but to rebound elephants need connections


Peer-Reviewed Publication

DUKE UNIVERSITY

Elephant Connection Growth Map 

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MAP OF ELEPHANT POPULATION GROWTH RATES ACROSS SOUTHERN AFRICA. FIGURE REPRODUCED FROM HUANG ET AL. 2024 (DOI: 10.1126/SCIADV.ADK2896)

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CREDIT: FIGURE REPRODUCED FROM HUANG ET AL. 2024 (DOI: 10.1126/SCIADV.ADK2896)




PRETORIA, SOUTH AFRICA – Conservation measures have successfully stopped declines in the African savanna elephant population across southern Africa, but the pattern varies locally, according to a new study.

The evidence suggests that the long-term solution to elephant survival requires not only that areas are protected but that they are also connected to allow populations to stabilize naturally, an international research team says.

Their study, published on January 5th in the peer-reviewed journal Science Advances, collected survey estimates and calculated growth rates for more than 100 elephant populations in southern Africa between 1995 and 2020, accounting for an estimated 70% of the global savanna elephant population.

“This is the most comprehensive analysis of growth rates for any large mammal population in the world,” said co-author Rob Guldemond, director of the Conservation Ecological Research Unit (CERU) at the University of Pretoria, in South Africa.

Overall, the survey’s results are positive: There are the same number of elephants now as there were 25 years ago, a rare conservation win at a time when the planet is rapidly losing biodiversity. However, the pattern is not consistent across regions. Some areas, such as south Tanzania, eastern Zambia, and northern Zimbabwe, experienced severe declines due to illegal ivory poaching. In contrast, populations in other regions like north Botswana are booming.

“Unchecked growth isn’t necessarily a good thing, however,” says study co-author Stuart Pimm, the Doris Duke Professor of Conservation at Duke University in North Carolina. “Rapidly increasing populations can outgrow and damage their local environment and prove hard to manage — introducing a threat to their long-term stability,” Pimm says.

In addition to documenting local growth rates, the team also looked at the features of the local populations to identify what makes them stable, that is neither growing nor declining.

Elephant populations in well-protected but isolated parks, sometimes called “fortress conservation,” grow rapidly in the absence of threats but are unsustainable in the long term. These elephants will likely need future conservation interventions, such as translocation or birth control, which are both costly and intensive endeavors.

The team found that the most stable populations occur in large, core areas that are surrounded by buffer zones. The core areas are defined by their strong levels of environmental protection and minimal human impact, whereas the buffers allow some activities such as sustainable farming, forestry, or trophy hunting. Unlike the insular fortresses, core areas are connected to other parks, allowing herds to move naturally.

“What’s crucial is that you need a mix of areas with more stable core populations linked to more variable buffer areas,” said lead author Ryan Huang, a Duke Ph.D. now doing postdoctoral research at CERU.

“These buffers absorb immigrants when core populations get too high, but also provide escape routes when elephants face poor environmental conditions or other threats such as poaching,” Huang said.

Connecting protected areas means elephants can freely move in and out. This allows a natural equilibrium to occur without human intervention, sparing conservationists from using their limited resources to maintain balance.

“Calling for connecting parks isn’t something new. Many have done so,” Huang said. “But surprisingly, there has not been a lot of published evidence of its effectiveness so far. This study helps quantify why this works.”

“Connecting protected areas is essential for the survival of African savanna elephants and many other animal and plant species,” said Celesté Maré, co-author and doctoral student at Aarhus University in Denmark. “Populations with more options for moving around are healthier and more stable, which is important given an uncertain future from climate change.”

CITATION: “Protecting and Connecting Landscapes Stabilizes Populations of the Endangered Savannah Elephant,” Ryan M. Huang, Celesté Maré, Robert A. R. Guldemond, Stuart L. Pimm, Rudi J. van Aarde. Science Advances, Jan. 5, 2024. DOI: 10.1126/sciadv.adk2896


A herd of elephants in Hwange National Park, Zimbabwe.


Elephants take a dust bath to stay cool in Botswana.

CREDIT

Photograph by Prof. Rudi van Aarde

Baby elephant in South Luangwa National Park, Zambia.

CREDIT

Photograph by Ryan M. Huang

 

Cult mentality: SLU professor makes monumental discovery in Italy


Reports and Proceedings

SAINT LOUIS UNIVERSITY

Imperial Cult Ruins 

IMAGE: 

AN AERIAL PHOTOGRAPH OF THE NEWLY-DISCOVERED IMPERIAL CULT RUINS BY DOUGLAS BOIN, PH.D., AND HIS TEAM. 

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CREDIT: DOUGLAS BOIN, PH.D.




Douglas Boin, Ph.D., a professor of history at Saint Louis University, made a major announcement at the annual meeting of the Archeological Institute of America, revealing he and his team discovered an ancient Roman temple that adds significant insights into the social change from pagan gods to Christianity within the Roman Empire. 

“We found three walls of a monumental structure that evidence suggests belonged to a Roman temple that dates to Constantine's period,” Boin said. “It dates to the fourth century AD and it would be a remarkable addition to the landscape of this corner of Italy. It will significantly aid in the understanding of the ancient town, the ancient townscape and city society in the later Roman Empire because it shows the continuities between the classical pagan world and early Christian Roman world that often get blurred out or written out of the sweeping historical narratives.”

Boin and his excavation team made the monumental discovery over the summer. Boin, an expert in ancient Roman and its religious transitions, had been digging in the town of Spello, the famous medieval hilltop city about 20 minutes from Assisi and 2.5 hours north of Rome. Boin selected the town based on a rescript of a 4th century letter from Emperor Constantine to the townspeople regarding a religious holiday. 

This rescript, which was discovered in the 18th century, allowed the people of Spello to celebrate a religious festival in their hometown rather than travel a great distance to another festival. However, in order to do so, the town was told it must erect a temple to Constantine’s divine ancestors, the Flavian family, and worship them, showcasing how multicultural Roman society was at the time.

“There was a remarkable religious continuity between the Roman world and the early Christian world,” Boin said. “Things didn't change overnight. Before our find, we never had a sense that there were actual physical, religious sites associated with this late ‘imperial cult practice.’ But because of the inscription and its reference to a temple, Spello offered a very tantalizing potential for a major discovery of an Imperial cult underneath a Christian ruler.”

Boin traveled to Spello and oversaw underground imaging to determine if there were any potential ruins below the surface that needed to be uncovered. After many weeks, and almost by chance, Boin finally received promising images underneath a parking lot where the temple was suspected to be. 

Very carefully, the team dug into the ground until they found two adjoining walls. More digging unearthed what Boin believes to be the inside walls of the temple. This temple immediately became what Boin calls the largest evidence ever of the Imperial Cult in both fourth-century Italy and the late Roman Empire.. 

There's evidence from other places throughout the Roman world that Christian rulers supported imperial cult practices,” Boin said. “We've known that pagans worshiped at their temples in the fourth century, but those findings have all been small and inconsequential. And we've known that Christians supported the imperial cult, and we’ve known that without any sense of where it would have happened. This temple bridges those two landmarks, and in that respect, it is unlike any temple that I know about from the Mediterranean world of the fourth century Roman Empire. Any study of the imperial cult in the fourth century Roman Empire is now going to have to take account of this temple, which is an incredible discovery to make.”

With the discovery, Boin now can show how the societal changes of the time moved very slowly. Though Constantine was the first Roman emperor to famously convert to Christianity, it would take almost 70 years for Christianity to become the official religion of the Roman Empire, under the Emperor Theodosius. During that time it still took many convincing and gradual shifts for those who worshiped pagan gods to convert to Christianity.

“This changes everything about how we perceive the pace of social change and our impression of the impact of social and cultural change,” Boin said. “This building, in a very radical way on its own, shows us the staying power of the pagan traditions that had been on the ground for centuries prior to the rise of Christianity, and it shows us how the Roman emperors continued to negotiate their own values, their own hopes and dreams for the future of the emperor and the Empire without knocking down or burying the past.”

Boin and his team will return to Spello next summer to completely excavate the area to examine the full temple, where he hopes to make even more significant discoveries. 

“We are on the cusp of giving people a very visible piece of evidence that really upends the neat and tidy ways people think about big moments of cultural change,” Boin said “Cultural changes are never as big as we think they are when living through them, and there’s a lot of gray area in between people’s customs and the broader society and culture. And a lot of those can be left out of the story. So to have this temple potentially be a temple dedicated to Constantice’s divine ancestors as a way to worship the emperor in an increasingly Christian world at the time, it’s so weird and I love that we can bring it to light.

 

After COP28 “insider” climate activists will become increasingly important, study suggests.

Peer-Reviewed Publication

UNIVERSITY OF EXETER

Climate campaigners will increasingly adopt “insider activist” roles, working to change or challenge their organisations from the inside rather than the outside, a new study says.

Research led by the University of Exeter identifies different types of climate activists. As well as “insiders”, there are others who seek to undermine, or even damage, climate-recalcitrant organisations they are members of in the hope of change.

The study says the growing climate backlash against traditional outside climate activism and rise of corporate “greenwashing” means collaborating or contesting for meaningful climate action from the inside of organisations is going to become an important new venue for climate activism.

Insider activists often team-up to work with others in different areas of their organisation or other groups.

The research, was conducted by Nick Kirsop-Taylor and Duncan Russel from the University of Exeter, and Anne Jensen, from the University of Aarhus. They analysed 48 existing studies as part of a literature review.

Dr Kirsop-Taylor said: “We found some activists utilise the tools of discussion and persuasion to influence others towards change. Groups of like-minded activists join together to form pressure groups that seek change in others through mobilisation, symbolic protest, and rational discourse drawing attention to injustices, imbalances, and other activist focus. Efforts are based on high levels of expertise in areas relevant to the topic.

“In contrast there are expert activists, who use their knowledge and expertise in their organisation to pursue change. Their risk profile is different, as they are risking their professional authority and legitimacy, and perceived scientific impartiality in their field of expertise.

“Some individuals adopt the philosophical perspective that confrontation is the more effective lever for precipitating change in others. They rarely work in true isolation but they can challenge and contest the opinions, positions, and privileges of others and seek to shame or force them to change rather than through reason and dialogue.

“Where and when critics seeking change in others coalesce and network with like-minded individuals, they can form social movements that exert themselves and take risks collectively for their shared cause. This includes mass civil disobedience, and in places, even violent and non-violent direct action in the pursuit of their cause. This can become the gateway to extremist activist identities and activities.”