Thursday, March 21, 2024

New model clarifies why water freezes at a range of temperatures

AMERICAN CHEMICAL SOCIETY

NEW ORLEANS, March 20, 2024 — From abstract-looking cloud formations to roars of snow machines on ski slopes, the transformation of liquid water into solid ice touches many facets of life. Water’s freezing point is generally accepted to be 32 degrees Fahrenheit. But that is due to ice nucleation — impurities in everyday water raise its freezing point to this temperature. Now, researchers unveil a theoretical model that shows how specific structural details on surfaces can influence water’s freezing point.

The researchers will present their results at the spring meeting of the American Chemical Society (ACS). ACS Spring 2024 is a hybrid meeting being held virtually and in person March 17-21; it features nearly 12,000 presentations on a range of science topics.

“Ice nucleation is one of the most common phenomena in the atmosphere,” says Valeria Molinero, a professor of physical and materials chemistry. “In the 1950s and 1960s, there was a surge of interest in ice nucleation to control weather through cloud seeding and for other military goals. Some studies addressed how small shapes promote ice nucleation, but the theory was undeveloped, and no one has done anything quantitative."

When temperatures drop, the molecules in liquid water, which normally speed around and zip past one another, lose energy and slow down. Once they lose enough energy, they grind to a halt, orient themselves to avoid repulsions and maximize attractions, and vibrate in place, forming the crystalline network of water molecules we call ice. When liquid water is completely pure, ice may not form until the temperature gets down to a frigid –51 degrees Fahrenheit; this is called supercooling. But when even the tiniest impurities — soot, bacteria or even particular proteins — are present in water, ice crystals can form more easily on the surfaces, resulting in ice formation at temperatures warmer than –51 degrees Fahrenheit.

Decades of research have revealed trends in how the shapes and structures of different surfaces affect water’s freezing point. In an earlier study on ice-nucleating proteins within bacteria, Molinero and her team found that the distances between the groups of proteins could impact the temperature at which ice formed. “There were distances that were very favorable for ice formation, and distances that were completely opposite,” says Molinero.

Similar trends had been observed for other surfaces, but no mathematical explanation had been found. “People before already had a sense of ‘oh maybe a surface will inhibit or promote ice nucleation,’ but no way to explain or predict what they observed experimentally,” says Yuqing Qiu, a postdoc, who is presenting the work at the meeting. Both Qiu and Molinero carried out this research at the University of Utah, though Qiu now works at the University of Chicago.

To address this gap, Molinero, Qiu and team gathered hundreds of previously reported measurements on how the angles between microscopic bumps on a surface affected water’s freezing temperature. They then tested theoretical models against the data. They used the models to consider factors that would encourage ice crystal formation, such as how strongly water binds to the surfaces and angles between structural features.

In the end, they identified a mathematical expression that shows that certain angles between surface features makes it easier for water molecules to gather and crystallize at relatively warmer temperatures. They say their model can help design materials with surfaces that would make ice form more efficiently with minimal energy input. Examples include snow or ice makers, or surfaces that are suitable for cloud seeding, which is used by several Western states to increase rainfall. It could also help better explain how tiny mineral particles in the atmosphere help make clouds through ice nucleation, potentially making weather models more effective.

The researchers plan to use this model to return to their studies of ice-nucleating proteins in bacteria. More than 200 proteins are believed to be ice-nucleating proteins, but their structures are not all known. The researchers hope to study proteins with structures that have been solved with AI tools, and then they will model how aggregates of those proteins affect ice formation.

The research was funded by the National Science Foundation, the Air Force Office of Scientific Research and the Yen Fellowship from the Institute for Biophysics Dynamics at the University of Chicago.

Visit the ACS Spring 2024 program to learn more about this presentation, “The most potent snow makers,” and more scientific presentations.

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The American Chemical Society (ACS) is a nonprofit organization chartered by the U.S. Congress. ACS’ mission is to advance the broader chemistry enterprise and its practitioners for the benefit of Earth and all its people. The Society is a global leader in promoting excellence in science education and providing access to chemistry-related information and research through its multiple research solutions, peer-reviewed journals, scientific conferences, eBooks and weekly news periodical Chemical & Engineering News. ACS journals are among the most cited, most trusted and most read within the scientific literature; however, ACS itself does not conduct chemical research. As a leader in scientific information solutions, its CAS division partners with global innovators to accelerate breakthroughs by curating, connecting and analyzing the world’s scientific knowledge. ACS’ main offices are in Washington, D.C., and Columbus, Ohio.

To automatically receive news releases from the American Chemical Society, contact newsroom@acs.org.

Note to journalists: Please report that this research was presented at a meeting of the American Chemical Society. ACS does not conduct research, but publishes and publicizes peer-reviewed scientific studies.

Title
The most potent snow makers

Abstract
Several organisms have evolved proteins that control the formation of ice. Ice nucleating bacteria are the most potent ice-nucleating agents in the biosphere and the atmosphere, contributing to cloud glaciation and precipitation, and routinely used for the synthetic production of snow. These bacteria have proteins in their outer membrane that are able to nucleate ice at temperatures as high as –1 °C. This presentation will discuss our quest to elucidate the mechanisms by which bacterial proteins and other potent ice nucleants promote water crystallization, what makes them so outstanding, and whether we can design materials that outperform them.

A new discovery in extraction technology of HEMP fiber

Exploring hemp seed hull biomass for an integrated C-5 biorefinery: Xylose and activated carbon

JOURNAL OF BIORESOURCES AND BIOPRODUCTS

A New Discovery in Extraction Technology of HEMP Fiber — IMAGE:
EXPLORING HEMP SEED HULL BIOMASS FOR AN INTEGRATED C-5 BIOREFINERY: XYLOSE AND ACTIVATED CARBON
view more
CREDIT: AGANNADH SATYAVOLU, CONN CENTER FOR RENEWABLE ENERGY RESEARCH, UNIVERSITY OF LOUISVILLE, KENTUCKY 40292, UNITED STATES; BIOPRODUCTS LLC, LOUISVILLE, KENTUCKY 40206, UNITED STATES.

Hemp containing 𝛿-tetrahydrocannabinol below legal limits (< 0.3%) commonly referred as industrial hemp is an annual cash crop gaining attention in the United States and European countries. Earlier studies in this lab on seed hulls has showed its potential as substrate for C-5 biorefinery due to its low lignin and high hemicellulose content. It can effectively reduce costs. A typical C5 biorefinery focuses on extraction of xylose by hydrolyzing biomass using dilute acids and converting xylose to xylitol and other chemical precursors. The remaining xylose stripped biomass can be converted to other value-added products such as activated carbon (AC). Successful portable energy storage systems such as Li-ion batteries require renewable, sustainable and low-cost electrode material and high surface area AC’s can meet this demand.

For a C-5 biomass biorefinery process, the choice of acid and the hydrolysis conditions is an important factor. Commonly preferred acid for dilute acid hydrolysis is sulphuric acid (SA). However, SA pre-treatment/hydrolysis requires downstream processing in the form of acid neutralization which is expensive and leads to generation of sulphate wastes. Jagannadh Satyavolu’s Team find that it can effectively solve such problems by using methane sulphonic acid (MSA) to replace SA. Moreover, they discuss the production of xylose and AC from hemp seed hull with methane sulphonic acid (MSA) hydrolysis. And dilute acid hydrolysis of hemp seed hull with MSA is 31% higher yields when compared to traditional dilute acid hydrolysis with sulphuric acid (SA) at the same acid loading rate. In addition, the result shows that AC produced from MSA hydrolyzed and KOH activated hemp seed hull delivered an order of magnitude higher surface area when compared to SA hydrolyzed and KOH activated AC. The MSA is found to have delignification properties and therefore removal of hemicellulose along with lignin leads to formation of pure cellulose structures and this property has a great positive impact on high surface area AC formation.

See the article:

DOI

https://doi.org/10.1016/j.jobab.2024.01.002

Original Source URL

https://www.sciencedirect.com/science/article/pii/S2369969824000136

Journal

Journal of Bioresources and Bioproducts

JOURNAL

Journal of Bioresources and Bioproducts

DOI

10.1016/j.jobab.2024.01.002

METHOD OF RESEARCH

Experimental study

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Exploring hemp seed hull biomass for an integrated C-5 biorefinery: Xylose and activated carbon

Cleaning up environmental contaminants with quantum dot technology

AMERICAN CHEMICAL SOCIETY

NEW ORLEANS, March 20, 2024 — The 2023 Nobel Prize in Chemistry was focused on quantum dots — objects so tiny, they’re controlled by the strange and complex rules of quantum physics. Many quantum dots used in electronics are made from toxic substances, but their nontoxic counterparts are now being developed and explored for uses in medicine and in the environment. One team of researchers is focusing on carbon- and sulfur-based quantum dots, using them to create safer invisible inks and to help decontaminate water supplies.

The researchers will present their results today at the spring meeting of the American Chemical Society (ACS). ACS Spring 2024 is a hybrid meeting being held virtually and in person March 17-21; it features nearly 12,000 presentations on a range of science topics.

Quantum dots are synthetic nanometer-scale semiconductor crystals that emit light. They are used in applications such as electronics displays and solar cells. “Many conventional quantum dots are toxic, because they’re derived from heavy metals,” explains Md Palashuddin Sk, an assistant professor of chemistry at Aligarh Muslim University in India. “So, we’re working on nonmetallic quantum dots because they’re environmentally friendly and can be used in biological applications.”

Quantum dots are tiny — usually only tens of atoms in diameter. Because they’re so small, their properties are controlled by quantum effects, which makes them act a little strangely compared to larger objects. Namely, they emit light differently than one might expect; for example, gold materials appear blue on this scale. Nonmetallic quantum dots exhibit the same effect and have been explored by other researchers as a tool for bioimaging. Palashuddin has focused on designing carbon- and sulfur-based quantum dots (Cdots and Sdots, respectively) for a variety of other applications.

“Carbon and sulfur are very abundant, cost-effective materials, and they can easily be synthesized into quantum dots,” he says. “You can make carbon dots from waste materials, then use them for removing pollutants — they’re a way to make the process come full circle.”

Palashuddin has already put Cdots and Sdots to work in a variety of ways, though both are relatively recent discoveries. Though small, the dots have a large surface area, which can easily be functionalized to adapt the dots for different applications. Previously, the team designed dots that shined different colors, depending on which contaminants they encountered. That meant they could help identify contaminants — such as lead, cobalt and chromium — in a water sample without leaching any new metals from the dots themselves.

In addition to identifying contaminants, Cdots can help break down pollutants such as pesticides and dyes in water. In one project, Palashuddin and collaborator Amaresh Kumar Sahoo, an assistant professor who studies nanobiotechnology at the Indian Institute of Information Technology, formed Cdots from potato peels and then mounted them on microscopic robots designed to target and degrade toxic dyes in samples simulating polluted water.

The team has also developed methods to remove contaminants from water entirely, rather than just identifying or degrading them. They’ve specially designed Cdots to sop up automotive oil and are currently exploring a Cdot-based filter system to help treat oil spills.

Next, the researchers plan to put their laboratory findings to work in the field, possibly in a project focused on the Yamuna River. This river runs directly through New Delhi and is famously contaminated, especially in more populated areas. Palashuddin hopes to use his team’s nonmetallic dots to identify and separate the various pollutants in the river, including pesticides, surfactants, metal ions, antibiotics and dyes. Ideally, the dots will be functionalized to grab as many of these different contaminants on their surfaces as possible, so they can then be easily removed.

The potential uses for nonmetallic dots don’t just end with water treatment, though. Palashuddin and colleagues are currently investigating uses that could align more closely with traditional, metal-based dots, but without the toxicity concerns. As an example, some light-emitting quantum dots developed by the team could be included in invisible inks to help prevent counterfeiting, or incorporated into light-emitting devices, including television screens.

The team hopes that their work can help broaden the uses for nonmetallic quantum dots and put their unique properties to work in the environment.

The research was funded by the Science and Engineering Research Board and the University Grants Commission of the Government of India.

Visit the ACS Spring 2024 program to learn more about this presentation, “Non-metallic luminescent quantum dots for potential environmental remediation applications,” and more scientific presentations.

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To automatically receive news releases from the American Chemical Society, contact newsroom@acs.org.

Title
Non-metallic luminescent quantum dots for potential environmental remediation applications

Abstract
Non-metallic quantum dots have emerged as a promising paradigm in addressing pressing environmental challenges, outperforming their metallic counterparts. Research endeavors span a comprehensive array of applications, manifesting the multifaceted potential inherent in non-metallic quantum dots. We are developing non-metallic quantum dots like carbon dots (Cdots) and sulfur dots (Sdots) based smart materials for environmental remediation applications. Luminescent Sdots is an emerging metal-free quantum dots. We have reported that Sdots can potentially discriminate colorimetrically and fluorometrically multiple toxic metal ions and separate these metal ions from water. Sdots are found to be low-toxic and suitable candidate for bioimaging. Further, Sdots exhibit antibacterial activity under sunlight. The visible-light-driven photocatalytic properties of Sdots can be used to disinfect the diverse locations of interest.

Concurrently, we explored the superhydrophobic properties of biomass-derived Cdots and unveiled their exceptional capability to selectively separate oil from water in diverse environments, offering a sustainable approach to addressing oil spill contamination. Biomass-derived Cdots are reported as an excellent antibacterial agent, focusing on combating drug-resistant bacterial strains. The findings have underscored their superior antibacterial activity, offering a novel avenue for addressing drug-resistant bacterial infections. Recently, we have developed potato peel-derived autonomous magnetic microbots for the degradation of toxic dyes as well as neurotoxic pesticides. These studies underscore the diverse and promising applications of non-metallic quantum dots in environmental remediation, contributing significantly to the ongoing efforts to address environmental challenges.

First International Forum on Challenges of and Responses to Zoonoses

COMPUSCRIPT LTD

IMAGE:

CONFERENCE LOGO

CREDIT: ZOONOSES

Call for Abstracts and Posters: Submission Now Open

Important Deadlines

Abstract submission: July 1st 2024	https://conference.zoonoses-journal.org/submit-abstracts/
Poster submission: September 1st 2024

Early bird registration: April 30th, 2024 https://conference.zoonoses-journal.org/

The 1st International Forum on Challenges of and Responses to Zoonoses will be held at Shanxi Agricultural University, Taigu District, Jinzhong, China on October 29 – 31, 2024.

Shanxi Agricultural University and Zoonoses journal will jointly host this Forum, with a goal to address increasing cross-border threats of zoonotic diseases, to promote awareness and effective control of the harmfulness of zoonotic diseases, and to facilitate the translation/development of novel tools for zoonotic disease management.

The Forum will host global leading scientists in the field of zoonotic diseases and discuss the challenges of and effective responses to zoonotic diseases. The Forum will serve as a crucial platform for researchers, policymakers, and stakeholders to exchange knowledge and foster collaboration to address the global challenge of zoonoses.

Topics

The Forum will focus on two main areas at the forefront of zoonotic disease research:

Infection and immunity of zoonotic pathogens
The spread, diagnosis, and prevention of zoonotic diseases

Forum Chairs

Professor Lynn Soong, Departments of Microbiology & Immunology and Pathology, University of Texas Medical Branch, TX, USA

Professor Xiaoping Dong, Chinese Center for Disease Control & Prevention, Beijing, China

Professor Haidong Wang, Shanxi Agricultural University, Jinzhong, China

Fish fed to farmed salmon should be part of our diet, too, study suggests

The public are being encouraged to eat more wild fish, such as mackerel, anchovies and herring, which are often used within farmed salmon feeds. These oily fish contain essential nutrients including calcium, B12 and omega-3 but some are lost from our diet

Peer-Reviewed Publication

UNIVERSITY OF CAMBRIDGE

Paper available at: https://drive.google.com/drive/folders/144cIFPtY2VSaqV8AfFHy_hh6xlDcLShy?usp=sharing

Scientists found that farmed salmon production leads to an overall loss of essential dietary nutrients. They say that eating more wild ‘feed’ species directly could benefit our health while reducing aquaculture demand for finite marine resources.

Researchers analysed the flow of nutrients from the edible species of wild fish used as feed, to the farmed salmon they were fed to. They found a decrease in six out of nine nutrients in the salmon fillet – calcium, iodine, iron, omega-3, vitamin B12 and vitamin A, but increased levels of selenium and zinc.

Most wild ‘feed’ fish met dietary nutrient recommendations at smaller portion sizes than farmed Atlantic salmon, including omega-3 fatty acids which are known to reduce the risk of cardiovascular disease and stroke.

“What we’re seeing is that most species of wild fish used as feed have a similar or greater density and range of micronutrients than farmed salmon fillets,” said lead author, Dr David Willer, Zoology Department, University of Cambridge.

“Whilst still enjoying eating salmon and supporting sustainable growth in the sector, people should consider eating a greater and wider variety of wild fish species like sardines, mackerel and anchovies, to get more essential nutrients straight to their plate.”

In the UK, 71% of adults have insufficient vitamin D in winter, and teenage girls and women often have deficiencies of iodine, selenium and iron. Yet while, 24% of adults ate salmon weekly, only 5.4% ate mackerel, 1% anchovies and just 0.4% herring.

“Making a few small changes to our diet around the type of fish that we eat can go a long way to changing some of these deficiencies and increasing the health of both our population and planet,” said Willer.

The researchers found consuming one-third of current food-grade wild feed fish directly would be the most efficient way of maximising nutrients from the sea.

“Marine fisheries are important local and global food systems, but large catches are being diverted towards farm feeds. Prioritising nutritious seafood for people can help improve both diets and ocean sustainability,” said senior author Dr James Robinson, Lancaster University.

This approach could help address global nutrient deficiencies say the team of scientists from the University of Cambridge, Lancaster University, University of Stirling and the University of Aberdeen.

The study was published today in the journal, Nature Food.

The scientists calculated the balance of nutrients in edible portions of whole wild fish, used within pelleted salmon feed in Norway, compared to the farmed salmon fillets.

They focused on nine nutrients that are essential in human diets and concentrated in seafood – iodine, calcium, iron, vitamin B12, vitamin A, omega-3 (EPA + DHA), vitamin D, zinc and selenium.

The wild fish studied included Pacific and Peruvian anchoveta, and Atlantic herring, mackerel, sprat and blue whiting – which are all marketed and consumed as seafood.

They found that these six feed species contained a greater, or similar, concentration of nutrients as the farmed salmon fillets. Quantities of calcium were over five times higher in wild feed fish fillets than salmon fillets, iodine was four times higher, and iron, omega-3, vitamin B12, and vitamin A were over 1.5 times higher.

Wild feed species and salmon had comparable quantities of vitamin D.

Zinc and selenium were found to be higher in salmon than the wild feed species – the researchers say these extra quantities are due to other salmon feed ingredients and are a real mark of progress in the salmon sector.

“Farmed salmon is an excellent source of nutrition, and is one of the best converters of feed of any farmed animal, but for the industry to grow it needs to become better at retaining key nutrients that it is fed. This can be done through more strategic use of feed ingredients, including from fishery by-products and sustainably-sourced, industrial-grade fish such as sand eels”, said Dr Richard Newton of the Institute of Aquaculture, University of Stirling, whose team also included Professor Dave Little, Dr Wesley Malcorps and Björn Kok.

“It was interesting to see that we’re effectively wasting around 80% of the calcium and iodine from the feed fish – especially when we consider that women and teenage girls are often not getting enough of these nutrients”.

Willer said “These numbers have been underacknowledged by the aquaculture industry’s standard model of quoting Fish In Fish Out (FIFO) ratios rather than looking at nutrients.

The researchers would like to see a nutrient retention metric adopted by the fishing and aquaculture industries. They believe that if combined with the current FIFO ratio, the industry could become more efficient, and reduce the burden on fish stocks that also provide seafood. The team are building a standardised and robust vehicle for integrating the nutrient retention metric into industry practice.

“We’d like to see the industry expand but not at a cost to our oceans,” said Willer.

“We’d also like to see a greater variety of affordable, convenient and appealing products made of wild ‘feed’ fish and fish and salmon by-products for direct human consumption.”

The research was funded by the Scottish Government’s Rural and Environmental Science and Analytical Services Division (RESAS), a Royal Society University Research Fellowship, a Leverhulme Trust Early Career Fellowship a Henslow Fellowship at Murray Edwards College and the University of Cambridge.

ENDS.

Reference:

D. Willer et al. Wild fish consumption can balance nutrient retention in farmed fish Nature Food DOI: 10.1038/s43016-024-00932-z

Contact details:

Charis Goodyear, University of Cambridge: researchcommunications@admin.cam.ac.uk

Dr David Willer, University of Cambridge dw460@cam.ac.uk

About the University of Cambridge

The University of Cambridge is one of the world’s leading universities, with a rich history of radical thinking dating back to 1209. Its mission is to contribute to society through the pursuit of education, learning and research at the highest international levels of excellence.

Cambridge was second in the influential 2024 QS World University Rankings, the highest rated institution in the UK.

The University comprises 31 autonomous Colleges and over 100 departments, faculties and institutions. Its 24,000 students include around 9,000 international students from 147 countries. In 2023, 73% of its new undergraduate students were from state schools and more than 25% from economically disadvantaged backgrounds.

Cambridge research spans almost every discipline, from science, technology, engineering and medicine through to the arts, humanities and social sciences, with multi-disciplinary teams working to address major global challenges. In the Times Higher Education’s rankings based on the UK Research Excellence Framework, the University was rated as the highest scoring institution covering all the major disciplines.

A 2023 report found that the University contributes nearly £30 billion to the UK economy annually and supports more than 86,000 jobs across the UK, including 52,000 in the East of England. For every £1 the University spends, it creates £11.70 of economic impact, and for every £1 million of publicly-funded research income it receives, it generates £12.65 million in economic impact across the UK.

The University sits at the heart of the ‘Cambridge cluster’, in which more than 5,000 knowledge-intensive firms employ more than 71,000 people and generate £21 billion in turnover. Cambridge has the highest number of patent applications per 100,000 residents in the UK.

www.cam.ac.uk

JOURNAL

Nature Food

DOI

10.1038/s43016-024-00932-z

ARTICLE TITLE

Wild fish consumption can balance nutrient retention in farmed fish

ARTICLE PUBLICATION DATE

20-Mar-2024

Decoding the Easter Bunny – an eastern Finnish brown hare to represent the standard for the species’ genome

Peer-Reviewed Publication

UNIVERSITY OF EASTERN FINLAND

A male brown hare — IMAGE:
A MALE BROWN HARE IN JOENSUU, EASTERN FINLAND. PHOTO BY MERVI KUNNASRANTA.
view more
CREDIT: MERVI KUNNASRANTA.

The Hare Research Group at the Department of Environmental and Biological Sciences, University of Eastern Finland, has published a chromosomally assembled reference genome for the European brown hare. Reference genomes represent a type of a standard for the species genomes, to which any genomic data from the species can be compared.

Traditionally, assembling reference genomes has been very difficult, as they have required constructing cytogenetic and linkage maps of chromosomes, which is why they have been available only for humans and for some well-known model organisms in used in research.

However, recent technological advances have enabled new methods to reconstruct chromosome structures and identify their gene contents. These methods were also utilised in this study to sequence and assemble a reference genome of a brown male hare from Liperi, Eastern Finland. The genome consists of 2.9 billion base pairs, which form 23 autosomal chromosomes, and X and Y sex chromosomes. In total 30,833 genes were identified, of which 21,467 are protein encoding. As a comparison, the human genome is slightly bigger (3.1 billion bases) but has less protein coding genes (20,080).

The brown hare represents the first genome of a Finnish species in the European Reference Genome Atlas (ERGA, https://www.erga-biodiversity.eu/) initiative, which aims to generate reference genomes for all European eukaryotic species.

The reference genome enables and facilitates many types of research with the species in the future, as any DNA sequence data from the species can be rapidly identified by comparing it with the reference. In addition, researchers can seek and identify any interesting parts of the genome, such as individual genes and use these to plan and conduct research. Together with the mountain hare reference genome that is currently under preparation, the brown hare genome has already opened new research avenues into evolutionary history, physiological adaptations and population surveys. Openly accessible genome data and related research will also accelerate development in the field, generating new knowledge, practical applications and innovations.

The timing of the genome release is very appropriate as the brown hare also represents the original Easter Bunny familiar from European folklore. While there are conflicting accounts for the origins and symbolism of the Easter Bunny, brown hares were common in mainland Europe long before rabbits – originating from the Iberian Peninsula – became popular.

The brown hare reference genome is openly accessible and can be browsed via:
https://www.ncbi.nlm.nih.gov/genome/gdv/browser/genome/?id=GCF_033115175.1

Blog post “Finnish hare genomes help to understand local adaptation and the formation of species” by Professor Jaakko Pohjoismäki:
https://www.erga-biodiversity.eu/post/finnish-hare-genomes-help-to-understand-local-adaptation-and-the-formation-of-species

JOURNAL

Peer Community Journal

DOI

10.24072/pcjournal.393

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

High quality genome assembly of the brown hare (Lepus europaeus) with chromosome-level scaffolding.

Cleaner air in Swedish cities brings significant health benefits

UNIVERSITY OF GOTHENBURG

Kilbo Edlund Karl 2024. Photo: Amanda Wykman — IMAGE:
KILBO EDLUND KARL 2024. PHOTO: AMANDA WYKMAN
view more
CREDIT: AMANDA WYKMAN

The air quality in Swedish cities has improved continuously over the last twenty years, according to a research collaboration based at the University of Gothenburg. Several thousand deaths may have been prevented every year, thanks to better air quality. However, many people are still exposed to air pollution that exceeds the World Health Organization’s recommendations.

In the study, the researchers present a high-resolution data model of how air pollution levels have changed over time for six cities in Sweden: Stockholm, Gothenburg, Malmö, Linköping, Uppsala, and Umeå. This means that the study covers more than half of the Swedish population. The results of the study are now published in the journal Air Quality, Atmosphere & Health.

The researchers have studied emissions of fine particles (PM2.5), coarse particles (PM10), and nitrogen oxides (NOx) from local, regional, and international sources. The studied emissions come from sources including traffic, industry, and wood burning, and have decreased significantly in Sweden since 2000. The ambient air concentration of fine particles have decreased by a full 56%, coarse particles by 23%, and nitrogen dioxide by 33% from 2000 to 2018. The largest reduction in fine particles was observed in Gothenburg, while coarse particles and nitrogen oxides decreased the most in Uppsala and Stockholm.

Large health gains

“We estimate that almost 3,000 premature deaths were avoided per year between 2000 and 2018 in the six cities modeled in our study,” says Karl Kilbo Edlund, a doctoral student at the University of Gothenburg’s Sahlgrenska Academy, who is the lead author of the study. “Even more deaths can be avoided through continued work to improve air quality further. Many Swedes are still exposed to air pollution levels that exceed the World Health Organization’s 2021 air quality guidelines.”

Despite improvements in air quality, 65% of residents in the cities included in the study are still exposed to levels of fine particles that exceed the World Health Organization’s guidelines. The study shows that there are significant differences between geographical areas within the six cities, but in general terms the highest exposures are in Malmö.

Pollution moves across long distances, and emissions elsewhere in Europe affect also the air quality in Swedish cities. Falling emissions both in Sweden and abroad therefore explain the improved air quality in Sweden.

The role of pollutants in chronic diseases

The air pollution model will now be used to study the role played by air pollution and other environmental factors in the early stages of chronic diseases, such as cardiovascular disease, metabolic syndrome, and kidney failure. The research is based on data from the large Swedish SCAPIS study, in which 30,000 middle-aged Swedes were surveyed. In the SCAPIS study, researchers from six universities, including University of Gothenburg, collaborate with air quality experts from the Swedish Meteorological and Hydrological Institute, Stockholm Air and Noise Analysis, and the City of Malmö’s Environmental Administration.

Article: High-resolution dispersion modelling of PM2.5, PM10, NOx and NO2 exposure in metropolitan areas in Sweden 2000-2018 – large health gains due to decreased population exposure; https://doi.org/10.1007/s11869-024-01535-0

Illustrative maps from the study can be downloaded free of charge from the Swedish National Data Service: https://doi.org/10.5878/btxv-v698.
If publishing, cite the source: Air pollution and noise maps for SCAPIS environment

JOURNAL

Air Quality Atmosphere & Health

DOI

10.1007/s11869-024-01535-0

METHOD OF RESEARCH

Content analysis

ARTICLE TITLE

High-resolution dispersion modelling of PM2.5, PM10, NOx and NO2 exposure in metropolitan areas in Sweden 2000‒2018 – large health gains due to decreased population exposure

War survey: 83% of Israeli NGOs impacted, mixed responses to government aid, surge in foreign support

THE HEBREW UNIVERSITY OF JERUSALEM

The horrific attack by Hamas on Israeli civilians on October 7, sparked the Iron Swords War and led to a widespread mobilization effort to support Israel. New survey revealed that 83% of the NGOs’ ability to provide assistance and social services was negatively impacted by the war, only 35% of organizations sought government assistance during the war, and 35% of the NGOs reported an increase in philanthropic support from abroad.

A survey conducted at the Hebrew University by Prof. Michal Almog-Bar, head of the Institute for the study of Civil Society and Philanthropy in collaboration with Civil Leadership the umbrella organization of nonprofit organizations in Israel, analyzed the widespread mobilization effort in Israel following the terrorist attack by Hamas on October 7, 2023. 73% of the NGOs surveyed significantly expanded their activities and services during the war because of the rising needs. 87% of the NGOs established new services and 84% reported rise in the demand for their services and 75% reported a sharp increase in the number of clients served. However, the survey also revealed that 83% of the NGOs’ ability to provide services was negatively impacted by the war. This manifested in various ways, such as having to cope with staff absences as they served in the reserves and supporting staff who were impacted by the war.

Only 35% of NGOs sought government assistance during the war, mainly because that they did not have a prior contract with government and because of the lack of flexibility and red tape involved in forming such relations, highlighting the gap between additional activities and available resources. Lack of resources remained a significant issue, with only 10% of NGOs reporting an increase in government support, while 21% reported a decrease in government funding during the war. A significant resource of funding, support from foundations and donors within Israel, also decreased for about a quarter of the NGOs during the war.

However, 35% of the NGOs reported an increase in support from philanthropic foundations and high net worth donors from abroad, mainly from North America. About half (48%) reported an increase in the number of volunteers and volunteer hours. Additionally, about a quarter of the surveyed NGOs reported an increase in fundraising from the public.

Despite all the challenges they faced and the notable lack of resources in , 82% of surveyed NGOs believed their activities during the war effectively helped support Israeli society. This underscores the importance of recognizing and supporting the contributions of civil society, especially during crises.

Prof. Michal Almog-Bar: "The picture that emerges from the study is that a considerable expansion of the activity of civil society in Israel due to the rising social needs during the war, was enacted despite the lack of appropriate resources and budgeting on the part of the government and foundations. Considering the wearing down of the voluntary activity and civic initiatives that stood out at the beginning of the war. In the long term, the NGOs are a major player in helping the Israeli home front during the war, in helping evacuees and other populations affected by the war. They will not be able to continue their work and assistance to the populations affected by the war without additional resources".

The final report highlighted an unprecedented mobilization across the civilian sector, with various social NGOs, voluntary civic initiatives, philanthropic bodies, and individuals joining forces under the banner of "Defending Our Home." The findings prove that there is a clear need to focus on the needs and vulnerabilities of civil society in Israel. Strengthening their capacity and providing appropriate support will enable them to continue providing essential services to the population, particularly during crises and in post-war rehabilitation efforts.

Attorney Ron Barkai: "In Israel's most difficult and complex moments as a nation, the social NGOs are at the forefront of dealing with the most sensitive and vulnerable populations in Israeli society, without proper government support and without basic conditions for success."

Methodology: The research was conducted via an online survey between 15.12.2023-15.2.2024 with 251 CEOs of Israeli nonprofit organization.

METHOD OF RESEARCH

Data/statistical analysis

SUBJECT OF RESEARCH

People

ARTICLE TITLE

Israeli Social Nonprofit Organizations in the Iron Swords War

ARTICLE PUBLICATION DATE

20-Mar-2024

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