Thursday, September 05, 2024

Volvo gives up plan to sell only EVs by 2030

João da Silva
Business reporter

Getty Images
The car maker blamed changing market conditions for its decision to give up a target it had announced only three years ago


Car company Volvo has announced it has abandoned its target to produce only fully electric cars by 2030, saying it now expects it will also be selling some hybrid vehicles by that date.

The car maker blamed changing market conditions for its decision to give up a target it had announced only three years ago.

It comes as the industry faces a slowdown in demand in some major markets for electric vehicles (EVs) and uncertainty due to the imposition of trade tariffs on EVs made in China.

Volvo, which has traditionally flaunted its environmental credentials, joins other major car makers General Motors and Ford, which have also rowed back on their EV ambitions.

Volvo now expects at least 90% of its output to be made up of both electric cars and plug-in hybrids by 2030.

The Swedish company may also sell a small number of so-called mild hybrids, which are more conventional vehicles with limited electrical assistance.

"We are resolute in our belief that our future is electric," said Jim Rowan, chief executive of Volvo, in a statement.

"However, it is clear that the transition to electrification will not be linear, and customers and markets are moving at different speeds."

The company also said the business climate for EVs had changed, due to factors such as a slow rollout of charging infrastructure and the withdrawal of consumer incentives.

Volvo is majority-owned by Chinese car giant Geely and because it uses factories in China, it will also be affected by tariffs on imports of Chinese-made EVs in Europe and North America.
Palestinian girl killed in West Bank was looking out the window, her father says


Members of the Israeli military operate in what they say is the Jenin Area, in the Israeli-occupied West Bank, in this handout image released on Aug 31, 2024.
PHOTO: Israeli Army Handout via Reuters file

PUBLISHED ON September 04, 2024 

JENIN, West Bank — A 16-year-old Palestinian girl who was killed in the occupied West Bank city of Jenin this week was shot dead by an Israeli sniper as she looked out of the window of her home, her father said on Sept 4.

The Israeli military has said it is looking into reports of the death of Lujain Osama Musleh on Sept 3, during a major operation in different areas of the West Bank involving hundreds of soldiers and armoured vehicles.

Osama Musleh said troops had surrounded the house next door to his when his daughter was shot through the forehead after opening the curtain to look outside.


"She didn't go to the roof, she didn't hurl a stone, and she wasn't carrying a weapon," he said.

"She is 16 years old. The only thing she did is look from the window and the soldier saw her and shot her. One bullet that targeted her forehead."

More than 30 Palestinians have been killed and dozens of arrests have been made during the operation, which began a week ago in different areas of the West Bank. Most have been claimed as members of armed Palestinian groups like Hamas, Islamic Jihad or Fatah but some, like Lujain, have been uninvolved civilians.

The Israeli military said it launched the operation, its biggest in the West Bank for months, to thwart Iranian-backed militant groups preparing attacks on Israeli civilians.

Over the past week, troops have fought gunbattles with Palestinian fighters, damaging houses and other buildings and tearing up large stretches of roadway in what it says is a hunt for improvised explosive devices.

Food, water shortages

Kamal Abu al-Rub, the governor of Jenin, said Israeli troops had made 12 major incursions into Jenin since the start of the Gaza war almost a year ago. "This is the most severe, the most painful and oppressive," he told Reuters.

He said the operation, now in its eighth day, was causing major hardship to people in the city and the adjacent refugee camp, a densely populated area housing thousands of people whose families left their homes or were driven out during the 1948 Middle East war.

Privately organised aid trucks from other areas of the West Bank had helped alleviate some shortages of food and water and products such as baby formula but "arbitrary" controls were impeding deliveries in many areas.

"The situation of people in the besieged areas in particular is very difficult," he said.

About 4,000-5,000 people had been ordered from their homes in the refugee area and the eastern part of Jenin city and were being put up in temporary accommodation arranged by the Palestinian Authority, he said.


In Tulkarm, another flashpoint city in the West Bank, the military said soldiers killed two armed fighters during an exchange of fire, finding an M-16 automatic rifle beside the men. In addition, soldiers located an explosive device in a baby stroller as well as an explosives laboratory.

Thousands of Palestinians have been arrested in raids and more than 680 — fighters and civilians — have been killed in the West Bank and East Jerusalem since the war in Gaza began nearly 11 months ago, according to Palestinian health ministry figures.

At the same time, dozens of Israelis have been killed in attacks by Palestinians.

Vietnamese activist begins 50-day hunger strike

The political prisoner is protesting an unfair appeal and the political rise of To Lam.
By RFA Vietnamese
2024.09.04

Vietnamese activist begins 50-day hunger strikeVietnamese teacher and independent journalist Le Trong Hung and his wife Do Le Na are shown in an undated photo.
 Facebook: Tu Dinh Huong

Read RFA coverage of this topic in Vietnamese

Le Trong Hung, who is serving a five-year prison sentence for “propaganda against the state” in Vietnam’s Nghe An province, began a 50-day hunger strike Wednesday.

The teacher and independent journalist wants the chance to appeal his conviction and is protesting against the promotion of former police chief To Lam, first to president, and then to general secretary of the Communist Party, Vietnam’s top job.

But Hung’s wife told Radio Free Asia she is concerned that only drinking water will have serious implications for his health.

Hung, 45, was arrested on March 27, 2021 after announcing plans to stand as a candidate for the National Assembly, or parliament, that year.

Later that year, he was sentenced to five years in prison and five years of probation.

During a family visit on July 16, Hung started to tell his wife Do Le Na about his planned hunger strike, saying it was “related to the National Assembly and To Lam … protesting him sitting in the wrong place,” before prison guards stopped him.

Steak 2.jpeg
Then Minister of Public Security To Lam and the clip of him eating a gold-plated steak. (Tik Tok: @nusr_et/RFA edit)

To Lam was elected minister of public security in 2016. He became state president in May this year and general secretary on Aug. 3, following the death of Nguyen Phu Trong.

As police chief, he was widely criticized for talking about the need to stamp out corruption and then dining out on a US$1,900 gold-encrusted steak at a celebrity chef’s restaurant during an official trip to London. One Vietnamese activist, who mocked Lam’s lavish dinner on YouTube, was jailed for five-and-a-half years.

Prison officers warned Hung not to mention the hunger strike when he made his monthly phone call home on Aug 16. But when they weren’t paying attention, he spoke to his wife about it.

“My husband plans to go on a hunger strike, drinking only water for 50 days, but I am trying to convince him to reduce it to 30 days because October 4th this year is our 15th wedding anniversary,” Na told RFA Vietnamese on Wednesday. “However, Hung has not agreed yet.” 

She said Hung could be punished by losing privileges such as family visits and the phone calls home.

However, Na said a hunger strike was "almost the only way at this time for him to express his determination to follow the purpose and path he has chosen."

RFA Vietnamese tried to phone Nghe An’s Prison No.6 to ask about Hung’s case but the number wouldn't connect.


RELATED STORIES

Three Vietnamese activists given human rights awards

Vietnamese journalist serving 5-year sentence loses appeal

Vietnamese find top cop's pricey London steak hard to stomach


Last year, Hung went on a 30-day hunger strike, also starting on Sept. 4. He said he wanted to persuade authorities to give him the chance to appeal his conviction again because he was denied a lawyer at his initial appeal and his family wasn’t told when it was taking place.

He also asked prison officers to respect prisoners' rights and requested a visit from a National Assembly representative, saying he wanted to propose the establishment of a constitutional court in Vietnam. None of his requests was met.

Hung is a former teacher at Xa Dan school for the deaf in Hanoi.

He is well-known in Vietnam after live streaming news reports on Facebook and the CHTV pro-democracy YouTube channel, criticizing government policies and denouncing corruption.

Translated by RFA Vietnamese. Edited by Mike Firn.

Agriculture accelerated human genome evolution to capture energy from starchy foods

New study finds rapid increase over last 12,000 years in genes for enzymes that digest starch

Date: September 4, 2024

Source: University of California - Berkeley


Summary:

Scientists have suspected that modern humans have more genes to digest starch than our hunter-gatherer ancestors, but the amylase locus of the genome is hard to study. Researchers have now developed new methods to isolate the multiple amylase genes and compare the locus to ancient genomes. They found that amylase gene number has increased from an average of eight to more than 11 over the past 12,000 years.


FULL STORY

Over the past 12,000 years, humans in Europe have dramatically increased their ability to digest carbohydrates, expanding the number of genes they have for enzymes that break down starch from an average of eight to more than 11, according to a new study by researchers from the U.S., Italy and United Kingdom.


The rise in the number of genes that code for these enzymes tracks the spread of agriculture across Europe from the Middle East, and with it, an increasingly starchy human diet rich in high-carbohydrate staples such as wheat and other grains. Having more copies of a gene usually translates to higher levels of the protein the genes code for -- in this case, the enzyme amylase, which is produced in saliva and the pancreas to break down starch into sugar to fuel the body.

The study, published today (Sept. 4) in the journal Nature, also provides a new method for identifying the causes of diseases that involve genes with multiple copies in the human genome, such as the genes for amylase.

The research was led by Peter Sudmant, assistant professor of integrative biology at the University of California, Berkeley, and Erik Garrison of the University of Tennessee Health Science Center in Memphis.

"If you take a piece of dry pasta and put it in your mouth, eventually it'll get a little bit sweet," Sudmant said. "That's your salivary amylase enzyme breaking the starches down into sugars. That happens in all humans, as well as in other primates."

Chimpanzee, bonobo and Neanderthal genomes all have a single copy of the gene on chromosome 1 that codes for the salivary amylase, referred to as AMY1. The same is true for the two pancreatic amylase genes, AMY2A and AMY2B. These three genes are located close to one another in a region of the primate genome known as the amylase locus.

Human genomes, however, harbor vastly different numbers of each amylase gene.

"Our study found that each copy of the human genome harbors one to 11 copies of AMY1, zero to three copies of AMY2A, and one to four copies of AMY2B," said UC Berkeley postdoctoral fellow Runyang Nicolas Lou, one of five first authors of the paper. "Copy number is correlated with gene expression and protein level and thus the ability to digest starch."

The researchers discovered that, while around 12,000 years ago humans across Europe had an average of about four copies of the salivary amylase gene, that number has increased to about seven. The combined number of copies of the two pancreatic amylase genes also increased by half a gene (0.5) on average over this time in Europe.

Survival advantage of multiple amylase genes

Overall, the incidence of chromosomes with multiple copies of amylase genes (that is, more total copies than chimpanzees and Neanderthals) increased sevenfold over the last 12,000 years, suggesting that this provided a survival advantage for our ancestors.

The researchers also found evidence for an increase in amylase genes in other agricultural populations around the world, and that the region of the chromosomes where these amylase genes are located looks similar in all these populations, no matter what specific starchy plant that culture domesticated. The findings demonstrate that as agriculture arose independently around the world, it seems to have rapidly altered the human genome in nearly identical ways in different populations to deal with increased carbohydrates in the diet.

In fact, the researchers found that the rate of evolution leading to changes in amylase gene copy number was 10,000 times faster than that of single DNA base pair changes in the human genome.

"It has long been hypothesized that the copy number of amylase genes had increased in Europeans since the dawn of agriculture, but we had never been able to sequence this locus fully before. It is extremely repetitive and complex," Sudmant said. "Now, we're finally able to fully capture these structurally complex regions, and with that, investigate the history of selection of the region, the timing of evolution and the diversity across worldwide populations. Now, we can start thinking about associations with human disease."

One suspected association is with tooth decay. Previous studies have suggested that having more copies of AMY1 is associated with more cavities, perhaps because the saliva does a better job of converting starch in chewed food into sugar, which feeds bacteria that eat away at teeth.

The research also provides a method for exploring other areas of the genome -- those involving the immune system, skin pigmentation and the production of mucus, for example -- that have undergone rapid gene duplication in recent human history, Garrison said.

"One of the exciting things we were able to do here is probe both modern and ancient genomes to dissect the history of structural evolution at this locus," he said.

These methods can also be applied to other species. Previous studies have shown that animals that hang out around humans -- dogs, pigs, rats and mice -- have more copies of the amylase gene than their wilder relatives, apparently to take advantage of the food we throw away.

"This is really the frontier, in my opinion," Garrison said. "We can, for the first time, look at all of these regions that we could never look at before, and not just in humans -- other species, too. Human disease studies have really struggled in identifying associations at complex loci, like amylase. Because the mutation rate is so high, traditional association methods can fail. We're really excited how far we can push our new methods to identify new genetic causes of disease."

From hunter-gatherer to agrarian

Scientists have long suspected that humans' ability to digest starch may have increased after our ancestors transitioned from a hunter-gatherer lifestyle to a settled, agricultural lifestyle. This shift was shown to be associated with more copies of the amylase genes in people from societies that domesticated plants.

But the area of the human genome where these copies reside has been difficult to study because traditional sequencing -- so-called short-read sequencing techniques that cut the genome into chunks of about 100 base pairs, sequence the millions of pieces and then reassemble them into a genome -- was unable to distinguish gene copies from one another. Complicating matters, some copies are inverted, that is, they are flipped and read from the opposite strand of DNA.

Long-read sequencing allows scientists to resolve this region, reading DNA sequences thousands of base pairs long to accurately capture repetitive stretches. At the time of the study, the Human Pangenome Reference Consortium (HPRC) had collected long-read sequences of 94 human haploid genomes, which Sudmant and colleagues used to assess the variety of contemporary amylase regions, called haplotypes. The team then assessed the same region in 519 ancient European genomes. The HPRC data helped avoid a common bias in comparative genomic studies, which have used a single, averaged human genome as a reference. The genomes from the HPRC, referred to as a pangenome, provide a more inclusive reference that more accurately captures human diversity.

Joana Rocha, a UC Berkeley postdoctoral fellow and co-first author of the paper, compared the region where amylase genes cluster to what she called "sculptures made of different Lego bricks. Those are the haplotype structures. Previous work had to take down the sculpture first and infer from a pile of bricks what the sculpture may have looked like. Long-read sequencing and pangenomic methods now allow us to directly examine the sculpture and thus offer us unprecedented power to study the evolutionary history and selective impact of different haplotype structures."

Using specially developed mathematical modeling, the researchers identified 28 different haplotype structures among the 94 long-read genomes and thousands of realigned short-read human genomes, all of which cluster into 11 groups, each with a unique combination of AMY1, AMY2A and AMY2B copy numbers.

"These remarkably complex, crazy structures -- regions of gene duplication, inversion and deletion in the human genome -- have evolved independently in different human populations over and over again, even before the rise of agriculture," Sudmant said.

Analysis of the many contemporary human genomes also pointed to an origin 280,000 years ago of an initial duplication event that added two copies of AMY1 to the human genome.

"That particular structure, which is predisposed to high mutation rates, emerged 280,000 years ago, setting the stage for later on, when we developed agriculture, for people who had more copies to have increased fitness, and then for these copy numbers to be selected for," Sudmant said. "Using our methods, for the first time we could really date the initial duplication event."

Alma Halgren, a UC Berkeley graduate student in bioengineering, and Davide Bolognini and Alessandro Raveane of Human Technopole in Milan, Italy, are also first authors of the paper. Other co-authors are Andrea Guarracino of UTHSC, Nicole Soranzo of Human Technopole and the University of Cambridge in the United Kingdom, and Jason Chin of the Foundation for Biological Data Science in Belmont, California. Sudmant's research is funded by the Institute of General Medical Sciences of the U.S. National Institutes of Health (R35GM142916).

Story Source:

Materials provided by University of California - Berkeley. Original written by Robert Sanders. Note: Content may be edited for style and length.


Journal Reference:Davide Bolognini, Alma Halgren, Runyang Nicolas Lou, Alessandro Raveane, Joana L. Rocha, Andrea Guarracino, Nicole Soranzo, Chen-Shan Chin, Erik Garrison, Peter H. Sudmant. Recurrent evolution and selection shape structural diversity at the amylase locus. Nature, 2024; DOI: 10.1038/s41586-024-07911-1


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University of California - Berkeley. "Agriculture accelerated human genome evolution to capture energy from starchy foods." ScienceDaily. ScienceDaily, 4 September 2024. <www.sciencedaily.com/releases/2024/09/240904141503.htm>.

Scientists uncover hidden source of snow melt: Dark brown carbon

Date: September 4, 2024
Source: Washington University in St. Louis  

Summary :Researchers have quantified the effect of dark brown carbon on snow melt.


FULL STORY

Wildfires leave potent climate heaters behind in their wake, particles that enhance the absorption of sunlight and warm the atmosphere. Dropped on snow like a wool poncho, these aerosols darken and decrease the surface reflectance of snowy places.

But it was not yet understood just how different types of smoke particles contribute to these effects.

In a study recently published in npj Climate and Atmospheric Science, researchers at Washington University in St. Louis model how dark-brown carbon (d-BrC) -- light absorbing, water insoluble organic carbon -- from wildfires plays a much larger role as a snow-warming agent than previously recorded.

It's 1.6 times as potent a warmer compared to what researchers previously thought was the main culprit, black carbon.

In the Tibetan Plateau and other midlatitude regions, deposition of water insoluble organic carbon on snow have been previously recorded, "But nobody really looked under the hood to investigate their snow melting potential," said Rajan Chakrabarty, a professor at WashU's McKelvey School of Engineering.

Chakrabarty's PhD student, Ganesh Chelluboyina, a McDonnell International Scholars Academy fellow, and Taveen Kapoor, a postdoctoral fellow, have spent the bulk of their time at WashU taking up that challenge.

The team likens d-BrC to an "evil cousin" of black carbon, and much like black carbon, wildfires deposit it upon snow caps like switching out a white t-shirt for dark brown poncho.

These particles can't be washed away or bleached to the point of losing their absorptivity.

And when the snow loses its reflectivity and warms up, this increases surrounding air temperatures and further notches up the warming cycle.

Without accounting for d-BrC, researchers have likely been underestimating the snow melt from wildfire smoke deposition, and this research will ensure more accurate climate models and measurements.

As massive wildfires become more ubiquitous, policymakers will have to figure out how to mitigate this form of carbon to reduce anomalous snow melt.

Though d-BrC absorbs slightly less light than black carbon, it makes up for it in quantity, being four times more abundant in wildfire plumes compared to BC.

The team plans to further document the real-world effects of d-BrC at work as they enter the experimental phase of research.

How do you do snow-aerosol experiments without going to the field?

In this case, they get a four-foot-tall snow globe for the lab.

"We'll be dropping atomized water droplets into the top of the chamber, creating snow, then deposit aerosols on it," Chelluboyina said.

Story Source:

Materials provided by Washington University in St. Louis. Original written by Leah Shaffer. Note: Content may be edited for style and length.


Journal Reference:Ganesh S. Chelluboyina, Taveen S. Kapoor, Rajan K. Chakrabarty. Dark brown carbon from wildfires: a potent snow radiative forcing agent? npj Climate and Atmospheric Science, 2024; 7 (1) DOI: 10.1038/s41612-024-00738-7


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Washington University in St. Louis. "Scientists uncover hidden source of snow melt: Dark brown carbon." ScienceDaily. ScienceDaily, 4 September 2024. <www.sciencedaily.com/releases/2024/09/240904141501.htm>.
FLORIDA
Aggressive seagrass species discovered in Biscayne Bay


By JoAnn Adkins
September 4, 2024


An invasive species of seagrass has been on a steady march across the world, taking over ecosystems well beyond its native waters of the Red Sea, Persian Gulf and Indian Ocean. Scientists have long wondered when it would reach the waters off the coast of Florida. FIU scientists say that day has arrived.

FIU marine scientist Justin Campbell has positively identified Halophila stipulacea growing in Crandon Marina and nearby areas of Biscayne Bay. It is the first time this non-native species has been found in waters along the continental United States.

“I think this species could pose a considerable threat,” Campbell said. “There are several reports of it being able to outcompete native seagrasses in other areas across the Caribbean. It is plausible that this could also be true for seagrasses here in South Florida.”

A marina worker first noticed the seagrass last month and reached out to Campbell who conducted tests to determine the species. Halophila stipulacea first started spreading its distribution with the opening of the Suez Canal in the late 1800s, hitching rides on the anchors and other parts of boats. By the early 2000s, it was found in the Caribbean.

Healthy seagrass meadows are vital for healthy oceans. They are nursery habitats for commercially and economically important fish as well as shrimp, stone crabs, scallops and other crustaceans and shellfish. Seagrasses are a primary food source for sea turtles, manatees and other marine herbivores. And for the health of the planet, seagrasses are really good at sucking carbon emissions out of the air and storing that carbon long-term. While scientists are still working to understand possible impacts from the invasive species entering waters around the U.S., early research suggests some fish species may avoid the shorter seagrass when scouting nursery locations and local sea turtles in the Caribbean avoid eating the invasive seagrass, preferring native species as part of their regular diets.

While most species of seagrass are on the decline from warming waters and other human-induced impacts, Halophila stipulacea has the unique ability to grow quickly and adapt to different conditions including salinity levels, temperature and light availability. Just a small piece can float through water and grow. Once it settles into soil, it can take hold easily and grow at a variety of depths. While most seagrass species require shallower depths to attain sunlight, Halophila stipulacea has been observed flourishing at depths of 60 feet or more.

“The arrival of yet another invasive species to Florida is a reminder that all of our earth is interconnected and that human actions have the power to change the planet, for good or bad,” said James Fourqurean, co-author of the research and director of the Coastlines and Oceans Division in FIU’s Institute of Environment. Fourqurean has studied seagrasses, especially those in Florida, for more than 40 years. A foremost expert, he is one of the lead scientists in the International Blue Carbon Working Group, as well as scientific representative to the International Blue Carbon Policy Working Group — both dedicated to the recognition and preservation of seagrass meadows, mangroves and tidal salt marshes as critical contributors to slowing the rise of CO2 in the atmosphere.

“Given the importance of seagrasses to a healthy South Florida, we now need to do what we can to limit the spread of this invasive species and be wary of disruptions to the natural order it may cause,” Fourqurean said.

Stipulacea has a very different appearance and structure than the native seagrasses in South Florida and throughout the Caribbean. At least 19 Caribbean islands have reported this seagrass growing in nearby waters and, in some cases, overtaking meadows of native grass.

“We don’t know whether Stipulacea provides similar ecological benefits as compared to our native species,” Campbell said. “Our seagrass meadows here are some of the most pristine and well-protected in the Western Hemisphere. They are iconic and emblematic. We certainly don't want to lose them.”

So how long has this non-native species been in South Florida? It is hard for Campbell to say, but based on the current distribution, he believes it first started taking root several years ago. It had gone unnoticed because, to the casual observer, it can be difficult to distinguish from native vegetation, he said.

Crandon Marina can accommodate medium and large sized sailboats, likely capable of travel to and from areas where Stipulacea is well-established. This is one possible and likely way the non-native seagrass reached Biscayne Bay. With other large marinas in the region, Campbell said surveys and monitoring should be expanded now that this invasive species is confirmed to be in South Florida.
Air pollution linked to decrease in IVF birth rate success

Thursday, 05 September, 2024




Exposure to fine particulate matter (PM) prior to the retrieval of oocytes (eggs) during in vitro fertilisation (IVF) can reduce the odds of achieving a live birth by almost 40%, according to a new study presented at the ESHRE 40th Annual Meeting and published in the journal Human Reproduction.

Conducted over an eight-year period in Perth, Western Australia, the research analysed 3659 frozen embryo transfers from 1836 patients. The median female age was 34.5 years at the time of oocyte retrieval and 36.1 years at the time of frozen embryo transfer. The study examined air pollutant concentrations over four exposure periods prior to oocyte retrieval (24 hours, two weeks, four weeks and three months), with models created to account for co-exposures.

“This is the first study that has used frozen embryo transfer cycles to separately analyse the effects of pollutant exposure during the development of eggs and around the time of embryo transfer and early pregnancy,” said lead author Dr Sebastian Leathersich, from the King Edward Memorial Hospital for Women. “We could therefore evaluate whether pollution was having an effect on the eggs themselves, or on the early stages of pregnancy.”

Analysing PM10 exposure in the two weeks leading up to oocyte collection, the researchers found that the odds of a live birth decreased by 38% when comparing the highest quartile of exposure (18.63 to 35.42 µg/m3) to the lowest quartile (7.08 to 12.92 µg/m3). Increasing PM2.5 exposure in the three months prior to oocyte retrieval was also associated with decreased odds of live birth, falling from 0.90 in the second quartile to 0.66 in the fourth quartile.

Importantly, the negative impact of air pollution was observed despite excellent overall air quality during the study period, with PM10 and PM2.5 levels exceeding WHO guidelines on just 0.4% and 4.5% of the study days, respectively.

“Our results reveal a negative linear association between particulate matter exposure during the two weeks and three months prior to oocyte collection and subsequent live birth rates from those oocytes,” Leathersich said. “This association is independent of the air quality at the time of frozen embryo transfer. These findings suggest that pollution negatively affects the quality of the eggs — not just the early stages of pregnancy, which is a distinction that has not been previously reported.”

Exposure to fine particulate matter through outdoor air pollution is already associated with a range of adverse health conditions, including cardiovascular and respiratory diseases. In 2021, 97% of the urban EU population was exposed to concentrations of PM2.5 above the WHO annual guideline of 5 µg/m3. But although epidemiological data show a clear correlation between pollution and poorer reproductive outcomes, the exact mechanisms remain unclear

“Climate change and pollution remain the greatest threats to human health, and human reproduction is not immune to this,” Leathersich said. “Even in a part of the world with exceptional air quality, where very few days exceed the internationally accepted upper limits for pollution, there is a strong negative correlation between the amount of air pollution and the live birth rate in frozen embryo transfer cycles. Minimising pollutant exposure must be a key public health priority.”

 

Urban Noise Exposure May Aid Prediction of Myocardial Infarction


Findings seen in patients 50 years and younger with fewer traditional risk factors

Adobe Stock

Published on: 


WEDNESDAY, Sept 4, 2024 (HealthDay News) -- Young patients with myocardial infarction (MI) and fewer traditional risk factors often have greater exposure to urban noise, according to a study presented at the European Society of Cardiology Congress 2024, held from Aug. 30 to Sept. 2 in London.

Hatim Kerniss, from the Gesundheit Nord Clinic Group in Bremen, Germany, and colleagues explored the impact of noise exposure on the individual risk for early-onset MI. The analysis included 430 consecutive city-dwelling patients (aged 50 years and younger) with acute MI (2015 to 2023).

The researchers observed an elevated incidence of noise exposure among people with MI compared with the general population in the same region. This association was seen for both daytime (65 versus 53 percent) and nighttime (55 versus 41 percent) residential noise exposure. Significantly higher noise exposure was observed in patients with MI and a low LIFE-CVD score (≤2.5 percent) versus those with a high LIFE-CVD score (daytime: 2.32 versus 1.36; nighttime: 1.72 versus 1.00). There was an inverse association between average noise exposure and traditional risk factor exposure, which persisted significantly even after adjusting for potential confounding factors such as socioeconomic status, air pollution exposure, and renal function.

"Including noise exposure in risk prediction models helps accurately identify at-risk individuals, leading to better-targeted prevention," Kerniss said in a statement. "Recognizing noise as a risk factor fills a critical gap and underscores the need for public health strategies to reduce noise pollution, thereby improving cardiovascular health in young populations."

Press Release    More Information

How Earth's most intense heat wave ever impacted life in Antarctica

Date :September 4, 2024

Source: University of Colorado at Boulder

Summary

:An atmospheric river brought warm, moist air to the coldest and driest corner of the planet in 2022, pushing temperatures 70 degrees above average. A new study reveals what happened to Antarctica's smallest animals.


FULL STORY

Summer 2024 is on track to be the hottest on record for hundreds of cities across the U.S. and globe. Even in Antarctica, during the peak of its winter, extreme heat pushed temperatures in parts of the continent more than 50°F above the July normal.

In a study published on July 31 in the journal Earth's Future, scientists, including researchers at the University of Colorado Boulder, revealed how heat waves, especially those occurring in Antarctica's cold seasons, may impact the animals living there. The research illustrates how extreme weather events intensified by climate change could have profound implications for the continent's fragile ecosystems.

In March 2022, the most intense heat wave ever recorded on Earth hit Antarctica, just as organisms in the southern region braced themselves for the long, harsh winter ahead. The extreme weather raised temperatures in parts of Antarctica to more than 70°F above average, melting glaciers and snow even in the McMurdo Dry Valleys, one of the planet's coldest and driest regions.

As part of a Long-Term Ecological Research (LTER) project in Antarctica, the research team found that the unexpected melt followed by a rapid refreeze likely disrupted the life cycles of many organisms and killed a large swath of some invertebrates in the McMurdo Dry Valleys.

"It's important that we pay attention to these signals, even if they're coming from microscopic organisms in soils in a polar desert," said Michael Gooseff, the paper's senior author and professor in the Department of Civil, Environment and Architectural Engineering at CU Boulder. "They're the early responders to changes that could cascade up to larger organisms, the landscape and even us, far away from Antarctica."

When Gooseff arrived in Antarctica in November 2021, the continent looked much like it had for the past two decades. As a fellow of the Institute of Arctic and Alpine Research (INSTAAR), Gooseff has led the LTER at the McMurdo Dry Valleys, a National Science Foundation-funded project, for the past decade. Nearly every Antarctic summer, he travels to the southern region to study its ecosystem and how organisms survive in extreme environmental conditions.

While most animals can't tolerate the region's dryness and cold, some microbes and invertebrates, including roundworms and water bears, thrive in this frozen desert. Water bears, or tardigrades, are tiny, eight-legged animals measuring 0.002 to 0.05 inches long. They can survive extreme conditions -- as cold as -328°F and as hot as 300 °F -- that would kill most other forms of life.

In 2022, all members of the polar expedition team left the continent in February, before the Antarctic summer ended. A month later, Antarctica experienced the most extreme heat wave on record, driven by an intense storm known as an atmospheric river, which transported moist air over long distances to the polar region.

The team's sensors in the McMurdo Dry Valleys recorded air temperatures, which typically hover around -4°F in March, rising above freezing and exceeding the average by 45°F.

Satellite imagery and stream discharge measurements showed that the sudden warming wetted the valleys' soil more than two months after the peak summer thaw, at a time when the land is typically dry.

In two days, after the heat wave passed, temperatures plummeted and the soil froze. This event happened during a critical transition period, when organisms hunker down and get ready for the dark, cold winter. Gooseff and his colleagues were curious about how animals in the valleys responded.

"These animals invest a significant amount of energy in preparing and shutting down for the winter," said Gooseff. "When things start to warm up the following summer, they use energy to become active again. One of our major concerns with unusual weather events like this heat wave is that these animals might start using a lot more energy, thinking it's summer, only to have to shut down again two days later. How many times can they go through that cycle before they exhaust their energy reserves?"

He and the team returned to Antarctica the following summer, in December 2022. They sampled the soil and compared organisms living in areas that became wet to those that stayed dry during the heat wave.

They observed a 50% decrease in the population of Scottnema, a common roundworm, in areas that got wet. Scottnema is adapted to extremely cold and dry climates.

"The heat wave made the environment appear warm enough for things to get wet, creating a false start to summer. Some of the biology responding to these temperatures might be seriously disrupted by this," Gooseff said.

Rapid swings between extremes in weather can disproportionately impact sensitive species like Scottnema, but they may have far less impact on other animals, such as tardigrades. These creatures have a higher tolerance for moisture, allowing them to proliferate as the environment becomes wetter.

"Changes in which species are in the soil and how big the populations are can have a major impact on the ecosystem's food web and nutrient cycling," Gooseff said.

Previous research has shown Scottnema is responsible for about 10% of the carbon processed in the Dry Valleys' soil ecosystem.

As climate change exacerbates extreme weather events in Antarctica, larger species are also being impacted. For example, in the summer of 2013, an unusual rainfall event along the Adélie Coast of East Antarctica killed all Adélie penguin chicks in the region. In July, temperatures in parts of East Antarctica climbed up to 50 °F above the usual winter average.

Gooseff and his team plan to continue documenting extreme weather events and their impacts on the Antarctic ecosystem.

What happens in Antarctica doesn't stay in Antarctica, Gooseff said.

"The loss of ice shelves has pretty dramatic impacts on the mass balance of our oceans, and it affects us even thousands of miles away."

Story Source:

Materials provided by University of Colorado at Boulder. Original written by Yvaine Ye. Note: Content may be edited for style and length.

Related Multimedia:The McMurdo Dry Valleys in Antarctica

Journal Reference:J. E. Barrett, Byron J. Adams, Peter T. Doran, Hilary A. Dugan, Krista F. Myers, Mark R. Salvatore, Sarah N. Power, Meredith D. Snyder, Anna T. Wright, Michael N. Gooseff. Response of a Terrestrial Polar Ecosystem to the March 2022 Antarctic Weather Anomaly. Earth's Future, 2024; 12 (8) DOI: 10.1029/2023EF004306


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University of Colorado at Boulder. "How Earth's most intense heat wave ever impacted life in Antarctica." ScienceDaily. ScienceDaily, 4 September 2024. <www.sciencedaily.com/releases/2024/09/240904141509.htm>.
AUSTRALIA
Birth of new Gilbert's potoroos on Middle Island celebrated by researchers


By Byron Queale and Peter Barr
ABC Esperance



Two new Gilbert's potoroos were spotted by researchers in August. (Supplied: DBCA)

In short:

Two new Gilbert's potoroos have been born in a protected population on Middle Island, off WA's southern coast.

The marsupial is one of Australia's rarest and most endangered, with as few as 120 remaining in the wild.


What's next?

Efforts are underway to see if the island can play host to other threatened native species.
abc.net.au/news/gilberts-potoroo-population-recovering-middle-island-southern-wa


A population of one of Australia's rarest and most endangered marsupials is slowly recovering off Australia's southern coast.

Middle Island, 820 kilometres south-east of Perth in the Recherche Archipelago, is home to a population of tiny Gilbert's potoroos.

Originally thought to be extinct, the animals were rediscovered at Two People's Bay, near Albany, in 1994.



A Gilbert's potoroo in its native habitat near Albany. (Supplied: Dick Walker/file photo)

With the estimated global population as low as 120, conservation and relocation efforts have been stepped up in recent years.

10 potoroos were relocated to the island in a bid to preserve the population in 2018, three years after a bushfire ripped through the local habitat at Two People's Bay.


There are only about 120 Gilbert's potoroo left in the wild. (Supplied: DBCA)
Monitoring trip sparks good news

During a recent monitoring trip, researchers spotted something positive on their camera traps — two new potoroos.

"It's exciting … they were really healthy animals," Department of Biodiversity, Conservation and Attractions (DBCA) ecologist Sarah Comer said.

"And the female that we caught actually had a little pouch young.


"There's plenty of reasons to be optimistic about their future"


Middle Island is located on the South Coast of Western Australia. (Supplied: DBCA)

In early August, teams from DBCA, Esperance Tjaltjraak Native Title Aboriginal Corporation, and the Odonata Foundation spent five days on Middle Island to monitor the health of the potoroo population.

"We were over there trying to trap animals to see whether we had new recruits [and] what sort of health they were in," Ms Comer said.


Researchers examine one of the potoroos. (Supplied: DBCA/Sarah Comer)
Perfect home after long battle

She said Middle Island was the perfect place for the potoroo to thrive.

"Its size … made it quite attractive," Ms Comer said.


"The other really attractive thing about the island is there's no feral cats or foxes there, and so we can actually put animals out there without the invasive predators impacting them."

Jackie Courtenay has been working with the marsupials for nearly three decades.

"There was the work that was done initially, just trying to find more animals," she said.

"Seeing if they occurred anywhere else other than Two People's Bay, where they were originally rediscovered."


A Gilbert's potoroo with a baby. (Supplied: DPAW/file photo)

While the 2015 bushfire at Two People's Bay was a setback, there's now hope the island can play host to other endangered species.

Ms Comer said surveys were underway on Middle Island's suitability to host a population of noisy scrub birds.

Thirteen camera traps and continued monitoring will now help determine the location's role in future conservation efforts.