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High Temperatures Above 90 Degrees Reported Northeast of New England

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LAS VEGAS – The severe heatwave plaguing the Southwest is anticipated to move eastward in the coming days, with temperatures surpassing 90 degrees Fahrenheit expected in the northeast, particularly in parts of New England later this week.

Around 15 million individuals are currently facing extreme heat advisories in eastern California, Nevada, Arizona, and western Texas. Triple-digit temperatures are projected to become widespread throughout the area by Wednesday.

In southern Nevada, temperatures this week may rise up to 12°F above the seasonal average, as reported by the National Weather Service. Nearby Arizona is predicted to see highs reaching 115°F across its southern and central regions.

As the week progresses, this heat will extend into the Midwest and Great Lakes, leading to the region’s first significant heat wave this weekend.

The Weather Service has indicated that record high temperatures are possible from Northern and Eastern Colorado to Nebraska and South Dakota on Thursday, affecting parts of the Great Basin and western South Dakota.

Research indicates that climate change may contribute to more frequent, intense, and prolonged heat waves.

Warm temperatures combined with high humidity will affect the East Coast this weekend and into next week. In major cities like New York City, Boston, and Washington, DC, the thermal index (the combined effect of temperature and humidity on how hot it feels) is expected to reach the mid-90s or higher.

“Starting early next week, we will see a stretch of prolonged hot and humid weather beginning Sunday and lasting through at least mid-week,” according to the New York branch of the Weather Bureau, as noted in a post on X.

Meanwhile, extreme heat is forecasted to persist across southwestern desert regions, including Death Valley, for the remainder of the week, as per the weather services.

Source: www.nbcnews.com

Another Measles-Related Death Reported in Texas

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Another child has tragically lost their life to the West Texas measles crisis, marking the second death in an outbreak that has devastated the area and affected numerous residents along the border.

The 8-year-old girl passed away early Thursday morning due to “measles and lung disorder,” as per records obtained by the New York Times. This marks the second confirmed measles-related death in the United States in the past decade.

The first death was that of an unvaccinated child in West Texas in February. Another unvaccinated individual in New Mexico has also died after testing positive for measles, though authorities have yet to confirm measles as the cause of death.

Officials from the Trump administration stated on Saturday night that the cause of the girl’s death is still under investigation.

Since the outbreak began in late January, West Texas has reported a total of 480 measles cases and 56 hospitalizations. The outbreak has also spread to neighboring states, with 54 cases in New Mexico and 10 in Oklahoma.

If the virus continues to spread at its current pace, the country risks losing its measles elimination status, a hard-fought victory achieved in 2000. Officials in West Texas anticipate that the outbreak could persist for a year.

Health secretary Robert F. Kennedy has come under heavy criticism for his management of the outbreak. A vocal vaccine skeptic, he has advocated for alternative treatments for measles, such as cod liver oil, which are unproven.

Kennedy’s promotion of alternative remedies has hindered critical care efforts and led patients to consume dangerous levels of vitamin A, according to a doctor in Texas.

Experts are concerned that dismantling international public health protections and withdrawing funding from the local health sector, as decided by the Trump administration, increases the likelihood of a widespread, multi-stage pandemic.

Measles is a highly contagious virus that can linger in the air for up to two hours when an infected person coughs or sneezes. Symptoms typically appear within a week or two of exposure and include fever, cough, runny nose, and a characteristic rash.

While most cases resolve within a few weeks, measles can lead to complications like pneumonia, especially in children, making breathing difficult. In rare instances, the virus can cause brain swelling, resulting in permanent issues such as blindness, deafness, and cognitive impairment.

For every 1,000 children infected with measles, one to two may die, and the virus compromises the body’s immune system, leaving individuals susceptible to other infections.

Christina Jewellett Reports of contributions.

Source: www.nytimes.com

Reported advancements in AI-driven weather forecasting | Artificial Intelligence (AI)

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With the use of a new AI weather forecast approach, a single researcher working on desktop computers can deliver precise weather forecasts that are significantly faster and require much less computing power compared to traditional systems.

Traditional weather forecasting methods involve multiple time-consuming stages that rely on supercomputers and teams of experts. Aardvark Weather offers a more efficient solution by training AI on raw data collected from various sources worldwide.

This innovative approach, detailed in a publication by researchers from the University of Cambridge, Alan Turing Institute, Microsoft Research, and ECMWF, holds the potential to enhance forecast speed, accuracy, and cost-effectiveness.

Richard Turner, a machine learning professor at Cambridge University, envisions the use of this technology for creating tailored forecasts for specific industries and regions, such as predicting agricultural conditions in Africa or wind speeds for European renewable energy companies.

Members of New South Wales Emergency Services will inspect the advancement of the tropical cyclone Alfred on March 5, 2025 at a weather satellite view in Sydney, Australia. Photo: Bianca de Mart/Reuters

Unlike traditional forecasting methods that rely on extensive manual work and lengthy processing times, this new approach streamlines the prediction process, offering potentially more accurate and extended forecasts.

According to Dr. Scott Hosking from the Alan Turing Institute, this breakthrough can democratize weather forecasting by making advanced technologies accessible to developing countries and aiding decision-makers, emergency planners, and industries that rely on precise weather information.

Dr. Anna Allen, the lead author of the Cambridge University research, believes that these findings could revolutionize predictions for various climate-related events like hurricanes, wildfires, and air quality.

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Drawing on recent advancements by tech giants like Huawei, Google, and Microsoft, Aardvark aims to revolutionize weather forecasting by leveraging AI to accelerate predictions. The system has already shown promising results, outperforming existing forecast models in certain aspects.

Source: www.theguardian.com

New study suggests Jupiter’s Great Red Spot may not be the permanent feature reported by Cassini

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Jupiter’s Great Red Spot is perhaps the best-known atmospheric feature and a popular icon among the solar system’s objects. Its large oval shape, contrasting red color, and long lifespan make it easily visible with a small telescope. A new study led by scientists from the University of the Basque Country, based on historical measurements of its size and motion, shows that the present-day Great Red Spot was probably first reported in 1831 and is not a permanent spot observed by Giovanni Domenico Cassini and others between 1665 and 1713.

The Permanent Spot (PS) and the early Great Red Spot (GRS): (a) drawing of the PS by GD Cassini on 19 January 1672, (b) drawing by S. Swave on 10 May 1851, showing the GRS area as a clear ellipse bounded by a depression (depicted by a dashed red line). (c) photograph taken by AA Common on 3 September 1879 using a 91 cm reflecting telescope at Ealing (London). The GRS appears as a clear "dark" ellipse because it is red and the photographic plate is sensitive to violet-blue wavelengths. (d) photograph taken at Lick Observatory on 14 October 1890 using a yellow filter. All figures show astronomical images of Jupiter (south at top, east at left) to preserve the notes on the drawings. Image courtesy of Sánchez-Lavega others., doi: 10.1029/2024GL108993.

Jupiter’s Great Red Spot is the largest and longest-lasting known vortex of any planet in the solar system.

The formation mechanism that produced this feature is unknown, and its longevity is controversial.

It was also unclear whether the Great Red Spot was the dark oval nicknamed the “Eternal Spot” that astronomer Giovanni Domenico Cassini and others reported between 1665 and 1713.

“Speculation about the origin of the Great Red Spot dates back to the first telescopic observations by Giovanni Domenico Cassini, who in 1665 discovered a dark oval at the same latitude as the Great Red Spot, which he named a permanent spot, because it was observed by Cassini and other astronomers until 1713,” said Professor Agustin Sánchez Lavega from the University of the Basque Country.

“For the next 118 years, traces of it were lost, and it was only after 1831 that S. Schwabe again observed a clear, almost elliptical structure at the same latitude as the GRS. This can be considered the first observation of the present-day GRS, possibly of the infant GRS.”

“Since then, the Great Red Spot has been regularly observed by telescopes and by various space probes that have visited the planet up to the present day.”

In their study, the authors analysed the change in the size of the Great Red Spot over time, its structure, and the behaviour of two meteorological structures, the former permanent spot and the Great Red Spot.

To do so, they used historical sources dating back to the mid-17th century, shortly after the telescope was invented.

“Based on our measurements of its size and motion, we infer that it is highly unlikely that the current Great Red Spot is the permanent spot observed by Cassini,” Professor Sanchez LaVega said.

“The permanent spot probably disappeared sometime between the mid-18th and 19th centuries, which would put the lifespan of the red spot at least 190 years.”

“The Red Spot, which in 1879 measured 39,000 kilometres along its longest axis, has now shrunk to about 14,000 kilometres and is becoming rounder at the same time.”

“Furthermore, since the 1970s, several space missions have studied this weather phenomenon in detail.”

“Recently, various instruments on the Juno spacecraft in orbit around Jupiter have shown that the Great Red Spot is shallow and thin compared to its horizontal length. Its vertical length is about 500 km.”

To understand how this giant whirlpool formed, the astronomers ran numerical simulations using two complementary models of the behavior of thin vortices in Jupiter’s atmosphere.

Powerful winds prevail on this giant planet, flowing along parallels that alternate in direction and latitude.

To the north of the Great Red Spot, winds blow westward at 180 km/h, while to the south, winds blow in the opposite direction, eastward at 150 km/h.

This creates huge north-south shear in the wind speed, which is the fundamental element that allows vortices to grow internally.

The study explored a variety of mechanisms to explain the formation of the Great Red Spot, including the eruption of a giant superstorm like those rarely observed around its twin planet Saturn, or the merging of several smaller vortices caused by sheared winds.

The results show that although anticyclones form in both cases, their shapes and dynamic characteristics are different from those of the present-day Great Red Spot.

“We believe that if one of these anomalies had occurred, it, or its effects in the atmosphere, would have been observed and reported by astronomers at the time,” Prof Sanchez Lavega said.

In a third set of numerical experiments, the researchers investigated how the GRS may arise from known instabilities in the winds that they believe could produce elongated cells that surround and trap the GRS.

Such cells were early red spots, the proto-Great Red Spot, whose subsequent shrinkage would give rise to the compact, rapidly rotating Great Red Spot observed in the late 19th century.

The formation of large elongated cells has already been observed during the emergence of other major vortices on Jupiter.

“In our simulations, thanks to supercomputers, we were able to find that elongated cells are stable when they rotate around the Great Red Spot at the speed of Jupiter’s winds, which is what you would expect to form due to this instability,” said Dr Enrique García Melendo, an astronomer at the Polytechnic University of Catalonia.

Using two different numerical models, the scientists concluded that if the GRS rotated slower than the surrounding winds, it would break up and the formation of a stable vortex would be impossible.

And if it were very high, the properties of the primordial Great Red Spot would be different from those of the current Great Red Spot.

“Future studies will aim to reconstruct the Great Red Spot’s shrinkage over time and elucidate in more detail the physical mechanisms underlying its persistence,” the authors wrote.

“At the same time, we try to predict whether the Great Red Spot will collapse and disappear when it reaches its size limit, as happened with Cassini’s permanent spot, or whether it will remain stable at its size limit and persist for many years.”

of result Published in a journal Geophysical Research Letters.

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Agustin Sanchez Lavega others2024. Origin of Jupiter’s Great Red Spot. Geophysical Research Letters 51(12):e2024GL108993; doi:10.1029/2024GL108993

Source: www.sci.news