SpaceX on Thursday launched its next-generation Starship cruise vehicle for the first time atop the company's powerful new Super Heavy booster rocket, in a highly anticipated, uncrewed test flight from the Gulf Coast of Texas. From a report: The two-stage rocketship, standing taller than the Statue of Liberty at 394 feet (120 m) high, blasted off from the company's Starbase spaceport and test facility east of Brownsville, Texas, on a planned 90-minute debut flight into space. A live SpaceX webcast of the lift-off showed the rocketship rising from the launch tower into the morning sky as the Super Heavy's 33 raptor engines roared to life in a ball of flame and billowing clouds of exhaust and water vapor. Getting the Starship and its booster rocket off the ground together for the first time represents a milestone in SpaceX's ambition of sending humans back to the moon and ultimately on to Mars - playing a pivotal role in Artemis, NASA's newly inaugurated human spaceflight program.

A NASA satellite that observed solar flares and helped scientists understand the sun's powerful bursts of energy will fall to Earth this week, almost 21 years after it was launched. CNN reports: The retired Reuven Ramaty High Energy Solar Spectroscopic Imager (RHESSI) spacecraft, which launched in 2002 and was decommissioned in 2018, is expected to reenter Earth's atmosphere Wednesday at approximately 9:30 p.m. ET, according to NASA. The spacecraft was equipped with an imaging spectrometer, which recorded the sun's X-rays and gamma rays. From its former perch in low-Earth orbit, the satellite captured images of high-energy electrons that carry a large part of the energy released in solar flares, NASA said.

Before RHESSI, no gamma-ray images or high-energy X-ray images had been taken of solar flares, and data from the spacecraft provided vital clues about the phenomena and their associated coronal mass ejections. [...] NASA said that the agency, along with the Department of Defense, would monitor the satellite's reentry into Earth's atmosphere.

An anonymous reader quotes a report from Reuters: Researchers said on Wednesday they have discovered that parts of the brain region called the motor cortex that govern body movement are connected with a network involved in thinking, planning, mental arousal, pain, and control of internal organs, as well as functions such as blood pressure and heart rate. They identified a previously unknown system within the motor cortex manifested in multiple nodes that are located in between areas of the brain already known to be responsible for movement of specific body parts -- hands, feet and face -- and are engaged when many different body movements are performed together.

The researchers called this system the somato-cognitive action network, or SCAN, and documented its connections to brain regions known to help set goals and plan actions. This network also was found to correspond with brain regions that, as shown in studies involving monkeys, are connected to internal organs including the stomach and adrenal glands, allowing these organs to change activity levels in anticipation of performing a certain action. That may explain physical responses like sweating or increased heart rate caused by merely pondering a difficult future task, they said. "Basically, we now have shown that the human motor system is not unitary. Instead, we believe there are two separate systems that control movement," said radiology professor Evan Gordon of the Washington University School of Medicine in St. Louis, lead author of the study.

"One is for isolated movement of your hands, feet and face. This system is important, for example, for writing or speaking -movements that need to involve only the one body part. A second system, the SCAN, is more important for integrated, whole body movements, and is more connected to high-level planning regions of your brain," Gordon said.

"Modern neuroscience does not include any kind of mind-body dualism. It's not compatible with being a serious neuroscientist nowadays. I'm not a philosopher, but one succinct statement I like is saying, 'The mind is what the brain does.' The sum of the bio-computational functions of the brain makes up 'the mind,'" said study senior author Nico Dosenbach, a neurology professor at Washington University School of Medicine. "Since this system, the SCAN, seems to integrate abstract plans-thoughts-motivations with actual movements and physiology, it provides additional neuroanatomical explanation for why 'the body' and 'the mind' aren't separate or separable."

The findings have been published in the journal Nature.

From China to the U.S. to the European Union, rice production is falling and driving up prices for more than 3.5 billion people across the globe, particularly in Asia-Pacific -- which consumes 90% of the world's rice. From a report: The global rice market is set to log its largest shortfall in two decades in 2023, according to Fitch Solutions. And a deficit of this magnitude for one of the world's most cultivated grains will hurt major importers, analysts told CNBC. "At the global level, the most evident impact of the global rice deficit has been, and still is, decade-high rice prices," Fitch Solutions' commodities analyst Charles Hart said. Rice prices are expected to remain notched around current highs until 2024, stated a report by Fitch Solutions Country Risk & Industry Research dated April 4.

The price of rice averaged $17.30 per cwt through 2023 year-to-date, and will only ease to $14.50 per cwt in 2024, according to the report. Cwt is a unit of measurement for certain commodities such as rice. "Given that rice is the staple food commodity across multiple markets in Asia, prices are a major determinant of food price inflation and food security, particularly for the poorest households," Hart said. The global shortfall for 2022/2023 would come in at 8.7 million tonnes, the report forecast. That would mark the largest global rice deficit since 2003/2004, when the global rice markets generated a deficit of 18.6 million tonnes, said Hart. Further reading: There is a Global Rice Crisis.

An anonymous reader quotes a report from Ars Technica: On Monday, Microsoft and Epic Systems announced that they are bringing OpenAI's GPT-4 AI language model into health care for use in drafting message responses from health care workers to patients and for use in analyzing medical records while looking for trends. Epic Systems is one of America's largest health care software companies. Its electronic health records (EHR) software (such as MyChart) is reportedly used in over 29 percent of acute hospitals in the United States, and over 305 million patients have an electronic record in Epic worldwide. Tangentially, Epic's history of using predictive algorithms in health care has attracted some criticism in the past.

In Monday's announcement, Microsoft mentions two specific ways Epic will use its Azure OpenAI Service, which provides API access to OpenAI's large language models (LLMs), such as GPT-3 and GPT-4. In layperson's terms, it means that companies can hire Microsoft to provide generative AI services for them using Microsoft's Azure cloud platform. The first use of GPT-4 comes in the form of allowing doctors and health care workers to automatically draft message responses to patients. The press release quotes Chero Goswami, chief information officer at UW Health in Wisconsin, as saying, "Integrating generative AI into some of our daily workflows will increase productivity for many of our providers, allowing them to focus on the clinical duties that truly require their attention." The second use will bring natural language queries and "data analysis" to SlicerDicer, which is Epic's data-exploration tool that allows searches across large numbers of patients to identify trends that could be useful for making new discoveries or for financial reasons. According to Microsoft, that will help "clinical leaders explore data in a conversational and intuitive way." Imagine talking to a chatbot similar to ChatGPT and asking it questions about trends in patient medical records, and you might get the picture. Dr. Margaret Mitchell, chief ethics scientist at Hugging Face, is concerned about GPT-4's ability to make up information that isn't represented in its data set. Another concern is the potential bias in GPT-4 that might discriminate against certain patients based on gender, race, age, or other factors.

"Combined with the well-known problem of automation bias, where even experts will believe things that are incorrect if they're generated automatically by a system, this work will foreseeably generate false information," says Mitchell. "In the clinical setting, this can mean the difference between life and death."

An anonymous reader shares a report: We know from natural events in the past that increasing the amount of iron in these seas can dramatically increase the growth of phytoplankton. When iron-rich ash from volcanic eruptions has fallen on the ocean's surface, it has triggered phytoplankton blooms large enough to see from space. This knowledge led oceanographer John Martin to put forth something called the "iron hypothesis," which suggests that "fertilizing" the ocean with iron could increase the amount of carbon-sucking phytoplankton -- theoretically enough to cool the entire Earth. "Give me a half tanker of iron, and I will give you an ice age," he famously quipped during a lecture in 1988.

In 1993, shortly after Martin's death, his colleagues at Moss Landing Marine Laboratories tested the hypothesis by increasing the concentration of iron over 64 square kilometers of the Pacific Ocean. They then observed the area for 10 days and saw the amount of plant biomass double. "All biological indicators confirmed an increased rate of phytoplankton production in response to the addition of iron," they wrote in a paper detailing the experiment. More than a dozen other ocean fertilization experiments have been conducted since then, but even though they do appear to cause a bloom of plankton, it's still not clear whether the approach could actually help combat climate change.

In 2009, researchers from the Department of Energy's Lawrence Berkeley National Laboratory tracked the impact of a major ocean fertilization experiment in the Southern Ocean between New Zealand and Antarctica by measuring carbon particles 800 meters below the surface of the water in the area for a year -- and their findings were less than encouraging. "Just adding iron to the ocean hasn't been demonstrated as a good plan for storing atmospheric carbon," said researcher Jim Bishop. "What counts is the carbon that reaches the deep sea, and a lot of the carbon tied up in plankton blooms appears not to sink very fast or very far." While researchers are still trying to figure out why that is, there are a number of theories, including ones centered on the feeding habits of creatures that live off phytoplankton and the presence of iron-binding organic compounds in ocean water.

Dr Eric Topol, a cardiologist and director of the Scripps Translational Science Institute, writing over the weekend: It was medical dogma: cancer tissue is sterile. That's what we had learned and taught in medical school for decades even though bacteria were detected in tumors more than 100 years ago. When studies were reported asserting that bacteria were present in tumor tissue, they were consistently debunked as representing contaminants. Then came new tools that include single-cell sequencing and sophisticated spatial profiling providing high-resolution portraits of tumors. The new dogma is that bacteria have a pervasive (yet variable) presence within and across solid tumors -- the "presence of intratumoral bacteria being designated a hallmark of cancer." Furthermore, where bacteria are more apt to be found within tumor regions, T cell recruitment and function is suppressed. These regions of tumor are micro-niches exhibiting immune evasion.

Just as that has been determined, there was a new twist this week: engineering bacteria to induce a potent T cell immune response to kill the tumor. This can be viewed as the polar opposite. Instead of bacteria improving a tumor's ability to duck our immune response and spread, this represents clever ways to genetically manipulate bacteria (aka "designer bugs" with the schematic in the linked post) to make it considerably more antigenic, a new route to immunotherapy.

An anonymous reader quotes a report from Live Science: Scientists have discovered and synthesized an entirely new isotope of the highly radioactive element uranium. But it might last only 40 minutes before decaying into other elements. The new isotope, uranium-241, has 92 protons (as all uranium isotopes do) and 149 neutrons, making it the first new neutron-rich isotope of uranium discovered since 1979. While atoms of a given element always have the same number of protons, different isotopes, or versions, of those elements may hold different numbers of neutrons in their nuclei. To be considered neutron-rich, an isotope must contain more neutrons than is common to that element.

"We measured the masses of 19 different actinide isotopes with a high precision of one part per million level, including the discovery and identification of the new uranium isotope," Toshitaka Niwase(opens in new tab), a researcher at the High-energy Accelerator Research Organization (KEK) Wako Nuclear Science Center (WNSC) in Japan, told Live Science in an email. "This is the first new discovery of a uranium isotope on the neutron-rich side in over 40 years." Niwase is the lead author of a study on the new uranium isotope, which was published March 31 in the journal Physical Review Letters.

Niwase and colleagues created the uranium-241 by firing a sample of uranium-238 at platinum-198 nuclei at Japan's RIKEN accelerator. The two isotopes then swapped neutrons and protons — a phenomenon called "multinucleon transfer." The team then measured the mass of the created isotopes by observing the time it took the resulting nuclei to travel a certain distance through a medium. The experiment also generated 18 new isotopes, all of which contained between 143 and 150 neutrons.

A team of scientists led by Slava Turyshev of the Jet Propulsion Laboratory at the California Institute of Technology have proposed merging miniature satellite units with a solar energy process that would create a fast, inexpensive, lightweight mode of travel. Phys.Org reports: Solar sailing is a process by which the pressure generated by the sun's radiation is harnessed for propulsion. Recent innovations in this technology were demonstrated in a successful crowdfunded 2019 mission undertaken by the Planetary Society's LightSail-2 project. The researchers explain, "Solar sails obtain thrust by using highly reflective, lightweight materials that reflect sunlight to propel a spacecraft while in space. The continuous photon pressure from the sun provides thrust, eliminating the need for heavy, expendable propellants employed by conventional on-board chemical and electric propulsion systems, which limit mission lifetime and observation locations."

They say that sails are far less expensive than heavy equipment currently used for propulsion, and that the ever-present continuous solar photon pressure from the sun makes thrust available for a broad range of vehicular maneuvers, such as hovering or rapid orbital plane changes. Solar sails and miniaturization "have advanced in the past decade to the point where they may enable inspiring and affordable missions to reach farther and faster, deep into the outer regions of our solar system," the report says.

The researchers refer to the merging of these two technologies as the Sundiver Concept. "Fast, cost-effective and maneuverable sailcraft that may travel outside the ecliptic plane open new opportunities for affordable solar system exploration," the report states, "with great promise for heliophysics, planetary science, and astrophysics." With enhanced maneuverability, the spacecraft can easily deliver small payloads to multiple destinations if required, and can dock with related modular craft. The reliance on the sun and the miniaturization of the carrier, which requires no dedicated launch site, will prove to be significant cost savers, the researchers add: "A substantial reason for the high costs is our [current] reliance on slow and expensive chemical propulsion, operating at the limits of its capabilities, effectively rendering the current solar system exploration paradigm unsustainable. A new approach is needed."

"Two years have passed since the Perseverance rover landed on Mars, carrying with it the Ingenuity helicopter," notes Slashdot reader quonset. "Created from off-the-shelf components, the helicopter was only designed to last about five flights. Instead, two years later, having become the first aircraft to fly and land on another planet, Ingenuity successfully completed its 50th flight."

CNN reports that the 4-pound (1.8-kilogram) helicopter has now "surpassed all expectations," transitioning into "an aerial scout for the Perseverance rover as it explores an ancient lake and river delta on Mars." Each morning, the Helicopter Base Station on the Perseverance rover searches for Ingenuity's signal around the time the chopper is expected to "wake up," waiting for a sign that its aerial scout is still functioning. But Ingenuity's solar panels, batteries and rotor system are healthy. The chopper is "still doing fantastic," said Teddy Tzanetos, Ingenuity team lead at NASA's Jet Propulsion Laboratory. "We're looking forward to just keep pushing that envelope."

Since the helicopter left the flat floor of Jezero Crater and headed to the river delta in January, its flights have only grown more challenging. Ingenuity has flown over uncharted and rugged terrain with landing spots surrounded by potential hazards. "We are not in Martian Kansas anymore," said Josh Anderson, Ingenuity operations lead at JPL, in a statement. "We're flying over the dried-up remnants of an ancient river that is filled with sand dunes, boulders, and rocks, and surrounded by hills that could have us for lunch. And while we recently upgraded the navigation software onboard to help determine safe airfields, every flight is still a white-knuckler...."

Ingenuity's team is already planning its next set of flights because the chopper has to remain at the right distance to stay in touch with the fast-moving rover, which can drive for hundreds of meters in a single day... The Perseverance rover is moving on from an area that could contain hydrated silica, which might have information about a warmer, wetter Martian past and any potential signs of life from billions of years ago. Up next is Mount Julian, a site that will provide the rover with a panoramic view into Belva Crater.

Ingenuity's journey has demonstrated how useful aircraft can be on space missions, scouting places that rovers can't go or helping plot a safe path to the next destination.

The European Space Agency's Juice probe has blasted off on a landmark mission to Jupiter's moons, rising on a plume of white from its launchpad in Kourou, French Guiana, on the north-eastern shoulder of South America. From a report: The mission, which was delayed for 24 hours after lightning threatened to strike on Thursday, intends to uncover the secrets of Jupiter's Great Red Spot, its enormous polar auroras, and how its mighty magnetic field shapes conditions on the gas giant's nearby moons. It is the moons themselves that are the main attraction. Despite the frigid conditions that prevail, nearly half a billion miles from the sun, Juice will visit three of Jupiter's moons -- Europa, Callisto and Ganymede -- which harbour deep liquid water oceans beneath their icy surfaces.

The discovery of sub-surface saltwater oceans on Jupiter's moons has pushed them high up the list of solar system venues to explore for signs of life and habitability. If hydrothermal vents -- found on ocean floors all over Earth -- exist on the Jovian moons, they may provide enough warmth for life to thrive in the darkness. "I'm so thrilled to see Juice finally on its way," said Prof Andrew Coates, from the UCL Mullard Space Science Laboratory, who helped build two instruments on Juice called Pep and Janus. "This is an excellent mission to look at habitability of Jupiter's moons."

A NASA probe sent to observe Jupiter's swarm of asteroids recently caught the first glimpse of its rocky targets, capturing deep-space images of four of the mysterious Trojans. Gizmodo reports: The Lucy spacecraft used its highest resolution imager, L'LORRI (Lucy LOng Range Reconnaissance Imager), to photograph four Trojan asteroids during a two-day period from March 25 to 27, NASA announced on Thursday. The first asteroids to be seen by Lucy are: Eurybates, Polymele, Leucus, and Orus. Those four are part of two large groups of rocky bodies that lead and follow Jupiter as it orbits the Sun. Lucy is still a long way from reaching its asteroid targets, which are currently about 330 million miles (530 million kilometers) away from the probe. That's more than three times the average distance between Earth and the Sun, according to NASA.

The initial set of images are the first in a series of observations to measure how the Trojan asteroids reflect light when seen from a higher angle than ground-based observations, according to NASA. The images will then help NASA decide on exposure times to use for Lucy's close-up observations of the asteroids.

A team of researchers in Florida have created a way to mimic nature's ability to reflect light and create beautifully vivid color without absorbing any heat like traditional pigments do. Debashis Chanda, a nanoscience researcher with the University of Central Florida, and his team published their findings in the journal Science Advances. NPR reports: Beyond just the beautiful arrays of color that structure can create, Chanda also found that unlike pigments, structural paint does not absorb any infrared light. Infrared light is the reason black cars get hot on sunny days and asphalt is hot to the touch in summer. Infrared light is absorbed as heat energy into these surfaces -- the darker the color, the more the surface colored with it can absorb. That's why people are advised to wear lighter colors in hotter climates and why many buildings are painted bright whites and beiges. Chanda found that structural color paint does not absorb any heat. It reflects all infrared light back out. This means that in a rapidly warming climate, this paint could help communities keep cool.

Chanda and his team tested the impact this paint had on the temperature of buildings covered in structural paint versus commercial paints and they found that structural paint kept surfaces 20 to 30 degrees cooler. This, Chanda said, is a massive new tool that could be used to fight rising temperatures caused by global warming while still allowing us to have a bright and colorful world. Unlike white and black cars, structural paint's ability to reflect heat isn't determined by how dark the color is. Blue, black or purple structural paints reflect just as much heat as bright whites or beige. This opens the door for more colorful, cooler architecture and design without having to worry about the heat.

It's not just cleaner, Chanda said. Structural paint weighs much less than pigmented paint and doesn't fade over time like traditional pigments. "A raisin's worth of structural paint is enough to cover the front and back of a door," he said. Unlike pigments which rely on layers of pigment to achieve depth of color, structural paint only requires one thin layer of particles to fully cover a surface in color. This means that structural paint could be a boon for aerospace engineers who rely on the lowest weight possible to achieve higher fuel efficiency. The possibilities for structural paint are endless and Chanda hopes that cans of structural paint will soon be available in hardware stores.

The 2019 release of the first image of a black hole was hailed as a significant scientific achievement. But truth be told, it was a bit blurry -- or, as one astrophysicist involved in the effort called it, a "fuzzy orange donut." Scientists on Thursday unveiled a new and improved image of this black hole -- a behemoth at the center of a nearby galaxy -- mining the same data used for the earlier one but improving its resolution by employing image reconstruction algorithms to fill in gaps in the original telescope observations. From a report: Hard to observe by their very nature, black holes are celestial entities exerting gravitational pull so strong no matter or light can escape. The ring of light -- that is, the material being sucked into the voracious object -- seen in the new image is about half the width of how it looked in the previous picture. There is also a larger "brightness depression" at the center - basically the donut hole - caused by light and other matter disappearing into the black hole.

The image remains somewhat blurry due to the limitations of the data underpinning it -- not quite ready for a Hollywood sci-fi blockbuster, but an advance from the 2019 version. This supermassive black hole resides in a galaxy called Messier 87, or M87, about 54 million light-years from Earth. A light year is the distance light travels in a year, 5.9 trillion miles (9.5 trillion km). This galaxy, with a mass 6.5 billion times that of our sun, is larger and more luminous than our Milky Way. Further reading: The Black Hole Image Data Was Spread Across 5 Petabytes Stored On About Half a Ton of Hard Drives (2019).

A historic mission to Jupiter is about to blast off. The European Space Agency's spacecraft nicknamed Juice -- for Jupiter Icy Moons Explorer -- is set to begin an eight-year journey toward the planet and three of its largest moons. From a report: Juice is scheduled to launch Friday morning Eastern Time from a spaceport in Kourou, French Guiana, after an earlier attempt was scrubbed because of lightning risk. Once it arrives at Jupiter, Juice will study some of the moons in great detail, mapping their icy surfaces and searching for subsurface oceans that could harbor life.

While the spacecraft can't detect life, the mission should help confirm whether the moons -- Europa, Callisto and Ganymede -- have the conditions necessary to sustain life. The trio, along with the volcanically active moon Io, were discovered by Galileo more than four centuries ago and are among the nearly 100 moons orbiting Jupiter, according to the National Aeronautics and Space Administration. About half an hour after its launch, which will be livestreamed Friday, Juice will separate from its rocket and make contact with mission controllers on Earth. The solar-powered spacecraft will then deploy solar wings that measure roughly 900 square-feet and expand into a cross-like configuration on both sides of the craft. In the following 17 days, Juice is expected to deploy its antennas and instrument-containing booms and begin its cosmic sojourn, which people can follow on the agency's website.

The journey will be a roundabout one. Juice will complete flybys of Earth, the moon, and Venus over the next six years to adjust its trajectory and gain enough speed to get to Jupiter. Jupiter is, on average, about 444 million miles from Earth, yet Juice will travel nearly 4 billion miles before getting there, according to Mr. Sarri. It will also have to withstand temperatures from close to 500 degrees Fahrenheit around Venus to nearly minus 400 degrees Fahrenheit at Jupiter. If all goes well, Juice is scheduled to arrive at Jupiter by July 2031. Once there, the craft will complete flybys of the three moons before entering Ganymede's orbit to collect further data, which are sent back to Earth using an 8-foot antenna.