“…The authors modified a well-used climate model for exoplanet research and applied it to the planet in Dune. The work was carried out in their spare time and is intended as an appropriate outreach piece to demonstrate how climate scientists use mathematical models to better understand our world and exoplanets…”
Looks like the Kingdom of Jordan to me. 😉
Is Dune scientifically plausible? We ran a climate model to find out.
26 Oct 2021 — Public Chinese government records reviewed by the Good Food Institute (GFI) APAC indicate that significant funds are being allocated to help the nascent alternative protein sector optimize and scale up – as was previously done for the nation’s development of solar panels, lithium-ion batteries and electric vehicles.
While Chinese funding for alternative protein remains a tiny proportion of what the nation is capable of, these moves by various government entities demonstrate the scope of interest among local officials, which could potentially position China at the forefront of the next big food tech boom.
“There is no pathway to achieve the climate goals set out in the Paris Agreement without changing how we produce protein, but encouraging new evidence suggests that Chinese leaders understand the massive benefits of making meat from plants and growing it directly from cells,” stresses the GFI.
Laura Hiscott reviews Quantum Technology | Our Sustainable Future by The Quantum Daily.
How could quantum computing help us to fix climate change? This is the question at the heart of Quantum Technology | Our Sustainable Future, a half-hour-long documentary published on YouTube in July.
Made by “The Quantum Daily”, a resource for news and information on all things quantum, the documentary consists of interviews with people working in a host of organizations in the sector, from Oxford Instruments NanoScience to Google Quantum AI. The main idea is that, since quantum computers have the potential to be much more powerful than classical ones, they could speed up the discovery of solutions, such as molecules that would be very effective at carbon capture.
Higgins and his team members collected an ice sample dated 2.6 million years ago from the Antarctic in the Allan Hills area. He claims it’s the oldest sample of ice with strong trust in the age and air within it. Through examining trace concentrations of argon gas contained within the frost, the sample was dated.
Experts hope to find the deepest ice cores drilled from the continent of Antarctica. They aim to gather samples that are as much as 1.5 million years old.
Steelmaking is currently extremely carbon intensive, accounting for about 7% of total global greenhouse gas emissions. As we continue to use ever more steel for new infrastructure around the world, the task of decarbonising the industry is growing ever more urgent. Hydrogen can now perform that task and Volvo has just taken delivery of the first consignment of carbon-free steel. So how is it done, and will it be a gamechanger for the auto industry and wider world?
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Food for Thought.
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- TIMESTAMPS
“Hubble is the only telescope that has the kind of temporal coverage and spatial resolution that can capture Jupiter’s winds in this much detail”
Over the past 100 years, however, the cyclone has been dwindling, but recent observations with Hubble show that the wind speeds may be picking up again. Is this just temporary, or will the storm return to its former glory?
Using the Hubble Space Telescope, a team of astronomers has been monitoring the Great Red Spot for over a decade. They discovered that the wind speed of the outermost edge of the storm, known as the high-speed ring, has picked up speed by eight percent between 2009 and 2020.
“When I initially saw the results, I asked, ‘Does this make sense?’ No one has ever seen this before,” said Michael Wong of the University of California, Berkeley, who led the analysis. “But this is something only Hubble can do. Hubble’s longevity and ongoing observations make this revelation possible.”
In recent years, the continued exploitation of natural resources and depletion of our forests has been a major issue, to say the least. The fight for sustainability has become increasingly important as we face the challenge of climate change and its effects on our planet. One possible solution to this problem is to use artificial intelligence (AI) to help increase sustainable logging practices.
Beyond data science, AI can be used in conjunction with autonomous robots that are specially designed for forestry work which may provide an answer for this global problem. AI can be applied specifically to logging operations such as planning where trees should be cut down and predicting the best time of day for cutting trees so they do not disrupt nesting birds or other animal habitats.
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Circa 2017
Lightning is one of Earth’s most energetic events, but there’s much more to it than just a flashing fork and the rumble of thunder. Lightning strikes have been known to generate gamma rays, and now a team of Japanese researchers has found that those bursts can create photonuclear reactions in the atmosphere, resulting in the production – and annihilation – of antimatter.
Bursts of gamma rays from lightning were first detected in 1,992 thanks to NASA’s Compton Gamma-ray Observatory. Since then, these Terrestrial Gamma-ray Flashes (TGF) have been studied intently, and the new research out of Kyoto University has found an unexpected cause of some of the signals.
“We already knew that thunderclouds and lightning emit gamma rays, and hypothesized that they would react in some way with the nuclei of environmental elements in the atmosphere,” says Teruaki Enoto, lead researcher on the project. “In winter, Japan’s western coastal area is ideal for observing powerful lightning and thunderstorms. So, in 2015 we started building a series of small gamma-ray detectors, and placed them in various locations along the coast.”
