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Category: climatology

Durum wheat lines combine freezing tolerance with high pasta quality

Researchers from Skoltech, the International Maize and Wheat Improvement Center in Mexico, the Research Center for Cereal and Industrial Crops in Italy, and other international organizations have developed new durum wheat lines capable of surviving freezing temperatures while maintaining the grain quality required for premium pasta production. The study, published in Frontiers in Plant Science, presents a new breeding framework that could help make durum wheat production more resilient to climate variability.

Durum wheat is the primary raw material used to produce pasta worldwide, yet it remains highly vulnerable to sudden freezing events. As climate variability increases, unpredictable cold spells pose a growing risk to wheat production. At the same time, breeders must preserve the high gluten quality that gives pasta its characteristic texture and cooking properties.

The Terraforming Compendium

Could we sculpt dead planets into living worlds? From artificial crusts and orbital mirrors to taming tectonics and engineering biospheres, this is your definitive guide to turning alien rocks into second Earths.

Watch my exclusive video Fishbowl Starships — Water As Shielding — https://nebula.tv/videos/isaacarthur–… Nebula using my link for 40% off an annual subscription: https://go.nebula.tv/isaacarthur Get a Lifetime Membership to Nebula for only $300: https://go.nebula.tv/lifetime?ref=isa… Use the link https://gift.nebula.tv/isaacarthur to give a year of Nebula to a friend for just $36. Visit our Website: http://www.isaacarthur.net Support us on Patreon: / isaacarthur Support us on Subscribestar: https://www.subscribestar.com/isaac-a… Facebook Group: / 1,583,992,725,237,264 Reddit: / isaacarthur Twitter: / isaac_a_arthur on Twitter and RT our future content. SFIA Discord Server: / discord Credits: Interstellar Travel: Can We Survive The Long Journey? Episode 725; June 15, 2025 Written, Produced & Narrated by: Isaac Arthur Graphics: Jarred Eagley Jeremy Jozwik Ken York YD Visual Mafic Studios Sergio Botero Select imagery/video supplied by Getty Images Music Courtesy of Epidemic Sound http://epidemicsound.com/creator Chris Zabriskie, “Unfoldment, Revealment”, “A New Day in a New Sector”, “Oxygen Garden”, “Wonder Cycle” Kai Engel, “Endless Story About Sun and Moon” Taras Harkavyi, “Alpha and…” Dark Future, “Staring Through” pt1 Miguel Johnson. “The Commanders”, “Far From Home” Lombus, “Hydrogen Sonata”, “Cosmic Soup” Aerium, “Deijocht” Stellardrone, “Red Giant”, “Solar Eclipse”, “Billions and Billions” Chapters 0:00 Intro 5:33 What is Terraforming? 8:27 Terraforming vs Para-Terraforming 11:54 Planets vs Megastructures 14:05 Terraforming vs Bioforming 17:14 The Inevitable Hybrid Approach 20:59 Ethics & Debate: Preservation vs. Transformation 22:42 Terraforming as a Civilization-Scale Endeavor 23:46 Terraforming Technologies & Techniques 24:42 Artificial Gravity Solutions 27:58 Atmospheric Manipulation 31:25 Bioforming & Genetic Engineering 34:06 Comet & Asteroid Bombardment 39:43 Domes & Worldhouses 43:24 Geoengineering & Climate Control 47:05 Hydrospheric Engineering 49:58 Magnetosphere Generation 53:35 Fishbowl Starships 55:02 Mass & Orbital Adjustments 1:00:17 Mega-Mirrors & Solar Shades 1:04:30 Oxygenation & Soil Processing 1:07:39 Planetary Shells & Artificial Crusts 1:10:37 Terraforming Nanotechnology 1:14:04 Tidal & Seismic Stabilization 1:18:45 From Theory to Practice: Adapting Terraforming to Specific Worlds 1:20:27 Extreme Radiation Levels 1:23:57 Frequent Asteroid & Meteor Impacts 1:27:41 High Gravity 1:30:29 Highly Eccentric Orbits 1:34:46 Hostile Native Life 1:38:25 Intense Volcanism 1:40:55 Long or Erratic Day/Night Cycles 1:51:09 Low Light Levels 1:52:57 No Air 1:54:25 No Magnetosphere 1:56:17 No Seasons 1:58:13 No Water 2:00:48 Short or Long Years & Seasons 2:02:05 Tidally Locked 2:03:32 Tidally Wracked 2:04:36 Too Cold 2:05:36 Too Hot 2:06:21 Too Much Air 2:07:05 Too Much Ocean 2:08:44 Too Much Solar Wind 2:11:13 Toxic or Corrosive Atmosphere or Surface 2:14:09 Unstable Tectonics 2:15:10 Wrong Air Composition 2:16:21 Final Thoughts.
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Credits:
Interstellar Travel: Can We Survive The Long Journey?
Episode 725; June 15, 2025
Written, Produced & Narrated by: Isaac Arthur.
Graphics:
Jarred Eagley.
Jeremy Jozwik.
Ken York YD Visual.
Mafic Studios.
Sergio Botero.
Select imagery/video supplied by Getty Images.
Music Courtesy of Epidemic Sound http://epidemicsound.com/creator.
Chris Zabriskie, \

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Feed Your Curiosity with Curiosity Box, use code ‘isaac25’ to get 25% off

From abiogenesis to AI, we rank the top Great Filter candidates and test them against the data to see which best explains the Fermi Paradox. Is the universe empty, or just dangerous? We explore ten filters—cosmic, biological, and civilizational—that could silence civilizations before they spread.

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SFIA Discord Server: / discord
. Credits:
Could We Accidentally Destroy the Universe?
Written, Produced & Narrated by: Isaac Arthur
Select imagery/video supplied by Getty Images
Music Courtesy of Epidemic Sound http://epidemicsound.com/creator.

Chapters
0:00 Intro
5:08 #10 The Fine-Tuned Universe & Rare Earth
12:55 #9 Abiogenesis (The Origin of Life)
16:29 #8 Complex Cells & Eukaryotes
20:14 #7 Multicellularity and Specialization
22:39 #6 Sexual Reproduction & Genetic Innovation
23:54 #5 Complex Animal Life
25:24 Curiosity
26:39 #4 Extended Childhood & Cooperative Rearing
29:17 #3 Long-Term Climate Stability
31:40 #2 Intelligence That Produces Technology
35:11 #1 The Late Filters: Surviving Technology, Ourselves, and Expanding Beyond the Home System.

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Why Hollywood Is Facing a Very Unhappy Ending

Layoffs, consolidation, streaming losses, artificial intelligence and the rise of the creator economy are reshaping Hollywood, raising questions about whether the industry is just hitting a rough patch or in terminal decline.

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Plastic Responses to Single and Combined Environmental Stresses in a Highly Chemodiverse Aromatic Plant Species

🚱Plants face various environmental stresses, to which they respond in different ways. Due to climate change, it is expected that plants will encounter increased phases of drought and changes in herbivory.

🐛This study thus aimed to evaluate the intra-individual variation in responses, that is phenotypic plasticity, to single and combined stresses, including drought and insect herbivory. Authors used plants of the aromatic species Tanacetum vulgare, which are characterized by distinct terpenoid chemotypes and metabolic fingerprints shaped by maternal origin. Clones were exposed to no stress, drought, herbivory, or a combination of both.

⚗️The impacts of these treatments were determined in terms of aboveground biomass as well as emission rates or concentrations, richness, and functional Hill diversity (FHD) of volatile organic compounds (VOCs), stored leaf and root terpenoids, and leaf metabolic fingerprints.

📊Drought resulted in lower plant aboveground biomass, VOC richness, and VOC FHD. Herbivory had no effect on biomass, but increased the VOC emission rates and richness, also in combination with drought. The treatment significantly affected the phenotypic plasticity of the aboveground biomass and VOC emission.

👉These findings highlight the importance of studying intra-individual variation in plant responses to different stresses and their combinations to fully comprehend the finely tuned chemodiversity.

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How AI could unlock deep-sea secrets of marine life

The reef is a home and feeding ground for dozens of species that depend on it the way a woodland creature depends on trees. It has survived ice ages – but whether it will survive increasing pressures from industrial fishing, deep-sea mining and climate change is, in part, a question about data. If we don’t know it exists, how can we protect it?

A new project called Deep Vision could fundamentally transform our understanding of the deep ocean by digging into pictures and videos sat largely unexamined in research archives around the world. By using AI, thousands of hours of seafloor footage can be analysed to produce the first comprehensive maps of vulnerable marine ecosystems across the entire Atlantic basin.

Over the past two decades, robotic and autonomous underwater vehicles have collected vast quantities of footage from the deep sea. This represents an extraordinary resource – a record of ecosystems that most humans will never see.

Salt may have pushed us further into Snowball Earth 700 million years ago

Our planet plunged into one of the most dramatic climate states in its long history, approximately 720–635 million years ago. During a period geologists call Snowball Earth, ice sheets crept from the poles all the way to the tropics, covering the oceans and continents in a nearly global freeze.

Evidence for this extreme climate comes from rock formations around the world that bear the signatures of ancient glaciers at low latitudes—signs that Earth’s surface was encased in ice far beyond what we see in today’s polar regions.

Scientists have long studied how a feedback process known as ice-albedo helped lock in and amplify this deep chill. Albedo is a measure of how much sunlight a surface reflects; snow and ice are bright and reflect most of the sun’s energy back into space, cooling the planet further as more of it spreads across the surface.

NASA’s MAVEN detects first evidence of lightning-like activity on Mars

While sifting through the extensive data collected by NASA’s Mars Atmosphere and Volatile Evolution (MAVEN) spacecraft over the last decade, scientists discovered a familiar type of electromagnetic signal commonly caused by lightning. This rare find represents the first direct indication of lightning activity on Mars. The team recently published their findings in Science Advances, where they describe the event and why it’s so difficult to detect lightning-like activity on Mars.

Whistler waves are low-frequency radio wave signals generated by lightning, which create an impulse that propagates through a planet’s magnetosphere, following along the magnetic field lines. The whistler waves disperse due to the slower velocity of the lower frequencies through the plasma of the ionosphere and magnetosphere. These waves are typical on Earth, but have also been observed on Jupiter, Saturn and Neptune. All of these planets all possess strong magnetic fields and corresponding magnetospheres, facilitating the movement of whistler waves.

Mars, on the other hand, does not have a global, Earth-like magnetic field. This is because the internal activity that causes these magnetic fields ceased on Mars billions of years ago. This may contribute to the fact that lightning-like discharges in the Martian atmosphere have not yet been observed. But lightning-like activity on Mars is not impossible.

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