You are here

News Feeds

How Oumuamua Changes Our Perspective on Galactic Panspermia

Universe Today Feed - Thu, 08/01/2024 - 1:04pm

Panspermia is an innately attractive idea that’s gained prominence in recent decades. Yet, among working scientists, it gets little attention. There are good reasons for their relative indifference, but certain events spark renewed interest in panspermia, even among scientists.

The appearance of Oumuamua in our Solar System in 2017 was one of them.

Panspermia is the hypothesis that life can travel throughout the Universe by hitching an unintended ride with space dust, meteoroids, asteroids, comets, and even rogue planets.

It’s an ancient idea, which only increases its resonance for some. The Greek philosopher Anaxagoras was the first to propose it. He coined the term ‘panspermia’ and said that the Universe was full of life and that some of it fell to Earth. It remains on the fringe of science because it can’t explain how life started, and it’s not testable. But it is enduring.

Oumuamua’s appearance sparked renewed interest in Panspermia. After the object came and went rapidly in 2017, scientists attempted to determine what it actually was. Maybe it was a comet, maybe it was an asteroid, maybe it was a chunk of frozen hydrogen. Many hypotheses were presented. Now, we simply call it an interstellar object, or ISO.

From the perspective of panspermia, Oumuamua’s classification isn’t the most pressing concern. It was a visitor to our Solar System from elsewhere, and that’s the most salient point.

In a new paper, a trio of researchers examine how many of these types of objects might exist and what properties they’d need to protect and transport life throughout the galaxy. The paper is titled “The Implications of ‘Oumuamua on Panspermia.” The lead author is David Cao, a high school student who also served as an intern at the Johns Hopkins University Applied Physics Laboratory.

“Panspermia is the hypothesis that life originated on Earth from the bombardment of foreign interstellar ejecta harbouring polyextremophile microorganisms,” the authors write. “By utilizing ‘Oumuamua’s properties as an anchor, we estimate the mass and number density of ejecta in the ISM.”

Throughout their work, they acknowledge that “panspermia is an extraordinarily difficult theory to quantitatively model and assess.” But it’s still worth an attempt because of Oumuamua. “The recently discovered ‘Oumuamua merits a reexamination for the possibility of panspermia, the hypothesis that life seeded on Earth from the bombardment of life-bearing interstellar ejecta and that life can be transferred from one celestial body to another.”

Panspermia is the idea that life is spread throughout the galaxy, or even the Universe, by asteroids, comets, and even minor planets. Credit: NASA/Jenny Mottor

The trio determined the minimum size of ejecta needed to protect extremophiles from radiation, especially from supernovae. Intense gamma rays can sterilize ejecta if they’re not large enough for extremophiles to survive in their interiors, shielded by rock or water ice. Ejecta also needs to be large enough to protect any lifeforms from impact with another body. But the size depends on the nature of the ejecta.

“We consider the four most common elemental compositions of asteroids (chondritic, stony and metallic) and comets (water-ice) in our own Solar System: silicate, nickel, iron, and water-ice,” they write. Nickel has the highest attenuation and the smallest minimum size needed to shelter life. Water-ice requires the maximum size.

The authors explain, “We make an assumption that the number density abundances and varying compositions of interstellar ejecta mirror the content of minor bodies in our own Solar System.” Based on that, they settled on a minimum size of 6.6 meters.

They also tried to determine the likelihood that extremophiles could have seeded Earth, though they acknowledge that many of the factors involved are poorly understood and poorly constrained. In order to seed life, an ejecta carrying extremophiles had to have arrived at Earth early, before the earliest evidence of fossilized life. “Second, we estimate the total number of impact events on Earth after its formation and prior to the emergence of life (? 0.8 Gyr).”

They calculate impact rates for objects of different sizes. For objects at least 10 meters in diameter, they calculate that about 40,000 of them could’ve impacted Earth in its first 800,000 years.

This figure from the study shows the total number of collisions by minimum shielding depth for Earth’s first 800,000 years. The different dotted, dashed, and solid lines represent distribution slopes. Image Credit: Cao et al. 2024

Existing estimates of the number of Earth-like planets in the Milky Way are available. Based on those, here’s what it all adds up to, keeping in mind all of the poorly constrained factors involved. “However, we find that panspermia is a plausible potential life-seeding mechanism for (optimistically) potentially up to ~ 105 (100,000) of the ~ 109 (one billion) Earth-sized habitable zone worlds in our Galaxy,” the authors write.

But the prospects that Earth itself was seeded by panspermia are very weak. “For the Earth in particular, we conclude that, independent of other hypotheses for the origins of life on Earth, panspermia remains improbable (< 0.001%).” In a way, it’s more of a thought experiment. The authors say that “the true relative probability for panspermia remains unknown.”

The panspermia idea will not disappear. It’s simply too compelling to discard, even though it cannot be tested.

Another way of looking at it is that Earth could be a source of panspermia rather than a receiver.

“The fraction of these rocky planets that possess magnetic fields, atmospheres, and liquid surface water capable of supporting life is currently unconstrained and unknown, but our work implies as many as 104 of these worlds in our Galaxy could be populated with life today via panspermia under the most optimistic assumptions that all of these worlds are capable of supporting ejecta-transported life, with Earth as one of the potential source planets.” The number could rise to 104 under the most optimistic conditions.

There are other factors to consider. We’re only beginning to determine the number of rogue planets or free-floating planets (FFPs). As we learn more about them and their abundance, the panspermia hypothesis will change. “The discovery of rogue-free floating planets (FFPs) suggests a significantly higher ISM ejecta number density than expected for large objects,” the authors explain.

This illustration shows a rogue planet travelling through space. Credit: NASA/JPL-Caltech/R. Hurt (Caltech-IPAC)

Also, the number of ejecta and their mass haven’t been constant. For example, during the hypothesized Late Heavy Bombardment, a much larger number of objects were crashing into the Earth and the other Solar System bodies. How would that have affected panspermia?

“~4 Gyr ago, the Earth is thought to have experienced an unprecedented number of impact events
that consequently ejected matter into the ISM, the era of Late Heavy Bombardment,” the authors write. The rate of bombardment was between 100 to 500 times greater than the present rate. If other solar systems experienced similar events, there would be substantially more potential for panspermia.

Artist concept of Earth during the Late Heavy Bombardment period. Credit: NASA’s Goddard Space Flight Center Conceptual Image Lab.

The star formation rate also plays a role. “As more stars are formed, more mass will be ejected into the ISM in star formation regions, increasing the production of ISM ejecta number density,” the authors explain.

There are so many unknowns and so much conjecture that many scientists avoid the panspermia theory completely. But more and more data will keep coming our way, and as it does, the idea will be revised and reconsidered.

The Rubin Observatory Large Synoptic Survey Telescope will hopefully see its long-anticipated first light in early 2025. That telescope will undoubtedly detect many more ISOs and FFPs, filling in important gaps in our knowledge.

As that data comes in, expect more attention to be focused on the panspermia theory.

The post How Oumuamua Changes Our Perspective on Galactic Panspermia appeared first on Universe Today.

Categories: Science

Glaciers in the Andes are the smallest they’ve been for 130,000 years

New Scientist Feed - Thu, 08/01/2024 - 12:00pm
A study of rocks exposed by melting ice shows that Andean glaciers have retreated further now than at any time since Earth’s last interglacial period
Categories: Science

Scientists revolutionize microscopy by reimagining the logic of imaging

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 11:22am
Scientists have devised an innovative imaging method using state-of-the-art microscopes that significantly reduces the time and radiation required. Their work represents a significant breakthrough that will benefit several disciplines, from materials science to medicine, as the method promises to deliver improved imaging for sensitive materials such as biological tissues that are especially vulnerable to damage.
Categories: Science

A slight curve helps rocks make the biggest splash

New Scientist Feed - Thu, 08/01/2024 - 9:39am
Researchers were surprised to find that a very slightly curved object produces a more dramatic splash than a perfectly flat one
Categories: Science

Method prevents an AI model from being overconfident about wrong answers

Computers and Math from Science Daily Feed - Thu, 08/01/2024 - 9:19am
Thermometer, a new calibration technique tailored for large language models, can prevent LLMs from being overconfident or underconfident about their predictions. The technique aims to help users know when a model should be trusted.
Categories: Science

Research catalogs greenhouse gas emissions tied to energy use for interbasin water transfers

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:19am
Much of the water in the West is transported across vast geographical areas by large infrastructure projects known as interbasin water transfers. Two of these projects in particular make up 85% of all energy-related greenhouse gas emissions associated with U.S. interbasin transfers -- one in Arizona and the other in California -- according to the new research.
Categories: Science

'Smarter' semiconductor technology for training 'smarter' artificial intelligence

Computers and Math from Science Daily Feed - Thu, 08/01/2024 - 9:19am
A research team has recently demonstrated that analog hardware using ECRAM devices can maximize the computational performance of artificial intelligence, showcasing its potential for commercialization.
Categories: Science

'Smarter' semiconductor technology for training 'smarter' artificial intelligence

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:19am
A research team has recently demonstrated that analog hardware using ECRAM devices can maximize the computational performance of artificial intelligence, showcasing its potential for commercialization.
Categories: Science

Stacked up against the rest

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:19am
Scientists have hypothesized that moir excitons -- electron-hole pairs confined in moir interference fringes which overlap with slightly offset patterns -- may function as qubits in next-generation nano-semiconductors. However, due to diffraction limits, it has not been possible to focus light enough in measurements, causing optical interference from many moir excitons. To solve this, researchers have developed a new method of reducing these moir excitons to measure the quantum coherence time and realize quantum functionality.
Categories: Science

Sustainable catalysts: Crystal phase-controlled cobalt nanoparticles for hydrogenation

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:19am
Controlling the crystal phase of cobalt nanoparticles leads to exceptional catalytic performance in hydrogenation processes, scientists report. Produced via an innovative hydrosilane-assisted synthesis method, these phase-controlled reusable nanoparticles enable the selective hydrogenation of various compounds under mild conditions without the use of harmful gases like ammonia. These efforts could lead to more sustainable and efficient catalytic processes across many industrial fields.
Categories: Science

Demographics of north African human populations unravelled using genomic data and artificial intelligence

Computers and Math from Science Daily Feed - Thu, 08/01/2024 - 9:19am
A new study places the origin of the Imazighen in the Epipaleolithic, more than twenty thousand years ago. The research concludes that the genetic origin of the current Arab population of north Africa is far more recent than previously believed, placing it in the seventh century AD. The team has designed an innovative demographic model that uses artificial intelligence to analyze the complete genomes of the two populations.
Categories: Science

Sustainable and reversible 3D printing method uses minimal ingredients and steps

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:19am
A new 3D printing method developed by engineers is so simple that it uses a polymer ink and salt water solution to create solid structures. The work has the potential to make materials manufacturing more sustainable and environmentally friendly.
Categories: Science

Sustainable and reversible 3D printing method uses minimal ingredients and steps

Computers and Math from Science Daily Feed - Thu, 08/01/2024 - 9:19am
A new 3D printing method developed by engineers is so simple that it uses a polymer ink and salt water solution to create solid structures. The work has the potential to make materials manufacturing more sustainable and environmentally friendly.
Categories: Science

New AI tool simplifies heart monitoring: Fewer leads, same accuracy

Computers and Math from Science Daily Feed - Thu, 08/01/2024 - 9:19am
To diagnose heart conditions including heart attacks and heart rhythm disturbances, clinicians typically rely on 12-lead electrocardiograms (ECGs) -- complex arrangements of electrodes and wires placed around the chest and limbs to detect the heart's electrical activity. But these ECGs require specialized equipment and expertise, and not all clinics have the capability to perform them. Scientists showed that, with help from an AI tool, cardiologists can diagnose heart attacks using a simpler, easier and more accessible electrocardiogram technology.
Categories: Science

Engineering researchers crack the code to boost solar cell efficiency and durability

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:19am
Photovoltaic (PV) technologies, which convert light into electricity, are increasingly applied worldwide to generate renewable energy. Researchers have now developed a molecular treatment that significantly enhances the efficiency and durability of perovskite solar cells. Their breakthrough will potentially accelerate the large-scale production of this clean energy.
Categories: Science

Breakthrough in plant disease: New enzyme could lead to anti-bacterial pesticides

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:18am
Scientists uncover a pivotal enzyme, XccOpgD, and its critical role in synthesizing C G16, a key compound used by Xanthomonas pathogens to enhance their virulence against plants. This breakthrough opens new avenues for developing targeted pesticides that combat plant diseases without harming beneficial organisms. Insights into XccOpgD's enzymatic mechanism and optimal conditions offer promising prospects for sustainable agriculture, bolstering crop resilience and global food security while minimizing environmental impact.
Categories: Science

Electrical impedance tomography--extracellular voltage activation technique simplifies drug screening

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:18am
Recently, researchers developed a non-invasive method combining electrical impedance tomography and extracellular voltage activation to evaluate drug effects on ion channels. The resulting printed circuit board sensor allows real-time monitoring of how newly developed drugs can affect ion flow in channels, providing a cost-effective and accurate alternative to traditional methods like patch-clamp techniques and paving the way toward more efficient and shorter preclinical testing in the drug discovery process.
Categories: Science

Proteins as the key to precision medicine: Finding unknown effects of existing drugs

Matter and energy from Science Daily Feed - Thu, 08/01/2024 - 9:18am
Fewer side effects, improved chances of healing: the goal of precision medicine is to provide patients with the most individualized treatment possible. This requires a precise understanding of what is happening at the cellular level. Researchers have now succeeded in mapping the interactions of 144 active substances with around 8,000 proteins. The results could help to identify previously unknown potential benefits of existing drugs.
Categories: Science

Key to rapid planet formation

Space and time from Science Daily Feed - Thu, 08/01/2024 - 9:18am
Researchers have developed a new model to explain the formation of giant planets such as Jupiter, which furnishes deeper insights into the processes of planet formation and could expand our understanding of planetary systems.
Categories: Science

Modern behavior explains prehistoric economies

Computers and Math from Science Daily Feed - Thu, 08/01/2024 - 9:18am
What if the 'Market Economy' always existed? Archaeologists tried to answer this question by researching how much Bronze Age people used to spend to sustain their daily lives. Their results show that, starting at least 3,500 years ago, the spending habits of prehistoric Europeans were not substantially different from what they are today.
Categories: Science

Pages

Subscribe to The Jefferson Center  aggregator