‘Gold arrived on our planet as Earth was forming 4.5 billion years ago — it holds an extraordinary history'
Jun Korenaga
is Professor of
Earth
and Planetary Sciences at
Yale University
. He tells
Srijana Mitra Das
at TE about how
gold
got to Earth:
It's a little surprising to connect to Jun
Korenaga
, not least because the scientist is sitting against the backdrop of a planetary surface that could be — but doesn't have to be — Mars. Speaking with purple rock and feathery clouds in a sunless sky behind him, Korenaga explains the origins of gold — and Earth.
'My work focuses on estimating early Earth's history. In the last few years, I've worked on the Hadean Eon which was about 4.5 billion years ago — this is the most mysterious part of our planet's history because we don't have a rock record for it. I work on the theoretical side and try to reconstruct what early Earth looked like.' Gold is part of early Earth's story, although in unexpected ways. A symbol of stability now, gold had quite a dramatic past. Supernovae or cataclysmic stellar explosions and star collisions occurred in the universe. The extreme pressure of such imploding stars was so high, subatomic protons and electrons got pushed into their core — these formed neutrons. Rapid neutron capture by iron then created heavy elements like uranium, lead, silver and gold. Interestingly, this process occurred very, very swiftly — and then, these elements were expelled into space.
by Taboola
by Taboola
Sponsored Links
Sponsored Links
Promoted Links
Promoted Links
You May Like
News For Jack Nicholson, 87, He Has Been Confirmed To Be...
Reportingly
Undo
(Photos: Getty images)
Thus, metals like gold and platinum arrived on Earth while our planet was still forming. Korenaga explains, 'About 4.5 billion years ago, Earth was hit by a Mars-sized rock and the moon formed as the debris from this collision went into an Earth-orbiting disk. More bombardment followed — there were plenty of leftover rocks orbiting the sun as well and several fell on young Earth. The landing of these objects is known as 'late accretion', comprising about the last 1% of planetary growth. In this period, some of the rocks which fell on Earth had metallic components like gold.' Importantly, gold and platinum are among highly siderophile elements (HSEs) — these are metals with an extremely strong affinity for iron. Korenaga smiles slightly and says, 'Now, if Earth was created with no funny twists in its story, we actually wouldn't have any gold on our planet's surface because, sticking to iron, this was heavy and should have gone straight down into the core which we cannot access. But we do have gold on the surface, which shows that part of Earth's mantle can retain metallic components.' Korenaga's research, conducted with
Simone Marchi
, posits the notion that there is a thin or 'transient' part of the mantle where shallow areas melt away and a deeper region stays solid. This part could hold falling metallic components and reach them to the mantle. In the simulations the scientists conducted, as a rock crashed onto Earth, it hit a localised liquid magma ocean where heavy metals sank to the bottom. As these reached the partially molten area underneath, the metal would start sinking further down — then, the molten mantle solidified, capturing the metal there.
But how did this re-emerge to the part of Earth's surface humans could access? As Korenaga says, 'The part of the mantle which contains this metallic component is heavier and more chemically dense than the rest — to bring it up, you have to offset that density by being hotter than normal as hotter materials usually have lower density. Thus, thermal currents from Earth's core outweighed that compositional density and made these materials move up from the solid mantle to Earth's surface.' This process is called 'mantle convection', when hot mantle material rises as colder material sinks. Earth's mantle is almost totally solid — yet, over long geologic periods, it acts like a pliable material which can mix and move things within it. Those include the HSEs — like gold — which came to Earth from massive collisions billions of years ago and then reached the planet's surface through these enormous, yet intricate internal processes.
Is gold found on other planets as well? Korenaga says, 'Gold is found on the moon — but its abundance there is much lower than on Earth. It is found on Mars too. Of course, we don't have direct samples from Mars but we have so-called Martian meteorites. These are found on Earth but because of their isotopic features, they are traced back to Mars. Analysing these rocks shows us the presence of highly siderophile elements there — again though, the abundance of these, like gold and platinum, is much lower than on Earth.' Do siderophiles contain a larger story of the formation of our solar system — and universe? Korenaga comments, 'We understand planetary formation in terms of silicate rocks and iron which makes up most of the core. Iron is a major element while silicate rocks are made of silicon, oxygen, magnesium, iron, etc. Highly siderophile elements exist in very small abundances — their presence by itself doesn't drive any major planetary formation processes but they stick with iron and by measuring such trace elements, we can study more details of planetary formation.' These abundances thus help us decipher the paths planets once took.
The Golden Moon: This too has gold on it
THE GOLDEN MOON:
This too has gold on it
Given its incredible history — arriving on Earth 4.5 billion years ago, seeping deep into its mantle, pushed to the top by extraordinary forces operating from within our planet — how should we think of gold the next time we see it? Korenaga replies, 'Gold is, of course, widely available as jewellery and other items from shops but when we look at it, we should actually think about its extraordinary origins — we shouldn't take gold for granted. Its presence helps us understand crucial details of the very existence of this metallic Earth and the formation of its unique atmosphere which is 78% nitrogen and 21% oxygen — why did our planet develop in this way? A simple everyday item like gold can hold big answers to that.'
Korenaga concludes by remarking, 'Of course, my work explains why Earth's mantle has some amount of gold or platinum at the surface level but for humans to access pure gold, you need a concentrated form in a mine,' He adds, with a scientist's exactness, 'It is extremely inefficient otherwise to extract gold from rocks — but to understand the formation of gold mines, you need deeper knowledge about very local processes. And that is another story.'
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Time of India
an hour ago
- Time of India
ISRO successfully completes development of Service Module Propulsion System for Gaganyaan
Bengaluru, ISRO on Saturday said it has successfully completed the development of Service Module Propulsion System (SMPS) for Gaganyaan Mission with the completion of the qualification test programme. A full duration hot test of SMPS for 350 seconds was conducted to validate the integrated performance of the SMPS for flight off-nominal mission profile of the Service Module based mission abort on Friday. Gaganyaan mission is India's first human spaceflight mission in the making. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Villas For Sale in Dubai Might Surprise You Villas in Dubai | Search Ads Get Info Undo "The overall performance of the propulsion system during the hot test was normal as per pre-test predictions," ISRO said in a statement. According to the space agency , "The Service Module (SM) of Gaganyaan is a regulated bi-propellant based propulsion system that caters to the requirements of the Orbital Module for orbit circularisation, on-orbit control, de-boost manoeuvring and Service Module based abort during the ascent phase." Live Events The Liquid Apogee Motor (LAM) engines provide the main propulsive force during the orbit circularisation and de-boost phases, while the Reaction Control System (RCS) thrusters ensures precise attitude control, it added. "A System Demonstration Model (SDM) test bed was realised emulating the fluid circuit of the SMPS, encompassing the propellant tank feed system, helium pressurisation system, flight-qualified thrusters, and control components," ISRO said. It added that the SDM for SMPS has undergone 25 tests under nominal and off-nominal conditions for a cumulative duration of 14,331s for various Gaganyaan mission scenarios and human rating requirements. The space agency said the Gaganyaan Service Module Propulsion System is designed, developed, and realised by Liquid Propulsion Systems Centre (LPSC) and the tests were carried out at ISRO Propulsion Complex (IPRC), Mahendragiri in Tamil Nadu.
Time of India
2 hours ago
- Time of India
XFG 'Stratus' COVID-19 variant spreading fast: One unique symptom that distinguishes it from others
The world may have moved on from the harshest days of the pandemic, but the virus hasn't quite left the stage. A new Covid-19 variant, named XFG and nicknamed 'Stratus', is making headlines globally. With a noticeable rise in cases, which has been detected in 38 countries, experts are keeping a close watch. The World Health Organisation (WHO) has officially placed Stratus under its list of Variants Under Monitoring (VUM). What makes this variant different? How severe is it? And what symptoms are being observed so far? Here's all we need to know about the new variant. What is the Stratus (XFG) variant? Stratus is a recombinant subvariant of the Omicron lineage, meaning it's a blend formed when a person is infected with two different Covid strains at the same time. Specifically, Stratus is a hybrid of LF.7 and LP.8.1.2, two other Omicron subvariants. Recombinant strains like this typically begin with the letter X, hence the name XFG. What sets Stratus apart is its mutations in the spike protein, the part of the virus that helps it latch onto human cells. According to a Lancet report and data shared via the GISAID platform, this variant has been found in over 38 countries as of late June 2025, with nearly 1,648 genome sequences submitted globally. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Upto 15% Discount for Salaried Individuals ICICI Pru Life Insurance Plan Get Quote Undo Despite this spread, it's important to note: the WHO has assessed the global public health risk of Stratus as low, which means there's no current indication that it causes more severe illness than previous strains. Symptoms to know: Is Stratus showing new signs? What makes the Stratus variant stand out symptom-wise isn't how severe it is, but how subtly different it behaves. Much like earlier Omicron variants, symptoms are generally mild, especially in people who are vaccinated. However, one particular symptom is drawing attention, which is the hoarseness or a raspy voice. This symptom has emerged more frequently in Stratus cases than in other recent Covid variants. It's thought to be due to the way this variant targets the upper respiratory tract. Other mild symptoms observed include: Scratchy throat Nasal congestion Fatigue Low-grade fever Muscle aches But unlike earlier strains, loss of smell or taste is seen to be less common with Stratus. Still, symptoms can differ from one person to another. Testing remains key to confirming the infection. Spread and immune evasion : Why Stratus is under watch One of the reasons scientists are closely examining Stratus is its ability to bypass the immune system. The changes in its spike protein allow it to partially avoid antibodies from previous infections or vaccines. This is not proof that immunisations are ineffective; WHO verifies that current vaccines continue to protect against serious disease and hospitalisation, even with Stratus in circulation. However, the virus can still cause illnesses, particularly in crowded or poorly ventilated environments. Caution is always wise, but panic isn't supported by current data.
Time of India
3 hours ago
- Time of India
Shubhanshu Shukla to undergo 7-day rehab post return to Earth on July 15
Astronaut Shubhanshu Shukla will undergo a seven-day rehabilitation programme after his splashdown off the California coast on July 15 as he returns to the Earth from an 18-day sojourn at the International Space Station (ISS). Shukla and three other astronauts - commander Peggy Whitson and mission specialists Slawosz Uznanski-Wisniewski and Tibor Kapu of Poland and Hungary - had docked at the ISS on June 26 as part of the commercial Axiom-4 mission . The four astronauts are scheduled to undock from the ISS on Monday, July 14, at 4.35 pm IST (7.05 am ET), the National Aeronautics and Space Administration said in a statement. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Play War Thunder now for free War Thunder Play Now Undo According to ISRO , following a series of orbital manoeuvres after undocking Crew Dragon spacecraft is expected to splash down near the coast of California on July 15, 2025, at 3 pm IST. "Post splashdown, the Gaganyatri will undergo a rehabilitation program (about 7 days) under supervision of Flight Surgeon to adapt back to Earth's gravity," the ISRO said in an update on the Axiom-4 mission. Live Events ISRO paid approximately Rs 550 crore for Shukla's travel to the ISS - an experience that will help the space agency in planning and execution of its human spaceflight programme , Gaganyaan, set to take to orbit in 2027. "ISRO's flight surgeons are continuously monitoring and ensuring the overall health and fitness of the Gaganyatri through participation in private medical/psychological conferences. Gaganyatri Shubhanshu is in good health and in high spirit," ISRO said. Shukla and the three other astronauts are expected to board the spacecraft at 2.25 pm IST, wear their space suits and carry out the necessary tests before they begin their journey to the Earth. The ISS is orbiting the Earth at a speed of 28,000 kilometres per hour, and the spacecraft will initiate the autonomous undocking process to gradually slow down and re-enter the planet's atmosphere for a splashdown off the coast of California. "The Dragon spacecraft will return with more than 580 pounds of cargo, including NASA hardware and data from over 60 experiments conducted throughout the mission," NASA said. Axiom-4 mission commander Peggy Whitson said in a post on X: "Enjoying our last few days on the @Space_Station with rehydrated shrimp cocktails and good company! #Ax4." Shukla had brought carrot halwa and mango nectar (aamras) to the party. On the experiment front, Shukla worked on the microalgae experiment, deploying and stowing samples that could one day provide food, oxygen and biofuels for deep-space missions, Axiom Space said in a statement. The resilience of the microalgae makes them a promising asset to sustain life beyond the Earth, it added. "Exercise research and spacesuit maintenance topped the schedule for the Expedition 73 and Axiom Mission 4 (Ax-4) crews on Thursday," the NASA statement said. The crew also continued the Voyager Displays study, which examines how spaceflight affects eye movement and coordination. The crew collected data for a study to explore how astronauts perceive and interact with their environment in orbit, which is critical for designing mentally supportive habitats for long-duration missions. Another study focused on cerebral blood flow, investigating how microgravity and elevated carbon dioxide levels affect cardiovascular function, which could later benefit both astronauts and patients on the Earth. Radiation exposure was monitored using the compact Rad Nano Dosimeter, a tool for assessing astronaut safety. The crew took part in the Acquired Equivalence Test, a cognitive experiment that measures learning and adaptability in space, and supported the PhotonGrav study by collecting brain-activity data to explore neuroadaptive technologies for space and medical applications.
