Earth formed from meteoritic material, say scientists
Washington, November 14 (ANI): A University of Arkansas professor and his colleagues have shown that the Earth's mantle contains the same isotopic signatures from magnesium as meteorites do, suggesting that the planet formed from meteoritic material, thus resolving a long-standing debate in the field over the planet's origins.
The research was conducted by Fangzhen Teng, assistant professor of geosciences at the University of Arkansas, and Wei Yang and Hong-Fu Zhang of the Chinese Academy of Sciences.
The researchers examined magnesium isotopes in chondrites - meteorites containing elements formed from the condensation of hot gases in the solar system.
They also looked at samples from different depths in the Earth's mantle.
Isotopes have the same chemical properties, but different weights, so some processes cause what looks like the same material to behave differently.
The different proportions of isotopes within a rock can tell scientists something about the original source of the material.
Magnesium makes a particularly good marker for planetary origins because, first, isotopes of magnesium can be separated during evaporation and condensation in the solar system and, second and more uniquely, one isotope of magnesium, Mg26, is a decay product of Al26, which existed in the early solar system for less than 5 million years.
Thus, materials with different origins and ages contain different amounts of Al26, which results in different amounts of magnesium isotope.
"Isotopes are very sensitive to sources of material," Teng said. "We can use isotopes as a tool to further understand planetary origins," he added.
Teng's group analyzed different types of rocks from different depths of the Earth's mantle from a site in North China and compared the results to those of samples from chondritic meteorites.
They looked at magnesium isotopes in samples from the whole rock, but they also separated out minerals from the rocks and examined the magnesium isotope composition of these minerals as well.
"The samples from Earth were slightly different from one another," Teng said.
Their compositions also matched closely with those of the meteorites, the researchers report.
"That's very strong evidence that Earth has a chondritic magnesium composition," Teng said. (ANI)
-
India vs New Zealand T20 World Cup 2026 Final: Five Positive Signs Favouring India Before Title Clash -
IND vs NZ Final Live: When and Where to Watch India vs New Zealand T20 World Cup 2026 Title Clash -
Ind vs NZ T20 World Cup 2026: New Zealand Needs 256 Runs To Beat India And Win The World Cup -
UAE Attacks Iran, Becomes 5th Nation To Enter War; Reports Suggest Strike On Iranian Facility -
ICC T20 World Cup 2026 Final: Ricky Martin, Falguni Pathak To Perform At Closing Ceremony, How To Watch -
Who Is Nishant Kumar: Education, Personal Life and Possible Political Role -
IND vs NZ T20 WC Final: New Zealand Win Toss, Opt To Chase; Why Batting First Could Be A Tough Call For India -
Gold Rate Today 8 March 2026: IBJA Issues Fresh Gold Rates; Tanishq, Malabar, Kalyan, Joyalukkas Prices -
From Kerala Boy To World Cup Hero: Sanju Samson’s 89-Run Blitz, His Birth, Religion, Wife And Inspiring Story -
Hyderabad Gold Silver Rate Today, 8 March, 2026: Latest Gold Prices And Silver Rate In Nizam City -
Panauti Stadium? Is Narendra Modi Stadium an Unlucky Venue for India National Cricket Team? -
Storm Over West Bengal Govt's 'Snub' To President Droupadi Murmu
Click it and Unblock the Notifications
Sign in with Google