https://www.lboro.ac.uk/media-centre/press-releases/2021/july/meteorite-reveal-origins-life-on-earth/

Students Staff Alumni
[                    ] Search
[LU-logo-wh]

 

  * About
  * About
  * About

    About the University >>

      + The University

      + Schools / Departments
      + Services
      + Alumni
      + Visiting the University
      + Contact us
      + History & strategy

      + History
      + University Strategy
      + Our achievements
      + Annual Review
      + Campus & community

      + Campus map
      + Local area
      + Working with the Community
      + Campus facilities
      + Useful links

      + Job vacancies
      + Sustainability
      + Virtual tours
      + Students' Union
  * Study with us
  * Study with us
  * Study with us

    Study with us >>

      + Undergraduate >>
      + Courses
      + Open days
      + Accommodation
      + Employability
      + Order a prospectus
      + How to apply
      + More study options

      + Online learning
      + Loughborough University London
      + Short courses
      + Postgraduate >>
      + Masters' degrees
      + Why study a master's
      + Research degrees
      + Your journey into research
      + Funding and scholarships
      + Visit us
      + How to apply
      + Doctoral College
      + Order a prospectus
      + International >>
      + Applicants
      + Offer holders
      + Your country
      + Erasmus+ and International Exchanges
      + Partnerships
      + Useful links

      + Admissions policy
      + Accommodation
      + School and college liaison
      + Parents' and carers' guide
      + Thinking about university
  * News and events
  * News and events
  * News and events

    News and events >>

      + News >>
      + Latest news
      + Categories
      + Events >>
      + All upcoming events
      + Categories
      + Media Centre >>
      + Press releases
      + Experts
      + HD videos
      + Public Relations Office
  * Research
  * Research
  * Research

    Our Research >>

      + Research Excellence

      + Beacons
      + Global challenges
      + Centres of Excellence
      + School research strengths
      + Opportunities

      + Collaborate with us
      + Institute of Advanced Studies
      + Study with us
      + Work for us
      + Research Impact

      + Research spotlights
      + Research news
      + Case studies
      + Support

      + Support for staff
      + Doctoral College
  * Business
  * Business
  * Business

    Working with Business >>

      + Working with us

      + Student and Graduate Recruitment
      + Consultancy
      + Knowledge Transfer Partnerships
      + Research Commercialisation
      + Case studies
      + Business accommodation

      + Science & Enterprise Park (LUSEP)
      + Innovation Centre (ATIC)
      + Student enterprise

      + Student and Graduate Enterprise
      + Inspiring Enterprising Graduates
      + The Marketplace
      + Launch IT!
      + Enterprise Office

      + About us
      + Contact us

Media Centre

  * University home
  * Media Centre
  * Press releases
  * 2021
  * July
  * Ancient meteorite could reveal the origins of life on Earth

Menu

  * Media Centre home
  * Press releases
      + 2021
      + 2020
      + 2019
      + 2018
      + 2017
      + 2016
      + 2015
      + 2014
      + 2013
      + Older
  * Experts
  * Facts and figures
  * High resolution photos
  * Video and audio
  * Podcasts
  * Broadcast Suite
  * Contact

Press releases

[meteormain]

Ancient meteorite could reveal the origins of life on Earth 19 July
2021

A 4.6-billion-year-old meteorite found lying in the imprint of a
horseshoe is likely a remnant of cosmic debris left over from the
birth of the solar system and could answer questions about how life
began on Earth.

[meteorclos]

The 4.6bn-year-old space rock found by Derek Robson in March

It was discovered by Loughborough resident Derek Robson, of the East
Anglian Astrophysical Research Organisation(EAARO), in a
Gloucestershire field, in March, after travelling from a distance of
at least 110 million miles from its primordial home between the
orbits of Mars and Jupiter in the asteroid belt.

Scientists at Loughborough University are now analysing the small
charcoal-coloured space rock to determine its structure and
composition in a bid to answer questions about the early solar system
and possibly our own origins.

Along with colleagues from EAARO, researchers are using techniques
such as electron microscopy to survey the surface morphology at the
micron and nanometre scale; vibrational spectroscopy and X-ray
diffraction, which give detailed information about chemical
structure, phase and polymorphism, crystallinity and molecular
interactions, to determine the structure and composition.

The material, which resembles loosely held-together concreted dust
and particles, never underwent the violent cosmic collisions that
most ancient space debris experienced as it smashed together to
create the planets and moons of our solar system.

[meteorclos]^Differential interference contrast image of embedded
mineral chondrules in the carbonaceous chondrite meteorite (optical
micrograph)

"The internal structure is fragile and loosely bound, porous with
fissures and cracks," said Shaun Fowler - a specialist in optical and
electron microscopy at the Loughborough Materials Characterisation
Centre (LMCC).

"It doesn't appear to have undergone thermal metamorphism, which
means it's been sitting out there, past Mars, untouched, since before
any of the planets were created meaning we have the rare opportunity
to examine a piece of our primordial past.

"The bulk of the meteorite is comprised of minerals such as olivine
and phyllosilicates, with other mineral inclusions called chondrules.

"But the composition is different to anything you would find here on
Earth and potentially unlike any other meteorites we've found -
possibly containing some previously unknown chemistry or physical
structure never before seen in other recorded meteorite samples."

[meteorclos]^Secondary electron image of mineral chondrule in the 
carbonaceous chondrite meteorite revealing spherical mineral 
inclusions. (electron micrograph)

The ancient rock is a rare example of a carbonaceous chondrite, a
type of meteorite which often contains organic material. Fewer than
5% of meteorites which fall to Earth belong to this classification.

Identifying organic compounds would support the idea that early
meteorites carried amino acids - the building blocks of life - to
supply the Earth's primordial soup where life first began.

"Carbonaceous chondrites contain organic compounds including amino
acids, which are found in all living things," said Director of
Astrochemistry at EAARO Derek Robson who found the meteorite and who
will soon join Loughborough University as an academic visitor for
collaborative research.

"Being able to identify and confirm the presence of such compounds
from a material that existed before the Earth was born would be an
important step towards understanding how life began."

Professor Sandie Dann, of the Chemistry Department in the School of
Science, first worked with Derek in 1997 and has kept in touch with
him regularly since.

She said: "It's a scientific fairy-tale. First your friend tracks a
meteorite, then finds it and then gifts a bit of this
extra-terrestrial material to you to analyse.

"At this stage, we have learned a good deal about it, but we've
barely scratched the surface.

"There is huge potential to learn about ourselves and our solar
system - it's an amazing project to be part of."

[meteorclos]^Secondary electron image of carbonaceous chondrite 
meteorite showing delicate layered leaf-like structures at 10,000x
magnification. (electron micrograph)

Jason Williams, Managing Director of EAARO, added: "One of EAARO's
primary objectives is to open the doors of science and technology to
those who may not get the opportunity.

"Derek and I felt our new find could help us further these objectives
by opening up research opportunities in meteoritical science.

"We carefully chose Loughborough, along with University of Sheffield,
a number of commercial partners, and a handful of overseas
specialists to work with us on this exciting project as we continue
to excite and inspire people young and old by promoting and encourage
space research and STEM subjects to a wider community."

More about...

The East Anglian Astrophysical Research Organisation (EAARO) was
founded in 2011 and has a Space Operations Centre (SOC) near
Cambridge, a radio observatory and satellite ground station in
Hertfordshire and a meteor radar system project on the Orkney
Islands.

Its members include science and engineering specialists, radio
astronomers and technical experts who have collaborated with
institutions including Arizona State University, the University of
Manchester, the Bayfordbury Observatory and the Jodrell Bank Centre
for Astrophysics.

The Loughborough Materials Characterisation Centre (LMCC) is a core
research facility at Loughborough University that supports
researchers who require advanced materials characterisation.

It combines the talents of an experienced team of researchers and
technicians together with world-class equipment to offer a unique
service to users, both academic and industrial.

ENDS

Notes for editors

Press release reference number: 21/xx

Loughborough is one of the country's leading universities, with an
international reputation for research that matters, excellence in
teaching, strong links with industry, and unrivalled achievement in
sport and its underpinning academic disciplines.

It has been awarded five stars in the independent QS Stars university
rating scheme, named the best university in the world for
sports-related subjects in the 2020 QS World University Rankings and
University of the Year by The Times and Sunday Times University Guide
2019.

Loughborough is in the top 10 of every national league table, being
ranked 7th in the Guardian University League Table 2021, 5th in the
Times and Sunday Times Good University Guide 2020 and 6th in The UK
Complete University Guide 2021.

Loughborough is consistently ranked in the top twenty of UK
universities in the Times Higher Education's 'table of tables' and is
in the top 10 in England for research intensity. In recognition of
its contribution to the sector, Loughborough has been awarded seven
Queen's Anniversary Prizes.

The Loughborough University London campus is based on the Queen
Elizabeth Olympic Park and offers postgraduate and executive-level
education, as well as research and enterprise opportunities. It is
home to influential thought leaders, pioneering researchers and
creative innovators who provide students with the highest quality of
teaching and the very latest in modern thinking.

Categories

Science

Ancient meteorite could reveal the origins of life on Earth

19 July 2021
Science
[yH5BAEAAAA]

A 4.6-billion-year-old meteorite found lying in the imprint of a
horseshoe is likely a remnant of cosmic debris left over from the
birth of the solar system and could answer questions about how life
began on Earth.

[yH5BAEAAAA]

The 4.6bn-year-old space rock found by Derek Robson in March

It was discovered by Loughborough resident Derek Robson, of the East
Anglian Astrophysical Research Organisation(EAARO), in a
Gloucestershire field, in March, after travelling from a distance of
at least 110 million miles from its primordial home between the
orbits of Mars and Jupiter in the asteroid belt.

Scientists at Loughborough University are now analysing the small
charcoal-coloured space rock to determine its structure and
composition in a bid to answer questions about the early solar system
and possibly our own origins.

Along with colleagues from EAARO, researchers are using techniques
such as electron microscopy to survey the surface morphology at the
micron and nanometre scale; vibrational spectroscopy and X-ray
diffraction, which give detailed information about chemical
structure, phase and polymorphism, crystallinity and molecular
interactions, to determine the structure and composition.

The material, which resembles loosely held-together concreted dust
and particles, never underwent the violent cosmic collisions that
most ancient space debris experienced as it smashed together to
create the planets and moons of our solar system.

[meteorclos]^Differential interference contrast image of embedded
mineral chondrules in the carbonaceous chondrite meteorite (optical
micrograph)

"The internal structure is fragile and loosely bound, porous with
fissures and cracks," said Shaun Fowler - a specialist in optical and
electron microscopy at the Loughborough Materials Characterisation
Centre (LMCC).

"It doesn't appear to have undergone thermal metamorphism, which
means it's been sitting out there, past Mars, untouched, since before
any of the planets were created meaning we have the rare opportunity
to examine a piece of our primordial past.

"The bulk of the meteorite is comprised of minerals such as olivine
and phyllosilicates, with other mineral inclusions called chondrules.

"But the composition is different to anything you would find here on
Earth and potentially unlike any other meteorites we've found -
possibly containing some previously unknown chemistry or physical
structure never before seen in other recorded meteorite samples."

[meteorclos]^Secondary electron image of mineral chondrule in the 
carbonaceous chondrite meteorite revealing spherical mineral 
inclusions. (electron micrograph)

The ancient rock is a rare example of a carbonaceous chondrite, a
type of meteorite which often contains organic material. Fewer than
5% of meteorites which fall to Earth belong to this classification.

Identifying organic compounds would support the idea that early
meteorites carried amino acids - the building blocks of life - to
supply the Earth's primordial soup where life first began.

"Carbonaceous chondrites contain organic compounds including amino
acids, which are found in all living things," said Director of
Astrochemistry at EAARO Derek Robson who found the meteorite and who
will soon join Loughborough University as an academic visitor for
collaborative research.

"Being able to identify and confirm the presence of such compounds
from a material that existed before the Earth was born would be an
important step towards understanding how life began."

Professor Sandie Dann, of the Chemistry Department in the School of
Science, first worked with Derek in 1997 and has kept in touch with
him regularly since.

She said: "It's a scientific fairy-tale. First your friend tracks a
meteorite, then finds it and then gifts a bit of this
extra-terrestrial material to you to analyse.

"At this stage, we have learned a good deal about it, but we've
barely scratched the surface.

"There is huge potential to learn about ourselves and our solar
system - it's an amazing project to be part of."

[meteorclos]^Secondary electron image of carbonaceous chondrite 
meteorite showing delicate layered leaf-like structures at 10,000x
magnification. (electron micrograph)

Jason Williams, Managing Director of EAARO, added: "One of EAARO's
primary objectives is to open the doors of science and technology to
those who may not get the opportunity.

"Derek and I felt our new find could help us further these objectives
by opening up research opportunities in meteoritical science.

"We carefully chose Loughborough, along with University of Sheffield,
a number of commercial partners, and a handful of overseas
specialists to work with us on this exciting project as we continue
to excite and inspire people young and old by promoting and encourage
space research and STEM subjects to a wider community."

More about...

The East Anglian Astrophysical Research Organisation (EAARO) was
founded in 2011 and has a Space Operations Centre (SOC) near
Cambridge, a radio observatory and satellite ground station in
Hertfordshire and a meteor radar system project on the Orkney
Islands.

Its members include science and engineering specialists, radio
astronomers and technical experts who have collaborated with
institutions including Arizona State University, the University of
Manchester, the Bayfordbury Observatory and the Jodrell Bank Centre
for Astrophysics.

The Loughborough Materials Characterisation Centre (LMCC) is a core
research facility at Loughborough University that supports
researchers who require advanced materials characterisation.

It combines the talents of an experienced team of researchers and
technicians together with world-class equipment to offer a unique
service to users, both academic and industrial.

ENDS

Notes for editors

Press release reference number: 21/xx

Loughborough is one of the country's leading universities, with an
international reputation for research that matters, excellence in
teaching, strong links with industry, and unrivalled achievement in
sport and its underpinning academic disciplines.

It has been awarded five stars in the independent QS Stars university
rating scheme, named the best university in the world for
sports-related subjects in the 2020 QS World University Rankings and
University of the Year by The Times and Sunday Times University Guide
2019.

Loughborough is in the top 10 of every national league table, being
ranked 7th in the Guardian University League Table 2021, 5th in the
Times and Sunday Times Good University Guide 2020 and 6th in The UK
Complete University Guide 2021.

Loughborough is consistently ranked in the top twenty of UK
universities in the Times Higher Education's 'table of tables' and is
in the top 10 in England for research intensity. In recognition of
its contribution to the sector, Loughborough has been awarded seven
Queen's Anniversary Prizes.

The Loughborough University London campus is based on the Queen
Elizabeth Olympic Park and offers postgraduate and executive-level
education, as well as research and enterprise opportunities. It is
home to influential thought leaders, pioneering researchers and
creative innovators who provide students with the highest quality of
teaching and the very latest in modern thinking.

Share

Date of issue

19 July 2021

Categories

Science

Resources

Contacts

Peter Warzynski

Press officer

Telephone: 01509 223491

Email: Send email

Search for a press release

Press release search [                    ] Go
Categories [Categories            ] Go
Contact the PR team


Public Relations Office
Loughborough University
Leicestershire
LE11 3TU

Telephone: +44 (0)1509 222224

Email: Email the PR team

Follow @lborouniPR
Media training resources for Loughborough University staff

Using our site

  * Accessibility
  * Freedom of information
  * Privacy and cookies
  * Legal information

Students and Staff

  * Current students and staff
  * LEARN

Explore

  * About the University
  * Study with us
  * News and events
  * Research
  * Working with business
  * Schools and departments
  * International
  * Job vacancies

Quick links

  * Order a prospectus
  * Online payments
  * Library
  * LU Arts
  * Alumni
  * Community information
  * Loughborough University London
  * Ethical principles
  * Modern Slavery statement

How to find us

Location map

Loughborough University

Epinal Way, Loughborough
Leicestershire, UK
LE11 3TU

Tel: +44 (0)1509 222 222

Contact us: Contact us

Location: Campus map

Location: Find us

  * Facebook
  * Twitter
  * YouTube
  * Instagram

(c) 2021 Loughborough University. All rights reserved.