Tag: asteroid Bennu

Ancient Asteroid Provides Evidence of Amino Acid Precursors

Ancient Asteroid Provides Evidence of Amino Acid Precursors

SCIENTIFIC ACHIEVEMENT

Using the Advanced Light Source (ALS), researchers identified nitrogen-rich polymers in samples from the asteroid Bennu, revealing early chemical alterations in rocky bodies.

SIGNIFICANCE AND IMPACT

The results support the idea that asteroids, such as Bennu, may have carried water and the other chemical building blocks of life to Earth in the distant past.

Asteroid holds hidden secrets

In 2023, NASA returned material gathered from the 4.5-billion-year-old asteroid Bennu, which formed from minerals and ice in a primordial nebula. The rocks were gathered as part of NASA’s OSIRIS-REx mission, the first US mission to return samples from an asteroid. Lawrence Berkeley National Laboratory (Berkeley Lab) continues to participate in a series of multi-institutional research studies investigating Bennu’s chemical makeup to better understand how our solar system and planets evolved.

Past research on Bennu samples at Berkeley Lab’s ALS revealed that many minerals formed in watery environments. In the current study, the researchers rolled back the clock to examine a narrow period shortly after the asteroid formed but before it was exposed to the water that altered the chemical nature of the rock.

The researchers identified long chains of organic molecules, richer in nitrogen and oxygen than the previous samples. With this information, the team reconstructed the conditions during the earliest periods of the asteroid’s existence.

Read more on the ALS website

Asteroid Bennu to be analysed at Diamond by scientists from the Natural History Museum

Asteroid Bennu to be analysed at Diamond by scientists from the Natural History Museum

These measurements may reveal insights into the origins of life in our solar system

After an amazing journey, a grain from the asteroid Bennu will be brought to Diamond Light Source, the UK’s national synchrotron, for scientific measurements.  The grain is from the 100 milligrams of sample sent to the Natural History Museum (NHM) in London, a small fraction of the approximately 70 grams of Bennu rock and dust brought back by NASA’s (National Aeronautics and Space Administration, USA) OSIRIS-REx mission. It will be subject to intensive analysis at the Dual Imaging And Diffraction (DIAD) instrument in Diamond by Dr Ashley King and his team from the NHM and other OSIRIS-REx collaborators at the Open, Oxford and Manchester Universities.  

The DIAD beamline at Diamond is a ‘one of a kind’ scientific instrument that can extract chemical composition information and enable virtual dissection at an unprecedented level of detail, non-destructively. This will provide a wealth of scientific data and new knowledge about the asteroid, and the origins of our solar system. 

The Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer, or OSIRIS-REx, spacecraft launched to the near-Earth asteroid, Bennu on Sept. 8, 2016.  In October 2020 it collected a sample of rocks and dust from its surface 330 million km (205 million miles) from Earth. The material, collected by the NASA mission, took almost three years to be returned to Earth (Utah desert, US) this Sept. 24, 2023.  

Read more on the Diamond website

Image: Dr Sharif Ahmed from Diamond Light Source and Dr Ashley King from the Natural History Museum with the Bennu asteroid sample

Credit: Diamond Light Source