Food Aroma Study Could Explain Poor Taste in Space

RMIT

Scientists from RMIT University have led a world-first study on common food aromas that may help explain why astronauts report meals taste bland in space and struggle to eat their normal nutritional intake.

This research, which is published in the International Journal of Food Science and Technology, has broader implications for improving the diets of isolated people, including nursing home residents, by personalising aromas to enhance the flavour of their food. Previous research has shown that aroma plays a big role in the flavour of food.

A woman wearing virtual reality goggles and smelling a small container with a cotton bud with an aroma sample, as participants did during the study.

Food aroma study may help explain why meals taste bad in space

Scientists from RMIT University have led a world-first study on common food aromas that may help explain why astronauts report meals taste bland in space and struggle to eat their normal nutritional intake.

The team in this study tested how people perceived vanilla and almond extracts and lemon essential oil changed from normal environments on Earth to the confined setting of the International Space Station (ISS), which was simulated for participants with virtual reality goggles.

Co-lead researcher Dr Julia Low from the School of Science said vanilla and almond aromas were more intense in the ISS-simulated environment, while the lemon scent remained unchanged.

The team found a particular sweet chemical in the aromas of vanilla and almond, called benzaldehyde, could explain the change in perceptions, in addition to an individual's sensitivity to the particular smell.

"A greater sense of loneliness and isolation may also play a role, and there are implications from this study around how isolated people smell and taste food," Low said.

Associate Professor Gail Iles from RMIT University engaging in the virtual reality setting of the International Space Station in the Virtual Experiences Laboratory (VXLab) at RMIT. Credit: Seamus Daniel, RMIT UniversityAssociate Professor Gail Iles from RMIT University engaging in the virtual reality setting of the International Space Station in the Virtual Experiences Laboratory (VXLab) at RMIT. Credit: Seamus Daniel, RMIT University

This is also the first study to involve a large sample size, with 54 adults, and capture the variation of individuals' personal experience of aromas and taste in isolated settings.

"One of the long-term aims of the research is to make better tailored foods for astronauts, as well as other people who are in isolated environments, to increase their nutritional intake closer to 100%," Low said.

She said their findings that spatial perception played a significant role in how people smell aromas complemented results from other studies on the topic of astronauts' eating experience in space, including the phenomenon of fluid shift.

Weightlessness causes fluid to shift from the lower to the upper parts of the body, which creates facial swelling and nasal congestion that affects the sense of smell and taste. These symptoms typically begin to disappear within a few weeks of being on board the space station.

"Astronauts are still not enjoying their food even after fluid shift effects have gone, suggesting that there's something more to this," Low said.

RMIT researchers (left to right) Associate Professor Jayani Chandrapala, Dr Julia Low, Dr Ian Peake, Associate Professor Gail Iles and PhD scholar Grace Loke in the Virtual Experiences Laboratory (VXLab) at RMIT. Credit: Seamus Daniel, RMIT UniversityRMIT researchers (left to right) Associate Professor Jayani Chandrapala, Dr Julia Low, Dr Ian Peake, Associate Professor Gail Iles and PhD scholar Grace Loke in the Virtual Experiences Laboratory (VXLab) at RMIT. Credit: Seamus Daniel, RMIT University

Former astronaut instructor and co-researcher Associate Professor Gail Iles from RMIT said despite carefully designed diet plans, astronauts were not meeting their nutritional needs, which was dangerous for long-term missions.

"What we're going to see in the future with the Artemis missions are much longer missions, years in length, particularly when we go to Mars, so we really need to understand the problems with diet and food and how crew interact with their food," said Iles, from the School of Science.

"The incredible thing with this VR study is that it really does go a very long way to simulating the experience of being on the space station. And it really does change how you smell things and how you taste things."

NASA astronaut Chris Cassidy unpacks fresh fruit and other food items shipped aboard the Northrop Grumman Cygnus space freighter to the International Space Station. Credit: NASANASA astronaut Chris Cassidy unpacks fresh fruit and other food items shipped aboard the Northrop Grumman Cygnus space freighter to the International Space Station. Credit: NASA

Co-researcher Associate Professor Jayani Chandrapala, a food chemistry expert from RMIT, said the sweet aroma of benzaldehyde, common chemical compound in vanilla and almond, played a major role in the change in people's perceptions of aroma in the space simulation.

"In our study, we believe that it's this sweet aroma that gives that highly intensive aroma within the VR setting," said Chandrapala, from the School of Science.

Low said the study could have implications for people living in socially isolated environments on Earth, not just space travellers.

"The results of this study could help personalise people's diets in socially isolated situations, including in nursing homes, and improve their nutritional intake," Low said.

'Smell perception in virtual spacecraft? A ground-based approach to sensory and chemical data collection' is published in the International Journal of Food Science and Technology (DOI: 10.1111/ijfs.17306).

Dr Lisa Newman from the School of Science is a co-lead researcher and PhD scholar Grace Loke from RMIT is first author on the paper, which also involved International Flavors and Fragrances from the Netherlands.

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