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Now You Can See Floral Scents!​
View : 6915 Date : 2022-05-25 Writer : PR Office

Optical interferometry visualizes how often lilies emit volatile organic compounds

Image: Direct measurement of floral scents from a live lily using a laser interferometry method. The signal of the refractive index difference was monitored and the VOCs’ emission frequency results were calculated from Fast Fourier Transform. It showed the unsteady VOC emissions.

< Image: Direct measurement of floral scents from a live lily using a laser interferometry method. The signal of the refractive index difference was monitored and the VOCs’ emission frequency results were calculated from Fast Fourier Transform. It showed the unsteady VOC emissions. >

Have you ever thought about when flowers emit their scents?

KAIST mechanical engineers and biological scientists directly visualized how often a lily releases a floral scent using a laser interferometry method. These measurement results can provide new insights for understanding and further exploring the biosynthesis and emission mechanisms of floral volatiles.

Why is it important to know this? It is well known that the fragrance of flowers affects their interactions with pollinators, microorganisms, and florivores. For instance, many flowering plants can tune their scent emission rates when pollinators are active for pollination. Petunias and the wild tobacco Nicotiana attenuata emit floral scents at night to attract night-active pollinators. Thus, visualizing scent emissions can help us understand the ecological evolution of plant-pollinator interactions.

Many groups have been trying to develop methods for scent analysis. Mass spectrometry has been one widely used method for investigating the fragrance of flowers. Although mass spectrometry reveals the quality and quantity of floral scents, it is impossible to directly measure the releasing frequency. A laser-based gas detection system and a smartphone-based detection system using chemo-responsive dyes have also been used to measure volatile organic compounds (VOCs) in real-time, but it is still hard to measure the time-dependent emission rate of floral scents.

However, the KAIST research team co-led by Professor Hyoungsoo Kim from the Department of Mechanical Engineering and Professor Sang-Gyu Kim from the Department of Biological Sciences measured a refractive index difference between the vapor of the VOCs of lilies and the air to measure the emission frequency. The floral scent vapor was detected and the refractive index of air was 1.0 while that of the major floral scent of a linalool lily was 1.46.

Professor Hyoungsoo Kim said, “We expect this technology to be further applicable to various industrial sectors such as developing it to detect hazardous substances in a space.”  The research team also plans to identify the DNA mechanism that controls floral scent secretion.

The current work entitled “Real-time visualization of scent accumulation reveals the frequency of floral scent emissions” was published in ‘Frontiers in Plant Science’ on April 18, 2022. (https://doi.org/10.3389/fpls.2022.835305).

This research was supported by the Basic Science Research Program through the National Research Foundation of Korea (NRF-2021R1A2C2007835), the Rural Development Administration (PJ016403), and the KAIST-funded Global Singularity Research PREP-Program.

-Publication:
H. Kim, G. Lee, J. Song, and S.-G. Kim, "Real-time visualization of scent accumulation reveals the frequency of floral scent emissions," Frontiers in Plant Science 18, 835305 (2022) (https://doi.org/10.3389/fpls.2022.835305)

-Profile:
Professor Hyoungsoo Kim
http://fil.kaist.ac.kr
@MadeInH on Twitter
Department of Mechanical Engineering
KAIST

Professor Sang-Gyu Kim
https://sites.google.com/view/kimlab/home 
Department of Biological Sciences
KAIST

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