Eun Ha Yoo
Rural Development Administration
17 Papers
26 Citations
Eun Ha Yoo is an academic researcher from Rural Development Administration. The author has contributed to research in topics: Ficus benjamina & Loyalty. The author has an hindex of 6, co-authored 16 publications.
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Papers
Efficiency of Volatile Formaldehyde Removal by Indoor Plants: Contribution of Aerial Plant Parts versus the Root Zone
TL;DR: The results indicate that the root zone is a major contributor to the removal of formaldehyde and a better understanding offormaldehyde metabolism by root zone microflora should facilitate maximizing the phytoremediation efficiency of indoor plants.
Variation in Formaldehyde Removal Efficiency among Indoor Plant Species
Kwang Jin Kim,Myeong Il Jeong,Dong Woo Lee,Jeong Seob Song,Hyoung Deug Kim,Eun Ha Yoo,Sun Jin Jeong,Seung Won Han,Stanley J. Kays,Young-Wook Lim,Ho-Hyun Kim +10 more
TL;DR: Ferns had the highest formaldehyde removal efficiency of the classes of plants tested with O. japonica the most effective of the 86 species, and species classified as excellent are considered viable phytoremediation candidates for homes and offices where volatile formaldehyde is a concern.
Changes in the Phytoremediation Potential of Indoor Plants with Exposure to Toluene
TL;DR: There was a rapid increase in toluene removal efficiency in 27 of the 28 crops with the greatest increase between the first and second exposure (i.e., after 3 days).
•Journal Article
Determination of the Efficiency of Formaldehyde Removal According to the Percentage Volume of Pot Plants Occupying a Room
Kwang-Jin Kim,Mi Jung Kil,Myeong Il Jeong,Hyoung Deug Kim,Eun Ha Yoo,Sun Jin Jeong,Chun Ho Pak,Ki Cheol Son +7 more
TL;DR: It has been found that indoor plants could be an effective method for the purifying of indoor air, according to the results suggesting that pot plants occupying about 1% of the room’s volume reduced formaldehyde by approximately 7%.
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Decay Kinetics of Toluene Phytoremediation Stimulation
TL;DR: The rapid rate of increase in phytoremediation and subsequent decay points toward a response mediated by changes in gene expression by the plant, microorganisms within the media, or both rather than an alteration in microbe population.