Abstract
Much attention is paid to removing formaldehyde from indoor air to decrease the health risk for urban inhabitants since
formaldehyde is a main indoor pollutant causing various symptoms. In this study, formaldehyde removal by the shoots of potted
Chlorphytum comosum (spider plant), Epipremnum aureum (golden pothos) and Aloe vera (aloe) was investigated with a
dynamic chamber technique. The results indicated that the order of formaldehyde removal capacities for the plant shoots was C.
comosum > E. aureum > A. vera at the same inlet formaldehyde concentration. Formaldehyde dehydrogenase (FDH) activities in
the leaves of C. comosum, E. aureum and A. vera also followed the consistent order of formaldehyde removal capacities for the
shoots whether or not the three plant species were fumigated in formaldehyde, which demonstrated that formaldehyde removal in
plant shoots is mainly due to enzymatic metabolism of formaldehyde by FDH. The study on the three plant specie fumigated in
the combination of formaldehyde and benzene showed that formaldehyde removal capacities for the plant shoots could be
stimulated by the coexistence of gaseous benzene in the polluted air since the related enzyme systems induced by benzene might
simultaneously take part in formaldehyde conversion.