Fourier transform infrared (FTIR) spectroscopic characteristics of ornamental plant leaves in response to formaldehyde stress

CHENG Qin1,2,HUANG Shu-shi1,2,MEI Yan1,XU Di1,CHEN Li-mei1(1.Biotechnology Research Center,Kunming University of Science and Technology,Kunming 650224,China;2.Lab of Biophysics,Guangxi Academy of Sciences,Nanning 530007,China)

Fourier transform infrared(FTIR)spectroscopy;formaldehyde stress;physiological characteristics;ornamental plants

To provide more evidence for selection of plant species with strong formaldehyde(HCHO)-absorbing and-purifying capacity,the HCHO-absorbing and-metabolizing capacity and the physiological characteristics of two ornamental plants,Philodendron panduriforme and Cymbidium grandiflorium,under 2 and 4 mmol·L-1 HCHO stress conditions were studied by the method of FTIR combined with conventional physiological approach.The results showed that the HCHO-absorbing and-metabolizing capacity of C.grandiflorium leaves was about 2 fold greater than that of P.panduriforme.P.panduriforme and C.grandiflorium had different physiological pattern in response to HCHO stress.P.panduriforme had a dramatic response to HCHO stress in a very short period(1 d)after HCHO treatment and augmented its HCHO-metabolism and-resistance ability by increasing the synthesis of substances in leaf cells.Contrary,the response of C.grandiflorium to HCHO stress was not obvious and the HCHO-metabolism and-resistance ability was increased by consuming the storage materials in leaf cells.There was a better relativity between the time for completely absorbing HCHO by P.panduriforme and C.grandiflorium leaves after 2 and 4 mmol·L-1 HCHO treatment and the time for the recovery of each band height to normal level in FTIR spectra.Under HCHO stress conditions,the change trends of total soluble protein and soluble sugar contents in the two plant leaves basically corresponded with those shown by FTIR data,suggesting that FTIR data could reflect the physiological characteristics of the two plant leaves in response to HCHO stress.Therefore,FTIR analysis can be applied to investigate the changes in physiological characteristics of plants under HCHO stress conditions and the ability of plants to absorb and metabolize HCHO.