Evaluating the Antioxidative Defense Response of Selected Indoor Plants Against Benzene and Formaldehyde: Indoor Air Pollutants

Khan, Taimoor; Shah, Shahid Masood; Khan, Sabaz Ali; Hassan, Amjad; Khan, Abdul Rehman; Akhtar, Gulzar; Imtiaz, Hifza; Sajjad, Yasar

doi:10.21203/rs.3.rs-1707603/v1

Cited by 2 publications

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“…Current study reports a signi cant rise in TPC and TFC against formaldehyde application after tested durations. These ndings are in alignment with the ndings of Khan et al (2023) Formaldehyde application also signi cantly escalated the chlorophyll and carotenoid content in this study. This follows the pattern of previous studies conducted on Pisum sativum and C. comosum against formaldehyde stress (Erofeeva, 2018;Paresh et al 2018;Khan et al 2023).…”

supporting

confidence: 92%

“…These ndings are in alignment with the ndings of Khan et al (2023) Formaldehyde application also signi cantly escalated the chlorophyll and carotenoid content in this study. This follows the pattern of previous studies conducted on Pisum sativum and C. comosum against formaldehyde stress (Erofeeva, 2018;Paresh et al 2018;Khan et al 2023). Under paradoxical effects, the toxic impact of higher formaldehyde level is reduced, leading to increased chlorophyll content in plants (Erofeeva, 2018).…”

supporting

confidence: 92%

“…A single plant was transferred to pots (4 inches diameter) lled with peat moss, coco peat and perlite in a 2:2:1 proportion. Plants were acclimated in a speci c growth room (temperature: 24°C; light period: 12 hours) 2 weeks prior to formaldehyde application (Khan et al 2023).…”

Section: Methodsmentioning

confidence: 99%

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Insight into Physiological and Biochemical Markers against Formaldehyde Stress in Spider Plant (Chlorophytum comosum L.)

Imtiaz,

Khan,

Hassan

et al. 2024

Preprint

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Formaldehyde is a prominent volatile organic compound and also considered an indoor air pollutant. Chlorophytum comosum, an indoor plant, has been reported to metabolize indoor formaldehyde. But the phytotoxic effects of formaldehyde, being a pollutant, on C. comosum is not well explored. Furthermore, C. comocum responses that can be considered as markers at the physiological and biochemical level against formaldehyde stress are not yet investigated. Therefore, the current research study was aimed to evaluate such potential markers against formaldehyde in C. comosum. Briefly, C. comosum was exposed to 5, 10, and 20 ppm formaldehyde doses in an airtight glass chamber. Plant samples were then taken to analyze morpho-anatomical, physiological, and biochemical responses after short (2, 4, and 6 hours), medium (12 and 24 hours) and extended durations (48 and 96 hours) for each tested dose. Two-ways ANOVA followed by Tukey’s test at p ≤ 0.05 indicated that application of 10 and 20 ppm formaldehyde doses led to a significant incline in enzymatic antioxidants like CAT, GPX and SOD, and non-enzymatic parameters including TPC, TFC, T-AOC, carotenoids and intercellular CO2. However, formaldehyde application negatively affected the physiological responses of C. comosum by reducing its photosynthetic rate, transpiration rate and stomatal conductance. Additionally, extended exposure of C. comosum to 10 and 20 ppm formaldehyde doses led to visible leaf damage. Principal Component Analysis indicated that enzymatic (SOD, CAT and GPX) and non-enzymatic (MDA, TPC, TFC, TAO, carotenoids, TSS and intercellular CO2) parameters contributed the most to the total variance. Thus, these parameters have potential to serve as physiological and biochemical markers in C. comosum against formaldehyde stress.

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confidence: 92%

supporting

confidence: 92%

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Insight into Physiological and Biochemical Markers against Formaldehyde Stress in Spider Plant (Chlorophytum comosum L.)

Imtiaz,

Khan,

Hassan

et al. 2024

Preprint

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“…C7 and cq-9 are aromatic compounds containing benzene. Plants containing compounds containing benzene establish a defense system as a strategy to hinder the access of insects to their surroundings [38]. In addition, benzene can prepare for stress by sending signals to neighboring plants in addition to defense mechanisms [39].…”

Section: Discussionmentioning

confidence: 99%

Investigation of the Relationship between Genetic and Breeding Characteristics of WBPH Behavior according to Resistant Materials in Rice

Park,

Kim,

Jang

et al. 2023

Plants

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Rice accounts for most of the calories consumed by the world’s population. However, the whitebacked planthopper (WBPH), Sogatella furcifera (Horvath), is an insect that can cause rice yield loss. WBPH sucks the stems of rice and negatively affects yield and grain quality. Therefore, numerous insecticides have been developed to control WBPH in rice fields. However, chemical pesticides cause serious problems such as environmental pollution and ecosystem disturbance. Here, we research the possibility of using previously reported rice extracts obtained using methanol, Chrysoeriol 7(C7) and Cochlioquinone-9 (cq-9), as potential insect repellents. WBPH was caged with C7 or cq-9 and monitored, and the WBPH behavior was recorded. The number of WBPHs approaching the periphery of the C7 and cq-9 was very low. In cages containing the C7 and cq-9, only 13 and 7 WBPHs out of 100, respectively, walked around the material. In addition, foliar spraying with C7 and cq-9 did not negatively affect the plant height. The expression level of genes related to resistance was maintained at a high level in the resistant lines when treated with WBPHs alone, but was at a similar level to those of the controls when treated with C7 or cq-9. Interfering with WBPH access did not adversely affect the plant phenotype. Recently, people’s interest in the environment has increased, and the use of plant-derived materials is also increasing. There is a new trend towards using plant extracts as an environmentally friendly means of managing resistance to WBPH during the rice cultivation period, while also avoiding environmental pollution.

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Evaluating the Antioxidative Defense Response of Selected Indoor Plants Against Benzene and Formaldehyde: Indoor Air Pollutants

Cited by 2 publications

References 0 publications

Insight into Physiological and Biochemical Markers against Formaldehyde Stress in Spider Plant (Chlorophytum comosum L.)

Insight into Physiological and Biochemical Markers against Formaldehyde Stress in Spider Plant (Chlorophytum comosum L.)

Investigation of the Relationship between Genetic and Breeding Characteristics of WBPH Behavior according to Resistant Materials in Rice

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