Litcius/Paper detail

A review of plants formaldehyde metabolism: Implications for hazardous emissions and phytoremediation

Wanxi Peng, Xiaochen Yue, Huiling Chen, Nyuk Ling, Quan Zhou, Qing Yu, Zihan Wei, Ruirui Guan, Su Shiung Lam, Jörg Rinklebe, Dangquan Zhang, Baohong Zhang, Nanthi Bolan, M.B. Kirkham, Christian Sonne

2022Journal of Hazardous Materials82 citationsDOIOpen Access PDF

Abstract

O) in disinfections, adhesives and wood-based furniture leads to undesirable emissions to indoor environments. This is highly problematic as formaldehyde is a highly hazardous and toxic compound present in both liquid and gaseous form. The majority of gaseous and atmospheric formaldehyde derive from microbial and plant decomposition. However, plants also reversibly absorb formaldehyde released from for example indoor structural materials in such as furniture, thus offering beneficial phytoremediation properties. Here we provide the first comprehensive review of plant formaldehyde metabolism, physiology and remediation focusing on release and absorption including species-specific differences for maintaining indoor environmental air quality standards. Phytoremediation depends on rhizosphere, temperature, humidity and season and future indoor formaldehyde remediation therefore need to take these biological factors into account including the balance between emission and phytoremediation. This would pave the road for remediation of formaldehyde air pollution and improve planetary health through several of the UN Sustainable Development Goals.

Topics & Concepts

PhytoremediationHazardous wasteEnvironmental remediationEnvironmental scienceFormaldehydeWaste managementPollutantAir pollutionRhizosphereEnvironmental engineeringEnvironmental chemistryChemistryContaminationHeavy metalsEngineeringEcologyBiologyGeneticsBacteriaOrganic chemistryIndoor Air Quality and Microbial ExposureAir Quality and Health ImpactsAtmospheric chemistry and aerosols