Leaching characteristics and potential risk of heavy metals from drip irrigation pipes and mulch substrate in agricultural ecosystems

Drip irrigation is a valuable method for optimising water and fertiliser usage, motivating its increasing use. However, the ecological effects of drip irrigation fertilisation have not been sufficiently evaluated, limiting its effective and widespread use. Within this context, we aimed to determine...

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Published in:The Science of the total environment 2023-07, Vol.882, p.163573-163573, Article 163573
Main Authors: Tudi, Muyesaier, Yang, Linsheng, Yu, Jiangping, Wei, Binggan, Xue, Yuan, Wang, Fang, Li, Linfeng, Yu, Qiming Jimmy, Ruan, Huada Daniel, Li, Qin, Sadler, Ross, Connell, Des
Format: Article
Language:English
Subjects:
Combustion
Contamination
Irrigation technology
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Summary:Drip irrigation is a valuable method for optimising water and fertiliser usage, motivating its increasing use. However, the ecological effects of drip irrigation fertilisation have not been sufficiently evaluated, limiting its effective and widespread use. Within this context, we aimed to determine the effects and potential ecological risks of using polyethylene irrigation pipes and mulch substrate under various drip irrigation conditions as well as burning of waste pipes and mulch substrate. Laboratory simulations of field conditions were used to determine the distribution, leaching, and migration pattern of heavy metals (Cd, Cr, Cu, Pb, and Zn) from plastic drip irrigation pipes and agricultural mulch substrate into various solutions. Maize samples obtained from drip-irrigated fields were analysed to determine the presence of heavy metal residues and assess the risk of heavy metal contamination. Heavy metal leaching from pipes and mulch substrate was high under acidic conditions, while the migration of heavy metals from plastic products was low in alkaline water-soluble fertiliser solutions. After combustion, heavy metal leaching from pipes and mulch residues increased considerably, with the migration capacity of Cd, Cr, and Cu increasing by >10-fold. Heavy metals in plastic pipes migrated primarily to the residue (bottom ash), whereas those from mulch substrate migrated to the fly ash component. Under experimental conditions, the migration of heavy metals from plastic pipes and mulch substrate had a negligible effect on the heavy metal content in aqueous environments. Although heavy metal leaching increased, the effect on water quality under actual irrigation conditions was relatively minor (in the order of 10−9). Thus, the use of plastic irrigation pipes and mulch substrate did not result in significant heavy metal contamination and potential risk to the agriculture ecosystem. Our study findings provide evidence for the effective application and widespread promotion of drip irrigation and fertiliser technology. [Display omitted] •Analysed heavy metal leaching from plastic drip irrigation pipe and mulch substrate.•Acidic conditions fostered highest pipe and mulch substrate heavy metal leaching.•Migration of heavy metals was inhibited by alkaline water-soluble fertilisers.•Combustion increased heavy metal leaching from plastic pipes and mulch residues.•Leaching effect on water quality in field agriculture system was negligible.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.163573