Cu and Pb Co-Contamination Accelerates the Decomposition Rate of Litter from Invasive Aquatic Plant <i>Eichhornia crassipes</i> (Mart.) Solms and the Effect Increases with Its Invasion Degree

Cu and Pb Co-Contamination Accelerates the Decomposition Rate of Litter from Invasive Aquatic Plant <i>Eichhornia crassipes</i> (Mart.) Solms and the Effect Increases with Its Invasion Degree

Invasive and native plants can coexist in the same ecosystem. Thus, the fallen leaves of invasive and native plants can be mixed, which can lead to co-decomposition. Invasive plants can create microenvironmental conditions conducive to their invasion process by influencing soil physicochemical prope...

Full description

Saved in:
Bibliographic Details
Main Authors: Yizhuo Du, Yingsheng Liu, Xiaoxuan Geng, Yue Li, Chuang Li, Yulong Zhang, Congyan Wang, Daolin Du
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Horticulturae
Subjects:
co-decomposition
invasion degree
invasive plants
litter decomposition
soil enzymatic activities
Online Access:https://www.mdpi.com/2311-7524/11/7/768
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Invasive and native plants can coexist in the same ecosystem. Thus, the fallen leaves of invasive and native plants can be mixed, which can lead to co-decomposition. Invasive plants can create microenvironmental conditions conducive to their invasion process by influencing soil physicochemical properties, soil nutrient contents, and soil enzymatic activities through litter decomposition by released metabolites. Heavy metal contamination may affect the litter decomposition of invasive plants. This study was designed to elucidate the effects of the mono- and co-decomposition of the leaves of the invasive aquatic plant <i>Eichhornia crassipes</i> (Mart.) Solms (Common Water Hyacinth) and the native aquatic plant <i>Nymphaea tetragona</i> Georgi (Pygmy Water-Lily) on soil physicochemical properties, soil nutrient contents, and soil enzymatic activities under the mono- and co-contamination of Cu and Pb. This study was conducted over a six-month period using a polyethylene litter bag experiment. The type of heavy metals may be the most significant factor influencing the differences in the decomposition rate between <i>E. crassipes</i> and <i>N. tetragona</i>. The co-contamination of Cu and Pb increased the decomposition rate of the leaves of <i>E. crassipes</i> and the decomposition rate also increased as the invasion degree of <i>E. crassipes</i> increased relative to <i>N. tetragona</i>. The co-decomposition of the leaves of the two aquatic plants showed an antagonistic response under the mono-contamination of Pb and the control, but presented a synergistic response under the mono-contamination of Cu and the co-contamination of Cu and Pb, regardless of the invasion degree of <i>E. crassipes</i>. Soil enzymatic activities, especially the activities of polyphenol oxidase and cellulase, may be a significant factor influencing the litter decomposition of the two aquatic plants. Consequently, heavy metal contamination may affect the invasion process of <i>E. crassipes</i> with regard to the regulation of the released metabolites during the decomposition process, and this is specifically modulated by the type of heavy metals.
ISSN:2311-7524

Similar Items