Fluorescent dissolved organic matter facilitates the phytoavailability of copper in the coastal wetlands influenced by artificial topography

Hualong Hong, Shengjie Wu, Qiang Wang, Minyue Dai, Lu Qian, Heng Zhu. Junwei Li, Jie Zhang, Jingchun Liu, Jian Li, Haoliang Lu, Chongling Yan

Science of The Total Environment 

https://doi.org/10.1016/j.scitotenv.2021.147855

Published: Oct 2021

Abstract

Dissolved organic matter (DOM) is a crucial driver in ecosystem services and a central part of the carbon transport and biological cycle in land-sea interaction. DOM exhibits characteristic environmental behavior in the coastal zone, but its sustainability is affected by expanding artificial topography (AT) construction. It requires combining analyses on AT-induced response of field fluorescent DOM (fDOM) and its quenching pattern under metal-complexation. Herein, we conducted systemic investigations into the spatiotemporal dynamics of fDOM compositions with further in-lab verification to study its Cu-binding capacity. We detected three humid-like fDOM components sensitive to AT. The total fDOM intensity was positively correlated with low molecular weight organic acid (LMWOA) extractable Cu and the Cu pools in above-ground biomass. The enriched fDOM serves as an ecological engineer by increasing the Cu mobility, confirmed by an in-lab fluorescence titration. The application of LMWOA greatly enhanced the intensity of one fDOM component, elevated its conditional stability constant, and decreased its quenched proportion, implying that LMWOA might extract part of Cu from fDOM complexation. The present work provides an “fDOM-LMWOA pump” explanation to suggest that fDOM is a novel ecological regulator on vegetation growth under the AT-induced matter accumulation.

https://linkinghub.elsevier.com/retrieve/pii/S0048969721029260