Determining accurate rates of benthic nitrogen (N) removal and retention pathways from
diverse environments is critical to our understanding of process distribution and constructing …

Sediment organic matter is a key stressor for submerged macrophyte growth, which
negatively impacts the ecological restoration of lakes. Plant growth‐promoting rhizobacteria …

Constructed wetlands have long been used for domestic wastewater treatment. Despite the
widespread application of constructed wetlands for wastewater remediation, they are still …

In permeable soils, excess nitrate from agriculture is transported vertically and accumulates
in aquifers. However, it can come back to the surface via groundwater movement and pollute …

Excessive nitrogen has been a global concern to cause lake eutrophication. The
denitrification and anammox processes are considered to be effective biological pathways …

Within irrigated agricultural watersheds, canal networks may play a crucial role as nitrogen
(N) sink. This is due to the intertwined action of macrophytes and microbial communities …

The mechanisms behind nitrogen removal by the submersed macrophyte-biofilm complex in
wetlands remain to be fully elucidated. This study investigated the role of Myriophyllum …

A submerged macrophyte sediment microbial fuel cell (SP-SMFC) was constructed in this
study. Ceratophyllum demersum L., Vallisneria natans, Hydrilla verticillate were chosen as …

Sediment internal nitrogen release is a significant pollution source in the overlying water of
aquatic ecosystems. This study aims to remove internal nitrogen in sediment-water …

Organic sediments are greenhouse gas and nutrient hotspots. They may display lower
methane (CH4) emissions and increase nutrient retention when macrophytes and …