Iron plaque formation and its effect on key elements cycling in constructed wetlands: Functions and outlooks
Y Fan, S Sun, S He - Water Research, 2023 - Elsevier
Ecological restoration of wetland plants has emerged as an environmentally-friendly and
less carbon footprint method for treating secondary effluent wastewater. Root iron plaque …
less carbon footprint method for treating secondary effluent wastewater. Root iron plaque …
[HTML][HTML] Sulfur mediated heavy metal biogeochemical cycles in coastal wetlands: From sediments, rhizosphere to vegetation
Y Wu, Z Leng, J Li, C Yan, X Wang, H Jia… - … Science & Engineering, 2022 - Springer
The interactions and mechanisms between sulfur and heavy metals are a growing focus of
biogeochemical studies in coastal wetlands. These issues underline the fate of heavy metals …
biogeochemical studies in coastal wetlands. These issues underline the fate of heavy metals …
Effects of exogenous organic acids and flooding on root exudates, rhizosphere bacterial community structure, and iron plaque formation in Kandelia obovata …
H Meng, Z Yan, X Li - Science of The Total Environment, 2022 - Elsevier
The rhizosphere of coastal wetland plants is the active interface of iron (Fe) redox
transformation. However, coupling mechanism between organic acids (OAs) exuded by …
transformation. However, coupling mechanism between organic acids (OAs) exuded by …
[HTML][HTML] Sepiolite-supported nanoscale zero-valent iron alleviates Cd&As accumulation in rice by reducing Cd&As bioavailability in paddy soil and promoting Cd&As …
S Sun, J Huang, J Wen, Z Peng, N Zhang… - … Technology & Innovation, 2024 - Elsevier
Abstract Cadmium and arsenic (Cd&As) co-contaminated paddy soil is the main reason for
excessive Cd&As in rice. However, the opposite chemical behaviors of Cd&As posed a …
excessive Cd&As in rice. However, the opposite chemical behaviors of Cd&As posed a …
[HTML][HTML] Rhizosphere bacterial diversity and environmental function prediction of wild salt-tolerant plants in coastal silt soil
X An, Z Wang, X Teng, R Zhou, X Wang, M Xu… - Ecological Indicators, 2022 - Elsevier
Coastal silt soil (CSS), hydraulically transported and filled by dredger and mud pump from
the bottom of beach in coastal zone in the process of reclamation project, has a high salinity …
the bottom of beach in coastal zone in the process of reclamation project, has a high salinity …
Root iron plaque abundance as an indicator of carbon decomposition rates in a tidal freshwater wetland in response to salinity and flooding
Sea-level rise is projected to influence soil carbon (C) stocks in tidal wetland systems.
Although soil C and iron cycling are considered to be related in tidal wetlands, the empirical …
Although soil C and iron cycling are considered to be related in tidal wetlands, the empirical …
Analysis of natural photocatalysts derived from spartina alterniflora with superior removal performance of pollutant
Y Zhou, Z Wang, Z Li, L Ji - Environmental Pollution, 2023 - Elsevier
Spartina alterniflora, as an invasive alien species, has been studied in terms of its potential
use in immobilization and synergistic photocatalysis against dye contaminants for the first …
use in immobilization and synergistic photocatalysis against dye contaminants for the first …
Increased fluctuation of sulfur alleviates cadmium toxicity and exacerbates the expansion of Spartina alterniflora in coastal wetlands
Evidence suggests that the invasion of Spartina alterniflora (S. alterniflora) poses potentially
serious risks to the stability of coastal wetlands, an ecosystem that is extremely vulnerable to …
serious risks to the stability of coastal wetlands, an ecosystem that is extremely vulnerable to …
Physiochemical controls on the horizontal exchange of blue carbon across the salt marsh‐tidal channel interface
Tidal channels are biogeochemical hotspots that horizontally exchange carbon (C) with
marsh platforms, but the physiochemical drivers controlling these dynamics are poorly …
marsh platforms, but the physiochemical drivers controlling these dynamics are poorly …
Spartina alterniflora raised soil sulfide content by regulating sulfur cycle-associated bacteria in the Jiuduansha Wetland of China
Abstract Purpose The Spartina alterniflora invasion across the southeast coast in China
significantly reduced vegetation diversity and generated associated ecological problems …
significantly reduced vegetation diversity and generated associated ecological problems …