Rhizosphere processes induce changes in dissimilatory iron reduction in a tidal marsh soil: a rhizobox study

Min Luo(Xihua University), Chuan Tong(Fujian Normal University), Jiafang Huang(Fujian Normal University), Leilei Xiao(Chinese Academy of Sciences), Wenfeng Zhu(Fujian Normal University), Yuxiu Liu(Fuzhou University), Xun Duan(Fuzhou University)
Plant and Soil
September 26, 2018
10.1007/s11104-018-3827-y
Cited by 47

Related Papers

Interfacial Molecule Engineering for Reversible Zn Electrochemistry
|ACS Energy Letters|2023|223
Nitrogen loading enhances phosphorus limitation in terrestrial ecosystems with implications for soil carbon cycling
|Functional Ecology|2022|184
Impacts of increasing salinity and inundation on rates and pathways of organic carbon mineralization in tidal wetlands: a review
|Hydrobiologia|2017|174
Losses of salt marsh in China: Trends, threats and management
|Estuarine Coastal and Shelf Science|2018|173
Moderate salinity improves the availability of soil P by regulating P‐cycling microbial communities in coastal wetlands
|Global Change Biology|2022|116