Iron-reducing bacteria (IRB) are crucial for electron transfer in anaerobic soil microsites. The utilization of the energy gathered by this mechanism by decomposers of organic matter is a challenging and fascinating issue. We hypothesized that bacteria reducing Fe(III) (oxyhydr)oxides to soluble Fe(II) obtain electrons from reduced soil organic matter (SOMr) involving lignin oxidation. Iron-reducing bacteria were isolated from topsoils of various climates (humid temperate, cold temperate, subpolar), vegetation types (mostly grasslands and forests), and derived from various parent materials treatments assigned as Granitic, Volcanic-allophanic, Fluvio-glacial, Basaltic-Antarctic and Metamorphic. After the screening of IRB by phospholipid fatt...
International audienceIron-reducing bacteria (IRB) are strongly involved in Fe cycling in surface en...
Fe oxyhydroxides in soils can bind large amounts of dissolved organic matter (DOM) because of their ...
The biological and chemical potential for electron shuttling via humic acids was evaluated by analyz...
Iron-reducing bacteria (IRB) are crucial for electron transfer in anaerobic soil microsites. The uti...
Temporal drying of upper soil layers of acidic methanogenic peatlands might divert the flow of reduc...
Microbial reduction of Fe(III) minerals is a prominent process in redoximorphic soils and is strongl...
Peatlands constitute >3% of the Earth’s terrestrial area but store approximately one third of global...
Dissimilatory microbial iron(III)-reduction has been proposed as an important chemical change that t...
Microbial humic substance (HS) reduction and subsequent abiotic electron transfer from reduced HS to...
Microbial humic substance (HS) reduction and subsequent abiotic electron transfer from reduced HS to...
Dissimilatory metal-reducing bacteria are ubiquitous in soils worldwide, possess the ability to tran...
The reduction of Fe(III) is one of the most significant reactions that takes place as anaerobic cond...
Dissimilatory iron-reducing bacteria (DIRB) are known to use humic substances (HS) as electron shutt...
International audienceIron-reducing bacteria (IRB) are strongly involved in Fe cycling in surface en...
International audienceIron-reducing bacteria (IRB) are strongly involved in Fe cycling in surface en...
International audienceIron-reducing bacteria (IRB) are strongly involved in Fe cycling in surface en...
Fe oxyhydroxides in soils can bind large amounts of dissolved organic matter (DOM) because of their ...
The biological and chemical potential for electron shuttling via humic acids was evaluated by analyz...
Iron-reducing bacteria (IRB) are crucial for electron transfer in anaerobic soil microsites. The uti...
Temporal drying of upper soil layers of acidic methanogenic peatlands might divert the flow of reduc...
Microbial reduction of Fe(III) minerals is a prominent process in redoximorphic soils and is strongl...
Peatlands constitute >3% of the Earth’s terrestrial area but store approximately one third of global...
Dissimilatory microbial iron(III)-reduction has been proposed as an important chemical change that t...
Microbial humic substance (HS) reduction and subsequent abiotic electron transfer from reduced HS to...
Microbial humic substance (HS) reduction and subsequent abiotic electron transfer from reduced HS to...
Dissimilatory metal-reducing bacteria are ubiquitous in soils worldwide, possess the ability to tran...
The reduction of Fe(III) is one of the most significant reactions that takes place as anaerobic cond...
Dissimilatory iron-reducing bacteria (DIRB) are known to use humic substances (HS) as electron shutt...
International audienceIron-reducing bacteria (IRB) are strongly involved in Fe cycling in surface en...
International audienceIron-reducing bacteria (IRB) are strongly involved in Fe cycling in surface en...
International audienceIron-reducing bacteria (IRB) are strongly involved in Fe cycling in surface en...
Fe oxyhydroxides in soils can bind large amounts of dissolved organic matter (DOM) because of their ...
The biological and chemical potential for electron shuttling via humic acids was evaluated by analyz...