The indiscriminate and intensive use of agrochemicals in developing nations to enhance
crop productivity has posed an alarming threat to soil quality, fertility, biodiversity, food …

Microbial arsenite (As (III)) oxidation associated with nitrate (NO3–) reduction might be an
important process in diminishing arsenic bioavailability and toxicity to rice when paddy soils …

There exists a research gap on microbial functional genes' role in U geochemical behavior
and cycling in U contaminated soils, which has been poorly understood. Herein, 16S rRNA …

Microaerophilic Fe (II)-oxidizing bacteria are often chemolithoautotrophs, and the Fe
(III)(oxyhydr) oxides they form could immobilize arsenic (As). If such microbes are active in …

While it was recently reported that the conduction band of iron minerals can mediate
electron transfer between Fe (II) and different Fe (III) lattice sites during Fe (II)-catalyzed …

Microbially mediated Fe (II) oxidation is prevalent and thought to be central to many
biogeochemical processes in paddy soils. However, we have limited insights into the Fe (II) …

Enzymes produced by microorganisms and plants are very sensitive to variations in soil
microclimate, yet most enzyme assays are conducted under oxic conditions irrespective of …

Abstract Sweet potato (Ipomoea batatas Lam) could produce acceptable root yield in low-
nitrogen (N) soils, with substantial N uptake potentially attributed to supplies provided via …

Most microaerophilic Fe (II)-oxidizing bacteria (mFeOB) belonging to the family
Gallionellaceae are autotrophic microorganisms that can use inorganic carbon to drive …

Coupled reaction of Fe (II) oxidation and nitrate reduction plays an important role in
biogeochemical cycling of Fe and N, but biologically redox-inert clay minerals are seldom …