Plant growth-promoting microbe mediated uptake of essential nutrients (Fe, P, K) for crop stress management: Microbe–soil–plant continuum
S Pattnaik, B Mohapatra, A Gupta - Frontiers in Agronomy, 2021 - frontiersin.org
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 …
crop productivity has posed an alarming threat to soil quality, fertility, biodiversity, food …
Bacterial communities and functional genes stimulated during anaerobic arsenite oxidation and nitrate reduction in a paddy soil
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 …
important process in diminishing arsenic bioavailability and toxicity to rice when paddy soils …
Insight into microbial functional genes' role in geochemical distribution and cycling of uranium: The evidence from covering soils of uranium tailings dam
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 …
and cycling in U contaminated soils, which has been poorly understood. Herein, 16S rRNA …
Microaerophilic oxidation of Fe (II) coupled with simultaneous carbon fixation and As (III) oxidation and sequestration in karstic paddy soil
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 …
(III)(oxyhydr) oxides they form could immobilize arsenic (As). If such microbes are active in …
Conduction band of hematite can mediate cytochrome reduction by Fe (II) under dark and anoxic conditions
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 …
electron transfer between Fe (II) and different Fe (III) lattice sites during Fe (II)-catalyzed …
Metagenomic analysis of Fe (II)-oxidizing bacteria for Fe (III) mineral formation and carbon assimilation under microoxic conditions in paddy soil
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) …
biogeochemical processes in paddy soils. However, we have limited insights into the Fe (II) …
Keep oxygen in check: Contrasting effects of short-term aeration on hydrolytic versus oxidative enzymes in paddy soils
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 …
microclimate, yet most enzyme assays are conducted under oxic conditions irrespective of …
Long-term fertilization with high nitrogen rates decreased diversity and stability of diazotroph communities in soils of sweet potato
L Wang, H Zhang, J Wang, J Wang, Y Zhang - Applied soil ecology, 2022 - Elsevier
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 …
nitrogen (N) soils, with substantial N uptake potentially attributed to supplies provided via …
Distribution and correlation of iron oxidizers and carbon-fixing microbial communities in natural wetlands
Most microaerophilic Fe (II)-oxidizing bacteria (mFeOB) belonging to the family
Gallionellaceae are autotrophic microorganisms that can use inorganic carbon to drive …
Gallionellaceae are autotrophic microorganisms that can use inorganic carbon to drive …
Ligand enhanced bio-oxidation of structural Fe (II) in illite coupled with nitrate reduction
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 …
biogeochemical cycling of Fe and N, but biologically redox-inert clay minerals are seldom …