Fe (II) redox chemistry in the environment
Iron (Fe) is the fourth most abundant element in the earth's crust and plays important roles in
both biological and chemical processes. The redox reactivity of various Fe (II) forms has …
both biological and chemical processes. The redox reactivity of various Fe (II) forms has …
[HTML][HTML] Microorganisms pumping iron: anaerobic microbial iron oxidation and reduction
Iron (Fe) has long been a recognized physiological requirement for life, yet for many
microorganisms that persist in water, soils and sediments, its role extends well beyond that …
microorganisms that persist in water, soils and sediments, its role extends well beyond that …
[图书][B] Geomicrobiology
HL Ehrlich, DK Newman - 2008 - taylorfrancis.com
Uncovers the Key Role Microbes Play in the Transformation of Oxidizable and Reducible
MineralsMany areas of geomicrobial processes are receiving serious attention from …
MineralsMany areas of geomicrobial processes are receiving serious attention from …
Iron-oxidizing bacteria: an environmental and genomic perspective
D Emerson, EJ Fleming… - Annual review of …, 2010 - annualreviews.org
In the 1830s, iron bacteria were among the first groups of microbes to be recognized for
carrying out a fundamental geological process, namely the oxidation of iron. Due to lingering …
carrying out a fundamental geological process, namely the oxidation of iron. Due to lingering …
Visualization and quantification of carbon “rusty sink” by rice root iron plaque: Mechanisms, functions, and global implications
Paddies contain 78% higher organic carbon (C) stocks than adjacent upland soils, and iron
(Fe) plaque formation on rice roots is one of the mechanisms that traps C. The process …
(Fe) plaque formation on rice roots is one of the mechanisms that traps C. The process …
Metal and metalloid removal in constructed wetlands, with emphasis on the importance of plants and standardized measurements: A review
L Marchand, M Mench, DL Jacob, ML Otte - Environmental pollution, 2010 - Elsevier
This review integrates knowledge on the removal of metals and metalloids from
contaminated waters in constructed wetlands and offers insight into future R&D priorities …
contaminated waters in constructed wetlands and offers insight into future R&D priorities …
Methane emission from natural wetlands: interplay between emergent macrophytes and soil microbial processes. A mini-review
HJ Laanbroek - Annals of botany, 2010 - academic.oup.com
Abstract Background According to the Intergovernmental Panel on Climate Change (IPCC)
2007, natural wetlands contribute 20–39% to the global emission of methane. The range in …
2007, natural wetlands contribute 20–39% to the global emission of methane. The range in …
Acquisition and homeostasis of iron in higher plants and their probable role in abiotic stress tolerance
DK Tripathi, S Singh, S Gaur, S Singh… - Frontiers in …, 2018 - frontiersin.org
Iron (Fe) is a micronutrient that plays an important role in agriculture worldwide because
plants require a small amount of iron for its growth and development. All major functions in a …
plants require a small amount of iron for its growth and development. All major functions in a …
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 …
Iron redox cycling coupled to transformation and immobilization of heavy metals: implications for paddy rice safety in the red soil of South China
Red soil is an important soil resource, which bears substantial implication for sustainable
development of agriculture and healthy growth of economy. However, the red soil in China …
development of agriculture and healthy growth of economy. However, the red soil in China …