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Books on the topic 'Microbial degradation organic pollutants'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Neilson, Alasdair H. Environmental degradation and transformation of organic chemicals. Boca Raton: Taylor & Francis, 2008.

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2

Ho, Iwan. Microbial and chemical properties of log ponds along the Oregon coast. [Portland, Or.?]: U.S. Dept. of Agriculture, Forest Service, Pacific Northwest Research Station, 1987.

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3

Ho, Iwan. Microbial and chemical properties of log ponds along the Oregon coast. [Portland, Or.?]: U.S. Dept. of Agriculture, Forest Service, Pacific Northwest Research Station, 1987.

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4

Ho, Iwan. Microbial and chemical properties of log ponds along the Oregon coast. [Portland, Or.?]: U.S. Dept. of Agriculture, Forest Service, Pacific Northwest Research Station, 1987.

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5

Ann-Sofie, Allard, ed. Environmental degradation and transformation of organic chemicals. 2nd ed. Boca Raton, FL: CRC Press, 2012.

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6

Klubek, B. Microbial removal of organic sulfur from coal (bacterial degradation of sulfur-containing heterocyclic compounds). S.l: s.n, 1987.

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7

Levén, Lotta. Anaerobic digestion at mesophilic and thermophilic temperature: With emphasis on degradation of phenols and structures of microbial communities. Uppsala: Swedish University of Agricultural Sciences, 2006.

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8

Gibson, David T. Microbial Degradation of Organic Compounds (Microbiology Series). Marcel Dekker, 2002.

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9

Y, Young Lily, and Cerniglia Carl, eds. Microbial transformation and degradation of toxic organic chemicals. New York: Wiley-Liss, 1995.

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10

Helmut, Sigel, and Sigel Astrid, eds. Degradation of environmental pollutants by microorganisms and their metalloenzymes. New York: M. Dekker, 1992.

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11

Environmental Degradation and Transformation of Organic Chemicals. CRC, 2007.

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12

The Influence of microbial ecology on subsurface degradation of organic contaminants. Blacksburg: Virginia Water Resources Research Center, -virginia Polytechnic Institute and State University, 1992.

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13

Kirchman, David L. Degradation of organic matter. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0007.

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The aerobic oxidation of organic material by microbes is the focus of this chapter. Microbes account for about 50% of primary production in the biosphere, but they probably account for more than 50% of organic material oxidization and respiration (oxygen use). The traditional role of microbes is to degrade organic material and to release plant nutrients such as phosphate and ammonium as well as carbon dioxide. Microbes are responsible for more than half of soil respiration, while size fractionation experiments show that bacteria are also responsible for about half of respiration in aquatic habitats. In soils, both fungi and bacteria are important, with relative abundances and activity varying with soil type. In contrast, fungi are not common in the oceans and lakes, where they are out-competed by bacteria with their small cell size. Dead organic material, detritus, used by microbes, comes from dead plants and waste products from herbivores. It and associated microbes can be eaten by many eukaryotic organisms, forming a detritus food web. These large organisms also break up detritus into small pieces, creating more surface area on which microbes can act. Microbes in turn need to use extracellular enzymes to hydrolyze large molecular weight compounds, which releases small compounds that can be transported into cells. Fungi and bacteria use a different mechanism, “oxidative decomposition,” to degrade lignin. Organic compounds that are otherwise easily degraded (“labile”) may resist decomposition if absorbed to surfaces or surrounded by refractory organic material. Addition of labile compounds can stimulate or “prime” the degradation of other organic material. Microbes also produce organic compounds, some eventually resisting degradation for thousands of years, and contributing substantially to soil organic material in terrestrial environments and dissolved organic material in aquatic ones. The relationship between community diversity and a biochemical process depends on the metabolic redundancy among members of the microbial community. This redundancy may provide “ecological insurance” and ensure the continuation of key biogeochemical processes when environmental conditions change.
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14

Biological Degradation of Organic Chemical Pollutants in Biofilm Systems (Water Science & Technology). IWA Publishing, 1995.

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15

Soil Mineral-Organic Matter-Microorganism Interactions and Ecosystem Health : Dynamics, Mobility and Transformation of Pollutants and Nutrients (Developments in Soil Science). Elsevier Science, 2002.

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16

Sharma, Gaurav, Amit Kumar, and Pooja Dhiman, eds. Ferrite. Materials Research Forum LLC, 2021. http://dx.doi.org/10.21741/9781644901595.

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Ferrites are highly interesting high-tech materials. The book covers their classification, structure, synthesis, properties and applications. Emphasis is placed an biomedical applications, degradation of organic pollutants, high frequency applications, photocatalytic applications for wastewater remediation, solar cell applications, removal of organic dyes and drugs from aquatic systems, and the synthesis of hexagonal ferrites.
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