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100   $a20061208d2006      ua             0
101 0 $aeng
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200 10$aVaporized hydrogen peroxide (VHP®) decontamination of a Boeing 747 cabin$b[electronic resource] $efinal report /$fRobert M. Shaffstall ... [and others]
210  1$aWashington, D.C. :$cFederal Aviation Administration, Office of Aerospace Medicine ;$aFt. Belvior, VA :$cAvailable to the public through the Defense Technical Information Center ;$aSpringfield, Va. :$cAvailable to the public through the National Technical Information Service,$d2006.
215   $ai, 11 pages $cdigital, PDF file
300   $aTitle from title screen (viewed on Dec. 8, 2006).
300   $a"April 2006."
300   $a"DOT/FAA/AM-06/10."
320   $aIncludes bibliographical references (page 11).
330   $aThe use of STERIS Corporation's Vaporized Hydrogen Peroxide (VHP®) technology as a potential biocide for aircraft decontamination was demonstrated in a cabin section of the Aircraft Environment Research Facility (an FAA-owned Boeing 747). When exposed to an appropriate concentration of VHP vapor in the cabin test section, biological indicators inoculated with 106 colony forming units of Geobacillus stearothermophilus spores demonstrated a total suppression of culture growth. Efficacy was demonstrated with and without seats in the test section of the aircraft. The importance of adequate air mixing was also demonstrated.
517   $aVaporized hydrogen peroxide 
606   $aAirplanes$xDisinfection
606   $aBiological decontamination
606   $aAircraft cabins
606   $aHydrogen peroxide
606   $aAir$xPurification
615  0$aAirplanes$xDisinfection.
615  0$aBiological decontamination.
615  0$aAircraft cabins.
615  0$aHydrogen peroxide.
615  0$aAir$xPurification.
700   $aShaffstall$b Robert M$01409865
712 02$aUnited States.$bOffice of Aerospace Medicine.
712 02$aCivil Aerospace Medical Institute.
801  0$bGPO
801  1$bGPO
801  2$bGPO
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996   $aVaporized hydrogen peroxide (VHP®) decontamination of a Boeing 747 cabin$93497383
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LEADER 04666nam  22006855  450 
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010   $a981-16-0889-X
024 7 $a10.1007/978-981-16-0889-6
035   $a(CKB)4100000011918840
035   $a(DE-He213)978-981-16-0889-6
035   $a(MiAaPQ)EBC6607698
035   $a(Au-PeEL)EBL6607698
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035   $a(PPN)255885199
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100   $a20210508d2021      u|         0
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200 10$aOmics Science for Rhizosphere Biology /$fedited by Ramesh Namdeo Pudake, Binod Bihari Sahu, Maya Kumari, Anil K. Sharma
205   $a1st ed. 2021.
210  1$aSingapore :$cSpringer Nature Singapore :$cImprint: Springer,$d2021.
215   $a1 online resource (XIII, 279 p. 24 illus., 21 illus. in color.)
225 1 $aRhizosphere Biology,$x2523-8450
311 08$a981-16-0888-1 
327   $aChapter 1. Rhizosphere Metagenomics ? Methods and Challenges -- Chapter 2. Metagenomic Approach in Relation to Plant-Microbe and Microbe-Microbe Interactions -- Chapter 3. Metagenomics and metatranscriptomics approaches in understanding and discovering novel molecules in rhizosphere environment -- Chapter 4. "Omics? approaches for understanding soil suppressiveness in agriculture -- Chapter 5. Rhizosphere dynamics: an OMICS perspective -- Chapter 6. Transcriptomics analyses and the relationship between plant and plant growth-promoting rhizobacteria (PGPR) -- Chapter 7. Proteomics for understanding the interaction between plant and rhizospheric microflora -- Chapter 8. A proteomics perspective for understanding rhizosphere biology at higher altitudes -- Chapter 9. Structural and functional rhizospheric microbial diversity analysis by cutting edge biotechnological tools -- Chapter 10. Rhizosphere Fingerprints: Novel Biomolecules via Meta-Omics Technology -- Chapter 11. Rhizosphere virology and plant health -- Chapter 12. Long sequencing tools for rhizosphere study -- Chapter 13. Rhizoengineering: A strategy to enhance soil and crop productivity -- Chapter 14. Endospheric microbiome assisted alteration in the metabolomic profiling of host towards abiotic stress mitigation. .
330   $aThis book presents a timely review of the latest advances in rhizosphere biology, which have been facilitated by the application of omics tools. It includes chapters on the use of various omics tools in rhizosphere biology, focusing on understanding plant and soil microbe interactions. The role of proteomics and metagenomics in research on symbiotic association is also discussed in detail. The book also includes chapters on the use of omics tools for the isolation of functional biomolecules from rhizospheric microorganisms. The book?s respective sections describe and provide detailed information on important omics tools, such as genomics, transcriptomics, proteomics, metabolomics and meta-epigenomics. In turn, the book promotes and describes the combined use of plant biology, microbial ecology, and soil sciences to design new research strategies and innovative methods in soil biology. Lastly, it highlights the considerable potential of the rhizosphere in terms of crop productivity, bioremediation, ecological engineering, plant nutrition and health, as well as plant adaptation to stress conditions. This book offers both a practical guide and reference source for all scientists working in soil biology, plant pathology, etc. It will also benefit students studying soil microbiology, and researchers studying rhizosphere structure. .
410  0$aRhizosphere Biology,$x2523-8450
606   $aMicrobial ecology
606   $aBacteria
606   $aMicrobiology
606   $aPlant diseases
606   $aBioinformatics
606   $aMicrobial Ecology
606   $aBacteria
606   $aMicrobiology
606   $aPlant Pathology
606   $aComputational and Systems Biology
615  0$aMicrobial ecology.
615  0$aBacteria.
615  0$aMicrobiology.
615  0$aPlant diseases.
615  0$aBioinformatics.
615 14$aMicrobial Ecology.
615 24$aBacteria.
615 24$aMicrobiology.
615 24$aPlant Pathology.
615 24$aComputational and Systems Biology.
676   $a581.10428
702   $aPudake$b Ramesh Namdeo
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996   $aOmics Science for Rhizosphere Biology$92129726
997   $aUNINA