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Fixed-film anaerobic digestion : mechanisms of pathogen reduction and impacts on virus adsorption to soil PDF

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Preview Fixed-film anaerobic digestion : mechanisms of pathogen reduction and impacts on virus adsorption to soil

r FIXED-FILM ANAEROBIC DIGESTION: MECHANISMS OF PATHOGEN REDUCTION AND IMPACTS ON VIRUS ADSORPTION TO SOIL 'K' JOHNNY A. DAVIS s A DISSERTATION PRESENTED TO THE GRADUATE SCHOOL OF THE UNIVERSITY OF FLORIDA IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY UNIVERSITY OF FLORIDA 2006 %ai}\ } xV>-^ ?> .. i-.-*- •i 'J ....v». . .J- H I !V- .'>' :^-j- t.;*s *'' V.' s;^. » .' f JT- . ; Copyright 2006 i^ ; .^^^^ y < by Johnny A. Davis *v %,^ i'''1 :i 'iO.U*^ ' To Ethan and Joshua. "V* --i* O ' "> , " ^ i' ACKNOWLEDGMENTS -: I would like to thank Dr. Samuel R. Farrah, chair ofthe supervisory committee, for providing support, research facilities, and guidance towards completion ofthis body of work. I would like to extend a sincere appreciation to the co-chair ofthe supervisory committee. Dr. Ann C. Wilkie. Herconstantpersistence and guidancepushed the work forward to completion. Through our numerous scientific discussions and constant mental challenging, Ihave gained atremendous appreciation formy field ofstudy and the pursuit ofknowledge in general. I have no doubt that our interactions will help me develop a successful career as an independent scientist. Ithank the remaining members ofthe supervisory committee, Dr. Ben Koopman, Dr. PeterKima, and especially, Dr. Madeline Rasche, forproviding valuable insight to career development. I thank my wife, Nicole Davis, for herpatience and support during this longjourney. I would like to thank myparents, Harvey Moffitt and Emma T. Davis, fortheirwisdom and encouragement. I would also like to thank Dr. Anne Donnelly forbeing amentor and friend. I would also liketo acknowledge David Armstrong and the DairyResearch Unit stafffor their help during various stages ofthe project. I would like to thank the Department of Microbiology and Cell Science, faculty and staff I also extend an appreciation for the McKnight Doctoral and Southeast Alliance for Graduate Education and the Professoriate Programs forproviding funding during my graduate career. Lastly, I would like to acknowledge my reunion with mybiological parents, Namon and Debbie Martin, and the introduction to the family I neverhad the opportunity ,..,'•""'- iv •' 7 SJ, t, to know. During the last four years I have enjoyed learning about my family and I look forward to our future together as we continue to close the 24-year gap. J 3i -3 % -7 , TABLE OF CONTENTS Eage ACKNOWLEDGMENTS iv LIST OF TABLES ix LIST OF FIGURES xi ABSTRACT '. xii CHAPTER V 1 INTRODUCTION ...: '.'. 1 2 PATHOGENIC ORGANISMS IN BOVINE MANURE AND THEIR REDUCTION BY ANAEROBIC DIGESTION 4 Pathogenic Organisms in Dairy Cattle Manure 4 Zoonotic Bacteria 5 Mastitic Bacteria 10 . Pathogenic Viruses 12 Parasitic Protozoa 14 Anaerobic Digestion and Pathogenic Organisms 15 Anaerobic Digestion 15 Anaerobic Digesters 16 Microbial Diversity in Anaerobic Digesters 18 Pathogen Decimation during Anaerobic Digestion ofAnimal Manure 20 Summary 27 Purpose ofStudy 28 INDICATOR AND PATHOGENIC BACTERIA REDUCTION BY 3 ANAEROBIC DIGESTION: THE ROLE OF MICROBIAL COMPETITION AND SUBSTRATE LIMITATIONS 29 Introduction 29 Purpose 31 Materials and Methods 32 Dairy Research Unit 32 Manure Handling 32 < _ , ,• •^- ^ f ^- ' tr *. b..«- Fixed-film Anaerobic Digester 32 Sample Collection, Characterization, and Preparation 33 Bacterial Cultures 34 Bacterial Quantification 34 Anaerobic Conditions 35 Survival in Whole and Soluble Wastewater Fractions 35 Inhibition and Wastewater Supplementation Studies 36 Statistical Analysis 37 Results 37 Wastewater Characteristics 37 Growth ofBacteria in Whole and Soluble Fractions ofWastewater 38 Total aerobic, anaerobic, and facultative bacteria 38 Escherichia coli and fecal cohforms 39 Enterococcus spp 40 Salmonella spp 41 Escherichia coli 0157:H7 41 Staphylococcus aureus 41 Discussion and Conclusions 43 INDICATOR AND PATHOGENIC BACTERIA REDUCTION DURING ANAEROBIC DIGESTION: ATTACHMENT TO THE FIXED-FILM 56 Introduction 56 Purpose 56 Materials and Methods 57 Pilot-Scale Fixed-Film Reactors 57 Survival Comparabilitywith Indigenous Fecal Cohforms 57 Biofilm Attachment Studies 58 Biofilm Sampling and Examining 58 Results 59 Fecal Cohform and GFP E. coli Survival 59 Biofilm Attachment Studies 59 Discussion and Conclusions 60 BACTERIOPHAGE REDUCTION DURING ANAEROBIC DIGESTION: THE ROLE OF INDIGENOUS MICROFLORA 66 Introduction 66 Purpose 67 Materials and Methods 67 Sample Collection, Characterization, and Preparation 67 Bacteriophages 68 Experimental Design 68 Bacteriophage Quantification 68 Anaerobic Conditions 68 Statistical Analysis 68 Results 69 vu Wastewater Characteristics 69 Influence ofWhole and Soluble Fractions ofWastewater 69 Discussion and Conclusions 69 6 TRANSPORT OF VIRUSES IN SOIL AMENDED WITH ANAEROBICALLY DIGESTED FLUHSHED DAIRY MANURE WASTEWATER 73 Introduction 73 Virus Inactivation during Anaerobic Digestion 73 Viral Attachment to Soil 74 ~ , Purpose 76 Materials and Methods 77 Collection and Analysis ofSoil Samples 77 ^ Collection and Analysis ofWastewater, Groundwater, and Rainwater Samples 77 ; Viruses and Viral Assays 77 ' Virus Stability 78 Attachment and Detachment Studies 78 Attachment and Detachment Mechanisms 80 Virus Survival in Soil 82 Risk Assessment ofFlushed Dairy Manure 82 Statistical Analysis 82 Results 83 Soil Characteristics 83 Batch Studies 83 ' : Column Studies 84 Conductivity and pH 84 Attachment and Detachment Mechanisms 85 '' Risk Assessment ofViruses Following Land Application 90 Survival ofViruses in Soil 90 Discussion and Conclusions 90 7 SUMMARY OF CONCLUSIONS...^.........'...!?:..'!... 122 LIST OF REFERENCES 125 BIOGRAPHICAL SKETCH .......'. ..:... 140 vm LIST OF TABLES : :, 'r Table page 3-L Percentage ofcarbon from various sources in yeast extract 49 3-2. Characterization ofsamples used for all experiments 50 3-3. Growth ofindicator and pathogenic bacteria in the soluble fraction of wastewater 51 3-4. Growth ofindigenous indicatorbacteria and aureus inthe whole fraction of .S". wastewater 52 3-5. Comparison ofgrowth between indigenous bacteria inwastewater at 2>^°C and 28°C 53 3-6. Determination ofinhibitory ornutritional limitation on the growth ofindigenous S. aureus 54 3-7. Growth of.S. aureus in soluble effluent and soluble effluent with various amendments 55 5-1. Impact ofindigenous microflora on viruses suspended in groundwater and wastewater 72 6-1. Characteristics ofviruses used in the study 97 6-2. Characteristics oftest soil 98 6-3. Adsorption ofViruses in groundwater and wastewaterto soil 99 6-4. Elution ofviruses adsorbed to soil 100 6-5. Elution ofviruses adsorbed in soil columns 101 6-6. Conductivity and pH changes in soil during batch and column experiments 102 6-7. Adsorption ofviruses in groundwater and wastewater to soil adjusted to pH 7.0. .103 6-8. Influence ofpH on adsorption ofviruses to soil 104 6-9. Elution ofviruses adsorbed to soil by detergents in groundwater 105 IX 6-10. Recovery ofviruses with 3% BE from soil pretreated with detergents 106 6-11. Estimated risk ofinfection from exposure to groundwater following land application ofwastewater 107 X \ %

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