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REFERENCES CITED

1. Adegbidi, Hector, and Briggs, Russell, 2003, Nitrogen mineralization of sewage sludge and composted poultry manure applied to willow in a greenhouse experiment: Biomass and Energy, v. 25, p. 665-674.
2. Alexander, Martin, 2000, Aging, bioavailability, and overestimation of risk from environmental pollutants: Environmental Science and Technology, v. 34, p. 4259-4265.
3. Amoore, John, and Hautala, Earl, 1983, Odor as an aid to chemical safety: Odor thresholds compared with threshold limit values and volatilities for 214 industrial chemicals in air and water dilution: Journal of Applied Toxicology, v. 3, no. 6, p. 272-290.
4. Andersson, A. , 1984, Composted municipal sludge as fertilizer and soil conditioner., Berglund, S. , Davis, R., and L'Hermite, P., Utilisation of sewage sludge on land: Rates of application and long-term effects of metals, Uppsala.
5. Antoniadis, Vasileios, and Alloway, Brian, 2002, Leaching of cadmium, nickel, and zinc down the profile of a sewage sludge-treated soil: Communications in Soil Science and Plant Analysis, v. 93, p. 273-286.
6. Apedaile, Erik, 2001, A perspective on biosolids management: The Canadian Journal of Infectious Diseases and Medical Microbiology, v. 12, no. 4, p. 12-25.
7. Atwill, Edward, Hou, Lingling, Karle, Betsy, and others, 2002, Transport of cryptosporidium parvum oocysts through vegetated buffer strips and estimated filtration efficiency: Applied and Environmental Microbiology, v. 68, p. 5517-5527.
8. Barbarick, K, Ippolito, J, and Westfall, D, 1998, Extractable trace elements in the soil profile after years of biosolids application: Journal of Environmental Quality, v. 27, p. 801-805.
9. Basta, N., Ryan, J., and Chaney, R., 2005, Trace element chemistry in residual-treated soil: key concepts and metal bioavailability: Journal of Environmental Quality, v. 34, p. 49-63.
10. Basta, N, and Sloan, J, 1999, Bioavailability of heavy metals in strongly acidic soils treated with exceptional quality biosolids: Journal of Environmental Quality, v. 28, p. 633-638.
11. Basta, Nicholas, 2004, Heavy metal and trace element chemistry in residual-treated soil: Implications on metal bioavailability and sustainable land application.
12. Bastian, Robert, 2004, Interpreting Science in the real world, Sustainable Land Application Conference, Lake Buena Vista, Florida.
13. Beecher, Ned , Harrison, Ellen, Goldstein, Nora, and others, 2005, Risk perception, risk communication, and stakeholder involvement for biosolids management and research: Journal of Environmental Quality, v. 34, p. 122-128.
14. Bell, Paul, James, Bruce, and Chaney, Rufus, 1991, Heavy metal extractability in long-term sewage sludge and metal salt-amended soils: Journal of Environmental Quality, v. 20, p. 481-486.
15. Bergstrom, John, Boyle, Kevin, and Poe, Gregory, 2001, The Economic Value of Water Quality: Cheltenham, UK, Edward Elgar Publishing Ltd.
16. Berti, W, and Jacobs, L, 1998, Distribution of trace elements in soil from repeated sewage sludge applications: Journal of Environmental Quality, v. 27, p. 1280-1286.
17. Bitton, G., Pancorbo, O., and Farrah, S., 1984, Virus transport and survival after land application of sewage sludge: Applied and Environmental Microbiology, v. 47, p. 905-909.
18. Brandt, R., Elliot, H., and O'Connor, G., 2004, Water-extractable phosphorous in biosolids: implications for land-based recycling: Water Environment Research, v. 76, p. 121-129.
19. Bright, D., and Healy, N., 2003, Contaminant risks from biosolids land application: Contemporary organic contaminant levels in digested sewage sludge from five treatment plants in Greater Vancouver, British Columbia: Environmental Pollution, v. 126, p. 39-49.
20. Brinton, Scott, and O'Connor, George, 2003, Sorption of molybdenum in soils field-equilibrated with biosolids: Communications in Soil Science and Plant Analysis, v. 48, p. 1331-1346.
21. Brobst, Robert, Yates, Marylynn, and Yates, Scott, 2004, Fate of pathogenic microorganisms during, and following application to soil.
22. Brooks, J., Tanner, B., Josephson, K, and others, 2004, Bioaerosols from the land application of biosolids in the desert southwest USA: Water Science and Technology, v. 50, p. 7-12.
23. Brooks, John , Gerba, Charles, and Pepper, Ian, 2004, Biological aerosol emission, fate, and transport from municipal and animal wastes: Journal of Residuals Science and Technology, v. 1, no. 1, p. 15-28.
24. Brooks, John , Tanner, Benjamin, Gerba, Charles, and others, 2004, Estimation of bioaerosol risk of infection from land applied biosolids using an empirically derived transport model: Journal of Applied Microbiology, v. 98, no. 2, p. 397-406.
    
    — Top of Page —
     
25. Brown, Sally , Chaney, Rufus, Angle, Scott, and others, 1998, The phytoavailability of cadmium to lettuce in long-term biosolids-amended soils: Journal of Environmental Quality, v. 27, p. 1071-1078.
26. Brown, Sally , Chaney, Rufus, Hallfrisch, Judith, and others, 2004, In situ soil treatments to reduce the phyto- and bioavailability of lead, zinc, and cadmium: Journal of Environmental Quality, v. 33, p. 522-531.
27. Brown, Sally, Chaney, Rufus, Hallfrisch, Judith, and others, 2003, Effects of biosolids processing on lead bioavailability in an urban soil: Journal of Environmental Quality, v. 32, p. 100-108.
28.  Brown, Sally , Chaney, Rufus, Lloyd, Cheryl, and others, 1996, Relative uptake by garden vegetables and fruits grown on long-term biosolid-amended soils: Environmental Science and Technology, v. 30, p. 3508-3511.
29. Bunger, Jurgen, Antlauf-Lammers, Michael, Schulz, Thomas, and others, 2000, Health complaints and immunological markers of exposure to bioaerosols among biowaste collectors and compost workers.: Occupational and Environmental Medicine, v. 57, p. 458-464.
30. Burton, Nancy, and Trout, Douglas, 2000, Bio-Solids land application process, LeSourdsville, Ohio, August 1999: Cincinnati, OH, NIOSH.
31. Caballero, Roos, Novy, Vladimir, and Dodd, Kevin, 1997, Odor and air management strategy for biosolids composting: BioCycle, v. 38, no. 3, p. 64-73.
32. Camobreco, Vincent, Richards, Brian, Steenhuis, Tammo, and others, 1996, Movement of heavy metals through undisturbed and homogenized soil columns: Soil Science, v. 161, no. 11, p. 740-750-.
33. Campbell, H. , 2000, Sludge Management-future issues and trends: Water Science and Technology, v. 41, p. 1-8.
34. Capizzi-Banas, S., Deloge, M., Remy, M., and others, 2004, Liming as an advanced treatment for sludge sanitisation: helminth eggs elimination--Ascaris eggs as model: Water Research , v. 38, p. 3251-3258.
35. Cappon, Chris, 1984, Content and chemical form of mercury and selenium in soil, sludge, and fertilizer materials: Water, Air, and Soil Pollution, v. 22, p. 95-104.
36. Chaney, R., 1990, Twenty years of land application research: BioCycle, v. September, p. 54-65.
37. Chaney, R., Ryan, J., and O'Connor, G., 1996, Organic contaminants in municipal biosolids: risk assessment, quantitative pathways analysis, and current research priorities: Science of the Total Environment, v. 185, p. 187-216.
38. Chaney, Rufus, 1994, Trace metal movement: Soil-plant systems and bioavailability of biosolids-applied metals, Clapp, C., Larson, W., and Dowdy, R., Sewage Sludge: Land utilization and the environment, St. Paul.
39. Chaney, Rufus, Reeves, Philip, Kukier, Urszula, and others, 2004, Food chain transfers and bioavailability of Cd and other elements in plants grown on biosolids amended soils, Sustainable Land Application Conference, Lake Buena Vista, Florida.
40. Chang, A, Hyun, H, and Page, A, 1997, Cadmium uptake for swiss chard grown on composted sewage sludge treated field plots: plateau or time bomb?: Journal of Environmental Quality, v. 26, p. 11-19.
41. Chapelle, Frank, 1992, Ground-Water microbiology and geochemistry: New York, John Wiley & Sons.
42. Coker, E., and Carlton-Smith, C., 1986, Phosphorous in sewage sludge as a fertilizer: Waste Management Research, v. 4, p. 303.
43. Colford, John, Eisenberg, Don, Eisenberg, Joseph, and others, 2003, A dynamic model to assess microbial healthrisks associated with beneficial uses of biosolids- Phase 1: Alexandria, VA, Water Environment Research Foundation.
44. Cornell Waste Management Institute, 2004, Clustering of Incidents.
45. Daniels, W., Nagle, Steve, Whittecar, G., and others, 2002, Effects of biosolids application on groundwater nitrate-N levels in sand and gravel mine reclamation in Virginia, National Meeting of the American Society of Mining and Reclamation, Lexington, KY.
46. Darragh, A., Buchan, R., Sandfort, D., and others, 1997, Quantification of air contaminants at a municipal sewage sludge composting facility: Applied Occupational and Environmental Hygiene, v. 12, no. 3, p. 190-194.
47. Daughton, Christian, 2004, Ground water recharge and chemical contaminants: Challenges in communicating the connections and collisions of two disparate worlds: Ground Water Monitoring and Remediation, v. 24, no. 2, p. 127-138.
48. Daughton, Christian, and Ternes, Thomas, 1999, Pharmaceuticals and personal care products in the environment: agents of subtle change?: Environmental Health Perspectives, v. 107 , p. 907-938.
49. Dentel, S. K., 2004, Contaminants in sludge: implications for management policies and land application: Water Science and Technology, v. 49, no. 10, p. 21-29.

    — Top of Page —
     

50. DeVolder, Pam, Brown, Sally, Hesterberg, Dean, and others, 2003, Metal bioavailability and speciation in wetland tailings repository amended with biosolids compost, wood ash, and sulfate: Journal of Environmental Quality, v. 32, p. 851-864.
51. Dixon, Lawrence, and Field, Patrick, 2004, Proceedings from the Biosolids Research Summit, Alexandria, VA.
52. Dowd, S., and Maier, R., 2000, Aeromicrobiology, Environmental Microbiology: San Diego, California, Academic Press, p. 91-122.
53. Dowd. S., Widmer, K., and Pillai, S., 1997, Thermotolerant Clostridia as an airborne pathogen indicator during land application of biosolids: Journal of Environmental Quality, v. 26, p. 194-199.
54. Dowd, Scot, Gerba, Charles, Pepper, Ian, and others, 2000, Bioaerosol transport modeling and risk assessment in relation to biosolid placement: Journal of Environmental Quality, v. 29, p. 343-348.
55. Dudka, S., and Miller, W., 1999, Accumulation of potentially toxic elements in plants and their transfer to human food chain: Journal of Environmental Science and Health, v. B34, no. 4, p. 681-708.
56. Eisenberg, Joe, and Cicmanec, John, 2004, Risk assessment and epidemiological information for pathogenic microorganism applied to soil, Sustainable Land Application Conference, Lake Buena Vista, Florida.
57. Eisenberg, Joseph, Soller, Jeffrey, Scott, James, and others, 2004, A dynamic model to assess microbial healthrisks associated with beneficial uses of biosolids: Risk Analysis, v. 24, p. 221-236.
58. Elliot, H, O'Connor, G, and Brinton, S, 2002, Phosphorus leaching from biosolids-amended sandy soils: Journal of Environmental Quality, v. 31, p. 681-689.
59. Epstein, Eliot, 1998, Pathogenic health aspects of land application: BioCycle, v. 39, no. 9, p. 62-66.
60. Epstein, Eliot, Wu, Nerissa, Youngberg, Calvin, and others, 2001, Dust and aerosols at biosolids composting facilities: Compost Science and Utilization, v. 9, no. 3, p. 250-255.
61. Er, F., Ogut, M., Mikayilov, F., and others, 2004, Important factors affecting biosolid nitrogen mineralization in soils: Communications in Soil Science and Plant Analysis, v. 35, p. 2327-2344.
62. Eriksson, Jan, 2001, Concentrations of 61 trace elements in sewage sludge, farmyard manure, mineral fertiliser, precipitation and in oil and crops
    : Uppsala, Sweden, Swedish Environmental Protection Agency.
63. Estes, George, and Buob, Thomas, 2001, Agronomic and environmental aspects of biosolids on corn production in New Hampshire: University of New Hampshire, Agricultural Research Station.
64. Estes, George, and Zhao, Jian, 1996, Release of nitrate-nitrogen and heavy metals from land-applied biosolids in northern areas: Durham, NH, New Hampshire Water Resources Research Center.
65. Faulkner, Barton, Lyon, William, Khan, Faruque, and others, 2002, Predicting attenuation of viruses during percolation in soils: 1. probabilistic models.: Washington, DC, US Environmental Protection Agency.
66. Fox, Peter, Mash, Heath, Drewes, Joerg, and others, 2004, Sustainable water quality transformations during soil aquifer treatment, Sustainable Land Application Conference, Lake Buena Vista, Florida.
67. Gale, P., 2003, Pathogens in biosolids- Microbiological risk assessment, UK Water Industry Research Limited.
68. Gattie, David, and Lewis, David, 2004, A high-level disinfection standard for land-applied sewage sludges (biosolids): Environmental Health Perspectives, v. 112, no. 2, p. 126-131.
69. Gerba, C., 1984, Applied and theoretical aspects of virus adsorption to surfaces: Advances in Applied Microbiology, v. 30, p. 133-168.
70. Gerba, C., and Rose, J., 1990, Viruses in source and drinking water, McPheters, G., editor, Drinking Water Microbiology: New York, Springer, p. 380-396.
71. Gerba, C., and Smith, J., 2004, Pathogenic microorganisms and their fate on/in the environment, Sustainable Land Application Conference, Lake Buena Vista, Florida.
72. Gerba, Charles, and Smith, James, 2005, Sources of pathogenic microorganisms and their fate during land application of wastes: Journal of Environmental Quality, v. 34, p. 42-48.
73. Gerritse, R. , Vriesma, R, Dalenberg, J, and others, 1982, Effect of sewage sludge on trace element mobility in soils: Journal of Environmental Quality, v. 11, no. 3, p. 359-364.
74. Gibbs, R., Hu, C., Ho, G., and others, 1997, Regrowth of faecal coliforms and salmonellae in stored biosolids and soil amended with biosolids: Water Science and Technology, v. 35, p. 269-275.

    — Top of Page —
     

75. Gilmour, John, Cogger, Craig, Jacobs, Lee, and others, 2000, Estimating Plant-available nitrogen in biosolids: Alexandria, VA, Water Environment Research Foundation.
76. Gilmour, John, and Skinner, Vaughn, 1999, Predicting plant available nitrogen in land-applied biosolids: Journal of Environmental Quality, v. 28, p. 1122-1126.
77. Glanville, T., Persyn, R., Richard, T., and others, 2004, Environmental effects of applying composted organics to new highway embankments: Part 2. Water quality: Transaction of the ASAE, v. 47, p. 471-478.
78. Gooddy, D., Clay, J., and Bottrell, S., 2002, Redox-driven changes in porewater chemistry in the unsaturated zone of the chalk aquifer beneath unlined cattle slurry lagoons: Applied Geochemistry, v. 17, p. 903-921.
79. Gostelow, P. , Parsons, S., and Stuetz, R., 2001, Odour measurements for sewage treatment works: Water Research, v. 35, no. 3, p. 579-597.
80. Gove, Lindsey, Cooke, Cindy, Nicholson, Fiona, and others, 2001, Movement of water and heavy metals through sand and sandy loam amended with biosolids under steady-state hydrological conditions: Bioresource Technology, v. 78, p. 171-179.
81. Grey, Mark, and Henry, Chuck, 1998, An examination of runoff water quality and nutrient export from a forested watershed fertilized with biosolids. Puget Research 1998: Seattle, WA, University of Washington.
82. Hale, Robert , LaGuardia, Mark, Harvey, Ellen, and others, 2001, Persistent pollutants in land-applied sludge: Nature, v. 412, p. 140-141.
83. Hall, J., and Williams, J., 1984, The use of sewage sludge on arable and grasslands, Berglund, S., and Davis, R. L'Hermite P., Utilisation of sewage sludge on land: Rates of application and long-term effects of metals, Uppsala.
84. Hamon, R., Holm, P, Lorenz, S., and others, 1999, Metal uptake by plants from sludge-amended soils: caution is required in the plateau interpretation.: Plant and Soil, v. 216, p. 53-64.
85. Harrison, Ellen, McBride, Murray, and Bouldin, David, 1999, The Case for Caution, p. Cornell Waste Management Institute. Cornell University.
86. Harrison, Ellen, McBride, Murray, and Bouldin, David, 1999, Land application of sewage sludges: an appraisal of the US regulations: International Journal of Environment and Pollution, v. 11, no. 1, p. 1-39.
87. Harrison, Ellen, and Oakes Summer Rayne, 2002, Investigation of alleged health incidents associated with land application of sewage sludges: New Solutions, v. 12, no. 4, p. 387-408.
88. Harter, Thomas, Wagner, Sonja, and Atwill, Edward, 2000, Colloid transport and filtration of cryptosporidium parvum in sandy soils and aquifer sediments: Journal of Environmental Quality, v. 34, p. 62-70.
89. Hartman, Charlotte, 2000, The Terrible Truth: Copake, NY, National Sludge Alliance.
90. Heberer, T., Reddersen, K., and Mechlinski, A., 2002, From municipal sewage to drinking water: fate and removal of pharmaceutical residues in the aquatic environment in urban areas: Water Science and Technology, v. 46, p. 81-88.
91. Heckman, J, Angle, J, and Chaney, R, 1987, Residual effects of sewage sludge on soybean: I. Accumulation of heavy metals: Journal of Environmental Quality, v. 16, no. 2, p. 113-117.
92. Houtman, Nicolas, Zibilske, Larry, and Power, David, 1995, Survey of soil chemistry data at sludge application sites in Maine: Orono, Maine, Maine sludge and residuals utilization research foundation.
93. Issac, Russel, and Boothroyd, Yushia, 1996, Beneficial use of biosolids: Progress in controlling metals: Water Science and Technology, v. 34, p. 493-497.
94. Jin, Yan, and Yates, Marylynn, 2002, Virus behavior in saturated and unsaturated subsurface media: Denver, CO, American Water Works Research Foundation.
95. Jjemba, Patrick, 2002, The potential impact of veterinary and human therapeutic agents in manure and biosolids on plants grown on arable land: a review: Agriculture, Ecosystems, and Environment, v. 93, p. 267-278.
96. Jones, K., and Sewart, A., 1997, Dioxins and furans in sewage sludges: A review of their occurrence and sources in sludge and of their environmental fate, behavior, and significance in sludge-amended agricultural systems: Critical Reviews in Environmental Science and Technology, v. 27, p. 1-85.
97. Jones, Kevin , and Evans, Tim, 2004, Organic contaminants behavior in soil: Decomposition, form, and long-term phenomena, Sustainable Land Application Conference, Lake Buena Vista, Florida.
98. Kellog, Robert, Lander, Charles, Moffitt, David, and others, 2000, Manure nutrients relative to the capacity of cropland and pastureland to assimilate
99. Kester, Gregory, Brobst, Robert, Carpenter, Andrew, and others, 2004, Risk characterization, assessment, and management of organic pollutants in beneficially used residual products, Sustainable Land Application Conference, Lake Buena Vista, Florida.
    
    — Top of Page —
     
100. ---, 2005, Risk characterization, assessment, and management of organic pollutants in beneficially used residual products: Journal of Environmental Quality, v. 34, p. 80-90.
101. Khan, Stuart, and Ongreth, Jerry, 2002, Estimation of pharmaceutical residues in primary and secondary sewage sludge based on quantities of use and fugacity modeling: Water Science and Technology, v. 46, p. 105-113.
102. Kolpin, Dana, Furlong, Edward, Meyer, Michael, and others, 2002, Pharmaceuticals, hormones, and other organic wastewater contaminants in U.S. streams, 1999-2000: A national reconnaissance: Environmental Science and Technology, v. 36, p. 1202-1211.
103. Krogmann, U., Gibson, V., and Chess, C., 2001, Land application of sewage sludge: perceptions of New Jersey vegetable farmers: Waste Management Research, v. 19, p. 115-125.
104. Krogmann, Uta, Boyles, Lisa, Bamka, William, and others, 1999, Biosolids and sludge management: Water Environment Research, v. 71, p. 692-714.
105. Krogmann, Uta, and Chiang, Hai-Ning, 2002, Selected nutrients and heavy metals in sewage sludge from New Jersey POTWs: Journal of the American Water Resources Association, v. 38, p. 681-691.
106. Kroiss, H., 2004, What is the potential for utilizing the resources in sludge?: Water Science and Technology, v. 49, no. 10, p. 1-10.
107. Lafleur, J. , and Vena, J., 1991, Retrospective cohort mortality study of cancer among sewage plant workers: American Journal of Industrial Medicine, v. 19, p. 75-86.
108.  LaGuardia, Mark, Hale, Robert, Harvey, Ellen, and others, 2001, Alkylphenol ethoxylate degradation products in land-applied swage sludge (biosolids): Environmental Science and Technology, v. 35, p. 4798-4804.
109. Lang, Nicola, Smith, Stephen, Bellet-Travers, Marcus, and others, 2004, Pathogen decay in soil- The final barrier to enteric disease transmission, Sustainable Land Application Conference, Lake Buena Vista, Florida .
110. Larsen, K., 1984, Cadmium content in soil and crops after use of sewage sludge, Andersson, A., Berglund, S., and L'Hermite, P., Utilisation of sewage sludge on land: Rates of application and long-term effects of metals, Uppsala.
111. Larson, W., Clapp, C., Dowdy, R., and others, 1994, Rosemount watershed study on land application of municipal sewage sludge, Clapp, C., Larson, W., and Dowdy, R., Sewage Sludge: Land utilization and the environment, St. Paul.
112. Levinson, A., 1974, Introduction to Exploration Geochemistry: Wilmette, IL, Applied Publishing.
113. Lewis, David, and Gattie, David, 2002, Pathogen risk from applying sewage sludge to land : Environmental Science and Technology, v. 36, p. 287A-293A.
114. Lewis, David, Gattie, David, Novak, Marc, and others, 2002, Interactions of pathogens and irritant chemicals in land-applied sewage sludges (biosolids): BMC Public Health, v. 2, no. 11.
115. Lindsay, Billie, and Logan, Terry, 1998, Field response of soil physical properties to sewage sludge: Journal of Environmental Quality, v. 27, p. 534-542.
116. Logan, T., Henry, C., Schnoor, J., and others, 1999, An assessment of health and environmental risks of trace elements and toxic organics in land-applied municipal solid waste compost: Compost Science and Utilization, v. 7, no. 3, p. 38-53.
117. Logan, T, Lindsay, B, Goins, L, and others, 1997, Field assessment of sludge metal bioavailability to crops: Sludge rate response: Journal of Environmental Quality, v. 26, p. 534-550.
118. Macler, Bruce, 1996, Developing the ground water disinfection rule: Journal American Water Works Association, v. 88, p. 47-55.
119. Madsen, Peter, Thyme, Jesper, Henriksen, Kaj, and others, 1999, Kinetics of di-(2-ethylhexyl)phthalate mineralization in sludge-amended soil: Environmental Science and Technology, v. 33, p. 2601-2606.
120. Maguire, R, Sims, J, Dentel, S, and others, 2001, Relationships between biosolids treatment process and soil phosphorus availability: Journal of Environmental Quality, v. 30, p. 1023-1033.
121. Maine Department of Environmental Protection, 2004, Draft 2004 Maine Integrated Water Quality Report.
122. Maisonnave, V., Montrejaud-Vignoles, M., Bonnin, C., and others, 2001, The influence of biosolids treatment files on the mobility of metal trace elements: Water Science and Technology, v. 44, no. 2, p. 381-387.
123. Mansell, Jessica, and Drewes, Jorg, 2004, Fate of steroidal hormones during soil-aquifer treatment.: Ground Water Monitoring and Remediation, v. 24, p. 94-101.
124. Matthews, Peter, 1998, Sustainability in biosolids management: Water Science and Technology, v. 38, p. 97-102.
125. McBride, M. , Richards, B., and Steenhuis, T., 2004, Bioavailability and crop uptake of trace elements in soil columns amended with sewage sludge products: Plant and Soil, v. 262, p. 71-84.
     
     — Top of Page —
      
126. McBride, M. , Richards, B., Steenhuis, T., and others, 1999, Long-term leaching of trace elements in a heavily sludge-amended silty clay loam soil: Soil Science, v. 164, no. 9, p. 613-623.
127.  McBride, Murray, 2003, Toxic metals in sewage sludge-amended soils: has promotion of beneficial use discounted the risks?: Advances in Environmental Research, v. 8, p. 5-19.
128. McBride, Murray, Richards, Brian, Steenhuis, Tammo, and others, 1997, Mobility and solubility of toxic metals and nutrients in soil fifteen years after sludge application: Soil Science, v. 162, no. 7, p. 487-500.
129. McDowell, William, and Chestnut, Tamara, 2002, Monitoring demonstration at a topsoil manufacturing site in New Hampshire., New Hampshire Department of Environmental Services.
130. McGrath, S, Zhao, F, Dunham, S, and others, 2000, Long-term changes in the extractability and bioavailability of zinc and cadmium after sludge application: Journal of Environmental Quality, v. 29, p. 875-883.
131. McLeod, R, and Hegg, R, 1984, Pasture runoff quality from application of inorganic and organic nitrogen sources: Journal of Environmental Quality, v. 13, no. 1, p. 122-126.
132. Merrington, G., Oliver, I., Smernik, R., and others, 2003, The influence of sewage sludge properties on sludge-borne metal availability : Advances in Environmental Research, v. 8, p. 21-36.
133. Millner, Patricia, McConnell, Laura, Harper, Lowry, and others, 2004, Bioaerosol and VOC emissions measurements associated with land application of biosolids, Sustainable Land Application Conference, Lake Buena Vista, Florida.
134. Moreno-Caselles, Joaquin, Moral, Raul, Perez-Murcia, Marilo, and others, 2002, Nutrient values of animal manures in front of environmental hazards: Communications in Soil Science and Plant Analysis, v. 33, no. 15-18, p. 3023-3032.
135. Moss, Lynne, Epstein, Eliot, and Logan, Terry, 2002, Evaluating risks and benefits of soil amendments used in agriculture, Water Environment Research Foundation.
136. Mostaghimi, S., Younos, T., and Tim, U., 1992, Effects of sludge and chemical fertilizer applications on runoff water quality: Water Resources Bulletin, v. 28, no. 3, p. 545-552.
137. Muchi, Charles, Bell, Paul, Adamu, Charles, and others, 1987, Bioavailability of heavy metals in sludge-amended soils ten years after treatment: Recent Advances in Phytochemistry, v. 21, p. 235-259.
138. National Research Council, 2002, Biosolids Applied to Land: Washington, DC, National Academy of Sciences.
139. ---, 1996, Use of reclaimed water and sludge in food crop production: Washington, DC, National Academy of Sciences.
140. Neilsen, G. , Hogue, E., Forge, T., and others, 2003, Surface application of mulches and biosolids affect orchard soil properties after 7 years: Canadian Journal of Soil Science, v. 83, p. 131-137.
141. Nelson, S, Letey, J, Farmer, W, and others, 1998, Facilitated transport of napropamide by dissolved organic matter in sewage sludge-amended soil: Journal of Environmental Quality, v. 27, p. 1194-1200.
142. Nikolaidis, Nikolaos, and Chheda, Pradeep, 2001, Heavy metal mobility in biosolids-amended glaciated soil: Water Environment Research, v. 73, p. 80-87.
143. NIOSH, 2002, Guidance for controlling potential risks to workers exposed to Class B biosolids: Washington, D.C.
144. O'Connor, G., Elliot, H., Basta, N., and others, 2005, Sustainable land applications: an overview: Journal of Environmental Quality, v. 34, p. 7-17.
145. O'Connor, George, and McDowell, Lee, 1999, Understanding fate, transport, bioavailability, and cycling of metals in land-applied biosolids: Alexandria, VA, Water Environment Research Foundation.
146. Oberle, S., and Keeney, D., 1994, Interactions of sewage sludge with soil-crop-water systems, Clapp, C., Larson, W., and Dowdy, R., Sewage Sludge: Land utilization and the environment, St. Paul.
147. Oertel, Allen, and Nicklow, John, 2003, Evaluation of ground water denitrification at a biosolids disposal site: Environmental Monitoring and Assessment, v. 87, p. 1-31.
148. Ohio Farm Bureau, and Ohio State University, 1985, Demonstration of acceptable systems for land disposal of sewage sludge: Cincinnati, OH , U.S. Environmental Protection Agency.
149. Ongreth, Jerry, and Khan, Stuart, 2004, Drug residuals: how xenobiotics can affect water supply sources: Journal American Water Works Association, v. 96, p. 94-101.
150. Orlando, Laura, 2001, Sustainable sanitation: a global health challenge: Dollars and Sense Magazine.

     — Top of Page —
      

151. Overcash, M., Sims, R., Karl, J., and others, 2004, Overview of specific organics in beneficial reuse in land application, Sustainable Land Application Conference, Lake Buena Vista, Florida.
152. ---, 2005, Overview of specific organics in beneficial reuse in land application: Journal of Environmental Quality, v. 34, p. 29-41.
153. Peckenham, John, 2004, Biosolids Stockpile Study: University of Maine.
154. Peckenham, John, and Nadeau, James Amirbahman Aria, 2005, Biosolids Stockpile Experiment: BioCycle, v. in press.
155. Persyn, R., Glanville, T., Richard, T., and others, 2004, Environmental effects of applying composted organics to new highway embankments: Part 1. Interrill runoff and erosion: Transaction of the ASAE, v. 47, p. 463-469.
156. Pierzynski, Gary, 1994, Plant nutrient aspects of sewage sludge, Clapp, C., Larson, W., and Dowdy, R., Sewage Sludge: Land utilization and the environment, St. Paul.
157. Pierzynski, Gary, and Gehl, Katherine, 2004, Plant nutrient issues for sustainable land application, Sustainable Land Application Conference, Lake Buena Vista, Florida.
158. Pillai, S., Widmer, S., Dowd, S., and others, 1996, Occurrence of airborne bacteria and pathogen indicators during land application of sewage sludge: Applied Environmental Microbiology, v. 62, p. 296-299.
159. Pillai, Suresh, and Ricke, Steven, 2002, Bioaerosols from municipal and animal wastes: background and contemporary issues: Canadian Journal of Microbiology, v. 48, p. 681-696.
160. Pinette, Steven, 1993, Nitrate in Maine’s groundwater: Overview of the problem and major sources, Nitrogen in the Environment: Sources, Impacts, Management, Orono, Maine.
161. Pinette, Steven, Noble, William, Locke, Daniel, and others, 1999, Residential septic system impacts on groundwater quality in Maine, Maine Department of Environmental Protection.
162. Powelson, David, and Gerba, Charles, 1994, Virus removal from sewage effluents during saturated and unsaturated flow through soil columns: Water Research, v. 28, p. 2175-2181.
163. Pyke, Grantley, Becker, William, Head Richard, and others, 2003, Impacts of major point and non-point sources on raw water treatability: Denver, CO, AWWA Research Foundation.
164. Qiao, X., Luo, Y., Christie, P., and others, 2003, Chemical speciation and extractability of Zn, Cu, and Cd in two contrasting biosolids-amended clay soils: Chemosphere, v. 50, p. 823-829.
165. Rate, Andrew, Lee, Karen, and Frencj, Peter, 2004, Application of biosolids in mineral sands mine reclamation: use of stockpiled topsoil decreases metal uptake by plants.: Bioresource Technology, v. 91, p. 223-231.
166. Reilly, Maureen, 2001, The case against land application of sewage sludge pathogens: The Canadian Journal of Infectious Diseases and Medical Microbiology, v. 12, no. 4.
167. Richards, Brian, Schulte, Brenda, Heilig, Arik, and others, 2004, Environmental impacts of applying manure, fertilizer, and sewage biosolids on a dairy farm: Journal of the American Water Resources Association, v. 4, p. 1025-1042.
168. Richards, Brian, Steenhuis, Tammo, Peverly, John, and others, 1998, Effect of sludge-processing mode, soil texture and soil pH on metal mobility in undisturbed soil columns under accelerated loading: Environmental Pollution, v. 109, p. 327-346.
169. ---, 1998, Metal mobility at an old, heavily loaded sludge application site: Environmental Pollution, v. 99, p. 365-377.
170. Rodrigues, M., Maggi, L., Etchepareborda, M., and others, 2003, Nitrogen availability for maize from a rolling pampa soil after addition of biosolids: Journal of Plant Nutrition, v. 26, p. 431-441.
171. Roka, F., Muchovej, R., and Obreza, T., 2004, Assessing economic value of biosolids: Gainesville, FL, Florida Cooperative Extension Service.
172. Rosenfeld, P., and Suffet, I., 2004, Understanding odorants associated with compost, biomass facilities, and the land application of biosolids: Water Science and Technology, v. 49, no. 9, p. 193-199.
173. Rosenfeld, Paul, Henry, Charles, Dills, Russell, and others, 2001, Comparison of odor emissions from three different biosolids applied to forest soil: Water, Air, and Soil Pollution, v. 127, p. 173-191.
174. Rusin, Patricia, Maxwell, Sheri, Brooks, John, and others, 2003, Evidence for the absence of staphylococcus in land applied biosolids: Environmental Science and Technology, v. 37, p. 4027-4030.
175. Scandura, J., and Sobsey, M., 1997, Viral and bacterial contamination of groundwater from on-site sewage treatment systems: Water Science and Technology, v. 35, p. 141-146.
     
     — Top of Page —
      
176. Schafer, Anke, Ustohal, Petr, Harms, Hauke, and others, 1998, Transport of bacteria in unsaturated porous media: Journal of Contaminant Hydrology, v. 33, p. 149-169.
177. Schiffman, Susan, Walker, John, Dalton, Pam, and others, 2000, Potential health effects of odor from animal operations, wastewater treatment, and recycling of byproducts: Journal of Agromedicine, v. 7, p. 7-82.
178. Schiffman, Susan, and Williams, Mike, 2004, Science of odor as a potential health issue, Sustainable Land Application Conference, Lake Buena Vista, Florida.
179. ---, 2005, Science of odor as a potential health issue: Journal of Environmental Quality, v. 34 , p. 129-138.
180. Shepherd, M. and P. Withers, 2001, Phosphorus leaching from liquid digested sewage sludge applied to sandy soils: Journal of Agricultural Science, v. 136, p. 433-441.
181. Shober, A., Stehouwer, R., and McNeal, K., 2002, Agricultural utilization of biosolids in Pennsylvania: Assessment of biosolids effects on soil and crop quality: Pennsylvania Department of Environmental Protection.
182. Sierra Club , 2004, Sierra Club Guidance on the Land Application of Sewage Sludges.
183. Sloan, J, Dowdy, R, and Dolan, M, 1998, Recovery of biosolids-applied heavy metals sixteen years after application: Journal of Environmental Quality, v. 27, p. 1312-1317.
184. Smith, James, and Perdek, Joyce, 2004, Assessment and management of watershed microbial contaminants: Critical Reviews in Environmental Science and Technology, v. 34, p. 109-139.
185. Smith, S., 1994, Effect of soil pH on availability to crops of metals in sewage-sludge treated soils.: Environmental Pollution, v. 86, p. 5-13.
186. Snyder, Shane, Leising, Joseph, Westerhoff, Paul, and others, 2004, Biological and physical attenuation of endocrine disruptors and pharmaceuticals: implications for water reuse.: Ground Water Monitoring and Remediation, v. 24, p. 108-118.
187. Speir, T., Van Schaik, A., Percival, H., and others, 2003, Heavy metals in soil, plants and groundwater following high-rate sewage sludge application to land: Water, Air, and Soil Pollution, v. 150, p. 319-358.
188. Stacey, S., Merrington, G., and McLaughlin, M., 2001, The effect of aging biosolids on the availability of cadmium and zinc in soil: European Journal of Soil Science, v. 52, p. 313-321.
189. Stadelmann, F., and Furrer, O., 1985, Long-term effects of sewage sludge and pig slurry applications on microbiological and chemical soil properties in field experiments, Williams, J., Guidi, G., and L'Hermite, P., Long-Term effects of sewage sludge and farm slurries applications, Pisa.
190. Stehouwer, Richard, Wolf, Ann, and Doty, Willie, 2000, Chemical monitoring of sewage sludge in Pennsylvania: Variability and application uncertainty: Journal of Environmental Quality, v. 29, p. 1686-1695.
191. Stevens, Michael, Yager, Tracey, Smith, David, and others, 2003, Biosolids, soils, ground-water, and streambed-sediment data for a biosolids application area neat Deer Trail, Colorado, 1999.Stevens, Michael, Yager, Tracey, Smith, David, and others, Biosolids, soils, ground-water, and streambed-sediment data for a biosolids application area neat Deer Trail, Colorado, 1999.: Denver, CO, U.S. Geological Survey.
192. Straub, Timothy, Pepper, Ian, and Gerba, Charles, 1993, Hazards from pathogenic microorganisms in land-disposed sewage sludge: Reviews of Environmental Contamination and Toxicology, v. 132, p. 55-91.
193. Stukenberg, John, Carr, Scott, Jacobs, Lee, and others, 1993, Document long-term experience of biosolids land application programs: Alexandria, VA, Water Environment Research Foundation.
194. Switzenbaum, Michael, Moss, Lynne, Epstein, Eliot, and others, 1997, Defining biosolids stability: Journal of Environmental Engineering, v. 123, no. 12, p. 1178-1184.
195. Tester, Cecil, 1990, Organic amendment effects on physical and chemical properties of a sandy soil: Soil Science Society of America Journal, v. 54, p. 827-831.
196. The Center to Protect Workers' Rights, 2000, Biological hazards in sewage and wastewater treatment plants: Washington, D.C., CPWR.
197. Topp, Ed, and Colucci, Mike, 2004, Persistence of some estrogenic chemicals in agricultural soils, Sustainable Land Application Conference, Lake Buena Vista, Florida.
198. Tyson, J., 2002, Perceptions of sewage sludge: Water Science and Technology, v. 46, no. 4, p. 373-380.
199. U.S. Environmental Protection Agency, 2000, U.S. Environmental Protection Agency, Guide to field storage of biosolids: Washington, DC, U.S. Environmental Protection Agency.
     
     — Top of Page —
      
200. ---, 2002, Land application of biosolids, U.S. Environmental Protection Agency, Land application of biosolids: Washington, D.C., U.S. Environmental Protection Agency.
201. ---, 2003, U.S. Environmental Protection Agency, National management measures for the control of nonpoint pollution from agriculture: Washington, DC, U.S. Environmental Protection Agency.
202. Unc, Adrian, and Goss, Michael, 2003, Movement of faecal bacteria through the vadose zone: Water, Air, and Soil Pollution, v. 149, p. 327-337.
203. Vance, David, 2002, Particulate transport in groundwater part II- Bacteria.
204. Walter, Ingrid, Martinez, Fernando, Alonso, Luis, and others, 2002, Extractable soil heavy metals following the cessation of biosolids application to agricultural soil: Environmental Pollution, v. 117, p. 315-321.
205. Wan, J., Wilson, J., and Kieft, T., 1994, Influence of the gas-water interface on transport of microorganisms through unsaturated porous media: Applied and Environmental Microbiology, v. 60, p. 509-516.
206. Wang, Min-Jiang, McGrath, Steve, and Jones, Kevin, 1995, Chlorobenzenes in field soil with a history of multiple sewage sludge applications: Environmental Science and Technology, v. 29, p. 356-362.
207. Wild, S., Berrow, M., and Jones, K., 1991, The persistence of polynuclear aromatic hydrocarbons in sewage sludge amended agricultural soils: Environmental Pollution, v. 72, p. 141-157.
208. Wild, S., and Jones, K., 1992, Organic chemicals entering agricultural soils in sewage sludges: Science of the Total Environment, v. 119, p. 85-119.
209. Witherspoon, J., Adams, G., Cain, W., and others, 2004, Water Environment Research Foundation (WERF) anaerobic digestion and related processes, odor, and health effects study: Water Science and Technology, v. 50, no. 4, p. 9-16.
210. Yates, M., 1985, Septic tank density and ground water contamination: Ground Water, v. 23, p. 586-591.

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