References

Agunwamba, J.C., Egbuniwe, N., and Ademiluyi, J.O. (1992). Prediction of the dispersion number in waste stabilization, Water Res, 26, 85.

Benefield, L.D. and Randall C.W. (1980). Biological Process Design for Wastewater Treatment, Prentice-Hall, Englewood Cliffs, NJ.

Bhagat, S.K. and Proctor, D.E. (1969). Treatment of dairy manure by lagooning, J. Water Pollut. Control Fed, 41, 5.

Boulier, G.A. and Atchinson, T.J. (1975). Practical Design and Application of the Aerated-Facultative Lagoon Process, Hinde Engineering Company, Highland Park, IL.

Bowen, S.P. (1977). Performance Evaluation of Existing Lagoons, Peterborough, NH, EPA-600/2-77-085, Municipal Environmental Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Bowman, R.H. (pers. comm., 2000). West Slope Unit Leader, Water Quality Division, Colorado Department of Public Health and Environment.

Buddhavarapu, L.R. and Hancock, S.J. (1989). Advanced Treatment for Lagoons Using Lemna Technology, paper presented at the 62nd Annual Water Pollution Control Federation Conference, San Francisco, CA, October.

Burnett, C.H., Featherston, B., and Middlebrooks, E.J. (2004). Ammonia Removal in Large Aerated Lagoons, paper presented at WEFTEC Annual Meeting, Water Environment Federation, New Orleans, LA, October, 2004.

Canter, L.W. and Englande, A.J. (1970). States' design criteria for waste stabilization ponds, J. Water Pollut. Control Fed, 42(10), 1840-1847.

Chan, D.B. and Pearson, E.A. (1970). Comprehensive Studies of Solid Waste Management: Hydrolysis Rate of Cellulose in Anaerobic Digesters, SERL Report No. 70-3, University of California, Berkeley.

City of Hotchkiss (2000). Wastewater Treatment Plant, Hotchkiss, CO.

Cooper, R.C. (1968). Industrial waste oxidation ponds, Southwest Water Works J, 5, 21.

Culley, D.D. and Epps, E.A. (1973). Use of duckweed for waste treatment and animal feed, J. Water Pollut. Control Fed, 45, 337.

Downing, J.B., Bracco, E., Green, F.B., Ku, A.Y., Lundquist, T.J., Zubieta, I.X., and Oswald, W.J. (2002). Low cost reclamation using the Advanced Integrated Wastewater Pond Systems® technology and reverse osmosis, Water Sci. Technol, 45(1), 117-125.

Earnest, C.M., Vizzini, E.A., Brown D.L., and Harris J.L. (1978). Performance Evaluation of the Aerated Lagoon System at Windber, Pennsylvania, EPA-600/2-78-023, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Eckenfelder, W.W. (1961). Biological Waste Treatment, Pergamon Press, London.

Englande A.J., Jr. (1980). Performance Evaluation of the Aerated Lagoon System at North Gulfport, Mississippi, EPA-600/2-80-006, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Everall, N.C. and Lees, D.R. (1997). The identification and significance of chemicals released from decomposing barley straw during reservoir algal control, Water Res, 31, 614-620.

Fagan, J. (pers. comm., 2000). Consolidated Consulting Services, Delta, CO.

Finney, B.A. and Middlebrooks, E.J. (1980). Facultative waste stabilization pond design, J. Water Pollut. Control Fed., 52(1), 134-147.

Fritz, J.J., Middleton, A.C., and Meredith, D.D. (1979). Dynamic process modeling of wastewater stabilization ponds, J. Water Pollut. Control Fed, 51(11), 2724-2743.

Ghosh, S. and Klass, D.L. (1974). Conversion of urban refuse to substitute natural gas by the BIOGAS® process, in Proceedings of the 4th Mineral Waste Utilization Symposium, Chicago, IL, May 7-8.

Ghosh, S., Conrad, J.R., and Klass, D.L. (1974). Development of an Anaerobic Digestion-Based Refuse Disposal Reclamation System, paper presented at the 47th Annual Conference of the Water Pollution Control Federation, Denver, CO, October 6-11.

Gloyna, E.F. (1971). Waste Stabilization Ponds, Monograph Series No. 60, World Health Organization, Geneva, Switzerland.

Gloyna, E.F. (1976). Facultative waste stabilization pond design, in Ponds as a Waste Treatment Alternative, Gloyna, E.F., Malina, J.F., Jr., and Davis, E.M., Eds., Water Resources Symposium No. 9, University of Texas Press, Austin, TX.

Great Lakes-Upper Mississippi River Board of State Sanitary Engineers. (1990). Recommended Standards for Sewage Works (Ten-States Standards), Health Education Services, Inc., Albany, NY.

Green, F.B., Lundquist, T.J., and Oswald, W.J. (1995a). Energetics of advanced integrated wastewater pond systems, Water Sci. Technol, 31(12) 9-20.

Green, F.B., Bernstone, L.S., Lundquist, T.J., Muir, J., Tresan, R.B., and Oswald, W.J. (1995b). Methane fermentation, submerged gas collection, and the fate of carbon in advanced integrated wastewater pond systems, Water Sci. Technol, 31(12) 55-65.

Green, F.B., Bernstone, L.S., Lundquist, T.J., and Oswald, W.J. (1996). Advanced integrated wastewater pond systems for nitrogen removal, Water Sci. Technol., 33(7) 207-217.

Green, F.B., Liundquist, T.J., Quinn, N.W.T., Zarate, M.A., Zubieta, I.X., and Oswald, W.J. (2003). Selenium and nitrate removal from agricultural drainage using the AIWPS® technology, Water Sci. Technol, 48(2), 299-305.

Gurnham C.F., Rose, B.A., and Fetherston, W.T. (1979). Performance Evaluation of the Existing Three-Lagoon Wastewater Treatment Plant at Pawnee, Illinois, EPA-600/2-79-043, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Hill, D.O. and Shindala, A. (1977). Performance Evaluation of Kilmichael Lagoon, EPA-600/2-77-109, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Hobson, P.N., Bousfield, S., and Summers, R. (1974). Anaerobic digestion of organic matter, CRC Crit. Rev. Environ. Control, 4, 131-191.

IACR-Centre for Aquatic Plant Management (1999). Information Sheet 3: Control of Algae Using Straw, Centre for Aquatic Plant Management, Reading, Berkshire, U.K.

King, D.L. (1978). The role of ponds in land treatment of wastewater, in Proceedings of the International Symposium on Land Treatment of Wastewater, Hanover, NH, 191.

Kotze, J.P., Thiel, P.G., Toerien, D.F., Attingh, W.H.J., and Siebert, M.L. (1968). A biological and chemical study of several anaerobic digesters, Water Res, 2(3), 195-213.

Larson, T.B. (1974). A Dimensionless Design Equation for Sewage Lagoons, Ph.D. dissertation, University of New Mexico, Albuquerque.

Lemna Technologies, Inc. (1999a). News release, 2445 Park Avenue, Minneapolis, MN.

Lemna Technologies, Inc. (1999b). Brochures, 2445 Park Avenue, Minneapolis, MN.

Malina, J.F., Jr., and Rios, R.A. (1976). Anaerobic ponds, in Ponds as a Wastewater Alternative, Gloyna, E.F., Malina, J.F., Jr., and Davis, E.M., Eds., Water Resources Symposium No. 9, University of Texas Press, Austin, TX.

Mancini, J.L., and Barnhart, E.L. (1976). Industrial waste treatment in aerated lagoon, in Ponds as a Wastewater Alternative, Gloyna, E.F., Malina, J.F., Jr., and Davis, E.M., Eds., Water Resources Symposium No. 9, University of Texas Press, Austin, TX.

Mangelson, K.A. and Watters, G.Z. (1972). Treatment efficiency of waste stabilization ponds, J. Sanit. Eng. Div. ASCE, 98(SA2), 407-425.

Mara, D.D. (1976). Sewage Treatment in Hot Climates, John Wiley & Sons, New York.

Marais, G.V.R. (1970). Dynamic behavior of oxidation ponds, in Proceedings of Second International Symposium for Waste Treatment Lagoons, Kansas City, MO, June 23-25.

Marais, G.V.R. and Shaw, V.A. (1961). A rational theory for the design of sewage stabilization ponds in Central and South Africa, Trans. South African Inst. Civil Eng., 3, 205.

McAnaney, D.W. and Poole, W.D. (1997). Cold Weather Nitrification in Pond-Based Systems, Lemna USA, Inc., 2445 Park Avenue, Minneapolis, MN.

McGarry, M.C. and Pescod, M.B. (1970). Stabilization pond design criteria for tropical Asia, in Proceedings of Second International Symposium for Waste Treatment Lagoons, Kansas City, MO, June 23-25.

McKinney, R.E. (1977). Performance Evaluation of an Existing Lagoon System at Eudora, Kansas, EPA-600/2-77-167, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Meron, A. (1970). Stabilization Pond Systems for Water Quality Control, Ph.D. dissertation, University of California, Berkeley.

Metcalf & Eddy (1991). Wastewater Engineering Treatment Disposal Reuse, 3rd ed., McGraw-Hill, New York.

Metcalf & Eddy (2003). Wastewater Engineering Treatment Disposal Reuse, 4th ed., McGraw-Hill, New York.

Middlebrooks, E.J. (1985). Nitrogen removal model developed for U.S. Environmental Protection Agency, Washington, D.C.

Middlebrooks, E.J. (1987). Design equations for BOD removal in facultative ponds, Water Sci. Technol, 19, 12.

Middlebrooks, E.J. (2000). [email protected]; (fax) 303-664-5651.

Middlebrooks, E.J. and Pano, A. (1983). Nitrogen removal in aerated lagoons, Water Res, 17(10), 1369-1378.

Middlebrooks, E.J. and Procella, D.B. (1971). Rational multivariate algal growth kinetics, J. Sanit. Eng. Div. Am. Soc. Civ. Eng., SA1, 135-140.

Middlebrooks, E.J., Middlebrooks, C.H., Reynolds, J.H., Watters, G.Z., Reed, S.C., and George, D.B. (1982). Wastewater Stabilization Lagoon Design, Performance, and Upgrading, Macmillan, New York.

Monod J. (1950). La technique de culture continue: theorie et application, Ann. Inst. Pasteur, 79, 390.

Neel, J.K., McDermott, J.H., and Monday, C.A. (1961). Experimental lagooning of raw sewage, J. Water Pollut. Control Fed, 33(6), 603-641.

Nurdogan, Y. and Oswald, W.J. (1995). Enhanced nutrient removal in high-rate ponds, Water Sci. Technol, 31(12), 33-43.

Oleszkiewicz, J.A. (1986). Nitrogen transformations in an aerated lagoon treating piggery wastes, Agric. Wastes AGWADL, 16(3), 171-181.

Oswald, W.J. (1968). Advances in anaerobic pond systems design, in Advances in Water Quality Improvement, Gloyna, E.F. and Eckenfelder, W.W., Jr., Eds., University of Texas Press, Austin, TX.

Oswald, W.J. (1990a). Advanced integrated wastewater pond systems: supplying water and saving the environment for six billion people, in Proceedings of the ASCE Convention, Environmental Engineering Division, San Francisco, CA, November 5-8.

Oswald, W.J. (1990b). Sistemas Avanzados De Lagunas Integradas Para Tratamiento De Aguas Servidas (SALI), in Proceedings of the ASCE Convention, Environmental Engineering Division, San Francisco, CA, November 5-8.

Oswald, W. J. (1995). Ponds in the twenty-first century, Water Sci. Technol, 31(12), 1-8.

Oswald, W.J. (1996). A Syllabus on Advanced Integrated Pond Systems®, University of California, Berkeley.

Oswald, W. J. (2003). My sixty years in applied algology, J. Appl. Phycol, 15, 99-106.

Oswald, W.J., Golueke, C.G., and Tyler, R.W. (1967). Integrated pond systems for subdivisions, J. Water Pollut. Control Fed, 39(8), 1289.

Oswald, W.J., Meron, A., and Zabat, M.D. (1970). Designing waste ponds to meet water quality criteria, in Proceedings of Second International Symposium for Waste Treatment Lagoons, Kansas City, MO, June 23-25.

Oswald, W.J., Green, F.B., and Lundquist, T.J. (1994). Performance of methane fermentation pits in advanced integrated wastewater pond systems, Water Sci. Technol., 30(12), 287-295.

Pano, A. and Middlebrooks, E.J. (1982). Ammonia nitrogen removal in facultative wastewater stabilization ponds, J. WPCF, 54(4), 2148.

Parker, C.D. (1970). Experiences with anaerobic lagoons in Australia, in Proceedings of the Second International Symposium for Waste Treatment Lagoons, Kansas City, MO, June 23-25.

Parker, C.D., Jones, H.L., and Greene, N.C.(1959). Performance of large sewage lagoons at Melbourne, Australia, Sewage Indust. Wastes, 31(2), 133.

Parkson Corp. (pers. comm., 2004). Personal communication with Chuck Morgan and case studies from website (www.parkson.com), Ft. Lauderdale, FL.

Pearson, H.W. and Green, F.B., Eds. (1995). Waste stabilisation ponds and the reuse of pond effluents, Water Sci. Technol, 31, 12.

Polkowski, L.B. (1979). Performance Evaluation of Existing Aerated Lagoon System at Consolidated Koshkonong Sanitary District, Edgerton, Wisconsin, EPA-600/2-79-182, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Polprasert, C. and Agarwalla, B.K. (1995). Significance of biofilm activity in facultative pond design and performance, Water Sci. Technol, 31(12), 119-128.

Polprasert, C. and Bhattarai, K.K. (1985). Dispersion model for waste stabilization ponds, J. Environ. Eng. Div. ASCE, 111(EE1), 45-59.

Pump Systems, Inc. (2004). Dickinson, ND.

Racault, Y., Boutin, C., and Seguin, A. (1995). Waste stabilization ponds in France: a report on fifteen years experience, Water Sci. Technol, 31(12), 91-101.

Ramani, R. (1976). Design criteria for polishing ponds, in Advances in Water Quality Improvement, Gloyna, E.F. and Eckenfelder, W.W., Jr., Eds., University of Texas Press, Austin, TX.

Reed, S.C. (1984). Nitrogen Removal in Wastewater Ponds, CRREL Report 84-13, Cold Regions Engineering and Research Laboratory (CRREL), Hanover, NH.

Reed, S.C. (1985). Nitrogen removal in wastewater stabilization ponds, J. WPCF, 57(1), 39-45.

Reed, S.C., Crites, R.W., and Middlebrooks, E.J. (1995). Natural Systems for Waste Management and Treatment, 2nd ed., McGraw-Hill, New York.

Reid G.W. and Streebin, L. (1979). Performance Evaluation of Existing Aerated Lagoon System at Bixby, Oklahoma, EPA-600/2-79-014, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Reid, L.D., Jr. (1970). Design and Operation for Aerated Lagoons in the Arctic and Subarctic, Report 120, U.S. Public Health Service, Arctic Health Research Center, Fairbanks, AK.

Reynolds, J.H. and Middlebrooks, E.J. (1990). Aerated lagoon design equation and performance evaluation (poster presentation), Water Pollut. Res. Control, 23, 10-12.

Reynolds, T.D. and Richards, P.A. (1996). Unit Operations and Processes in Environmental Engineering, 2nd ed., PWS Publishing, New York.

Reynolds, J.H., Nielson, S.B., and Middlebrooks, E.J. (1975). Biomass distribution and kinetics of baffled lagoons, J. Environ. Eng. Div. ASCE, 101(EE6), 1005-1024.

Reynolds, J.H., Swiss, R.E., Macko, C.A., and Middlebrooks, E.J. (1977). Performance Evaluation of an Existing Seven Cell Lagoon System, EPA-600/2-77-086, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Rich, L.G. (1996). Nitrification systems for small and intermediate size communities, South Carolina Water Pollut. Control J, 26(3), 14-15.

Rich, L.G. (1999). High-Performance Aerated Lagoon Systems, American Academy of Environmental Engineers, Annapolis, MD.

Rich, L.G. (pers. comm., 2000). Department of Environmental Engineering and Science, Clemson University, Clemson, SC ([email protected]).

Russel, J.S., Reynolds, J.H., and Middlebrooks, E.J. (1980). Wastewater Stabilization Lagoon-Intermittent Sand Filter Systems, EPA 600/2-80-032, Municipal Environmental Research Laboratory, U.S. Environmental Protection Agency, Cincinnati, OH.

Shephard-Wesnitzer, Inc. (1998). Preliminary Engineering Report for Dove Creek (Colorado) Constructed Wetlands, SWI, Sedona, AZ.

Shilton, A. (1995). Ammonia volatilization from a piggery pond, in Proceedings of Symposium on Waste Stabilization Ponds: Technology and Applications, Joao Pessoa, Paraiba, Brazil.

Soares, J., Silva, S.A., De-Oliveira, R., Araujo, A.L.C., Mara, D.D., and Pearson, H.W. (1995). Ammonia Removal in a Pilot-Scale WSP Complex in Northeast Brazil, in Proceedings of Symposium on Waste Stabilization Ponds: Technology and Applications, Joao Pessoa, Paraiba, Brazil.Stratton, F.E. (1968). Ammonia nitrogen losses from streams, J. Sanit. Eng. Div. ASCE, 94, 1085-1092.

Stratton, F.E. (1969). Nitrogen losses from alkaline water impoundments, J. Sanit. Eng. Div. ASCE, 95, 223-231.

Thirumurthi, D. (1974). Design criteria for waste stabilization ponds, J. Water Pollut. Control Fed., 46, 2094-2106.

Toms, I.P., Owens, M., Hall, J.A., and Mindenhall, M.J. (1975). Observations on the performance of polishing ponds at a large regional works, Water Pollut. Control, 74, 383-401.

Uhlmann, D. (1971). Influence of dilution, sinking, and grazing rates on phytoplankton populations of hyper-fertilized ponds and ecosystems, Mitt. Internat. Verein Limnol, 19, 100-124.

USEPA. (1975). Technology Transfer Process Design Manual for Nitrogen Control, Center for Environmental Research Information, U.S. Environmental Protection Agency, Cincinnati, OH.

USEPA. (1983). Design Manual: Municipal Wastewater Stabilization Ponds, EPA 625/183-015, Center for Environmental Research Information, U.S. Environmental Protection Agency, Cincinnati, OH.

USEPA. (1985). Wastewater Stabilization Ponds: Nitrogen Removal, U.S. Environmental Protection Agency, Washington, D.C.

USEPA. (1990). Assessment of the BIOLAC Technology, EPA 430/09-90-013, Office of Water (WH-595), U.S. Environmental Protection Agency, Washington, D.C.

Walter, C.M. and Bugbee, S.L. (1974) Progress Report, Blue Springs Lagoon Study, Blue Springs, Missouri, in Upgrading Wastewater Stabilization Ponds To Meet New Discharge Standards, Middlebrooks, E.J., Ed., Utah State University Press, Logan.

WEF/ASCE. (1991). Design of Municipal Wastewater Treatment Plants, Vols. 1 and 2, Water Environment Federation and American Society of Civil Engineers Washington, D.C.

Wehner, J.F. and Wilhelm, R.H. (1956). Boundary conditions of flow reactor, Chem. Eng. Sci., 6, 89-93.

WHO. (1987). Wastewater Stabilization Ponds: Principles of Planning and Practice, WHO Tech. Publ. 10, Regional Office for the Eastern Mediterranean, World Health Organization, Alexandria. Wolverton, B.C., and McDonald, R.C. (1979). Upgrading facultative wastewater lagoons with vascular aquatic plants, J. Water Pollut. Control Fed, 51(2), 305. Wrigley, J.J. and Toerien, D.F. (1990). Limnological aspects of small sewage ponds,

Water Res, 24(1), 83-90. Zirschky, J. and Reed, S.C. (1988). The use of duckweed for wastewater treatment, J. Water Pollut. Control Fed., 60, 1253.

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