The content presented here represents the most current version of this section, which was printed in the 24th edition of Standard Methods for the Examination of Water and Wastewater.

8111 BIOSTIMULATION (ALGAL PRODUCTIVITY)

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8111 A. General Principles References
1 Environment Canada. 2007. Biological test method: Growth inhibition tests using the freshwater alga Selenastrum capricornutum; Rep. EPS 1/RM/25, 2nd ed. Environment Canada, Ottawa, Ont. Google Scholar
8111 A. General Principles Bibliography
Pham TPT, Cho CW, Vijayaraghavan K, Min J, Yun YS. Effect of imidazolium-based ionic liquids on the photosynthetic activity and growth rate of Selenastrum capricornutum. Environ Toxicol Chem. 2008;27(7):15831589. Google Scholar
8111 B. Planning and Evaluating Algal Assays References
1 Miller WE, Greene JC, Shiroyama T. The Selenastrum capricornutum Printz Algal Assay Bottle Test: Experimental design, application, and data interpretation protocol; EPA-600/9-78-018.Corvallis (OR): U.S. Environmental Protection Agency, Environmental Research Laboratory; 1978. Google Scholar
2 National Eutrophication Research Program. Algal assay procedure: bottle test. Corvallis (OR): U.S. Environmental Protection Agency, Pacific Northwest Environmental Research Laboratory; 1971. Google Scholar
8111 B. Planning and Evaluating Algal Assays Bibliography
McGauhey PH, Porcella DB, Dugan GL. Eutrophication of surface waters—Indian Creek reservoir; First Progress Rep., FWQA Grant No. 16010 DNY. Corvallis (OR): U.S. Environmental Protection Agency, Pacific Northwest Environmental Research Laboratory; 1970. Google Scholar
Maloney TE, Miller WE, Shiroyama T. Algal responses to nutrient additions in natural waters. American Society of Limnology & Oceanography. Special symposium on nutrients and eutrophication: limiting-nutrient controversy. 1971;1:134. Google Scholar
Miller WE, Maloney TE. Effects of secondary and tertiary wastewater effluents on algal growth in a lake-river system. J Water Pollut Control Fed. 1971;43(12):23612365. Google Scholar
Maloney TE, Miller WE, Blind NL. Use of algal assays in studying eutrophication problems. Proceedings of the 6th International Conference on Water Pollution Research. New York (NY): Pergamon Press; 1972, p. 205. Google Scholar
Scherfig J, Dixon PS, Appleman R, Justice CA. Effect of phosphorus removal processes on algal growth; Ecological Research Series. 660/3-73-015. U.S. Environmental Protection Agency. 1973. Google Scholar
Miller WE, Maloney TE, Greene JC. Algal productivity in 49 lakes as determined by algal assays. Water Res. 1974;8(9):667679. Google Scholar
Specht DT. 1975. Seasonal variation of algal biomass production potential and nutrient limitation in Yaquina Bay, Oregon. In: Middlebrooks EJ, Falkenborg DH, Maloney TE, eds. Proceedings of the Workshop on Biostimulation and Nutrient Assessment, Utah State University, Logan, 1975 Sept 10–12; PRWG 168-1. Google Scholar
Davis J, DeCosta J. The use of algal assays and chlorophyll concentrations to determine fertility of water in small impoundments in West Virginia. Hydrobiologia. 1980;71:1934. Google Scholar
McCoy GA. Nutrient limitation in two arctic lakes, Alaska. Can J Fish Aquat Sci. 1983;40(8):11951202. Google Scholar
Novak JT, Brune DE. Inorganic carbon limited growth kinetics of some freshwater algae. Water Res. 1985;19(2):215225. Google Scholar
Gophen M, Gophen M. Trophic relations between two agents of sewage purification systems: Algae and mosquito larvae. Agr Wastes. 1986;15(3):159168. Google Scholar
Greene JC, Miller WE, Merwin E. Effects of secondary effluents on eutrophication in Las Vegas Bay, Lake Mead, Nevada. Water Air Soil Pollut. 1986;29:391402. Google Scholar
Langis R, Couture P, de la Noue J, Methot N. Induced responses of algal growth and phosphate removal by three molecular weight DOM fractions from a secondary effluent. J Water Pollut Control Fed. 1986;58(11):10731077. Google Scholar
Yusoff FM, McNabb CD. Effects of nutrient availability on primary productivity and fish production in fertilized tropical ponds. Aquaculture. 1989;78(3-4):303319. Google Scholar
8111 C. Apparatus References
1 Miller WE, Greene JC, Shiroyama T. The Selenastrum capricornutum Printz Algal Assay Bottle Test: Experimental design, application, and data interpretation protocol; EPA-600/9-78-018. Corvallis (OR): U.S. Environmental Protection Agency, Environmental Research Laboratory; 1978. Google Scholar
8111 D. Sample Handling Reference
1 Miller WE, Greene JC, Shiroyama T. The Selenastrum capricornutum Printz Algal Assay Bottle Test: Experimental design, application, and data interpretation protocol; EPA-600/9-78-018. Corvallis (OR): U.S. Environmental Protection Agency, Environmental Research Laboratory; 1978. Google Scholar
8111 G. Test Conditions and Procedures Bibliography
Weiss CM, Helms RW. Interlaboratory precision test—an eight laboratory evaluation of the provisional algal assay procedure: bottle test. Chapel Hill (NC): Dept. of Environmental Science & Engineering, School of Public Health, University of North Carolina; 1971. Google Scholar
Jordan C,Dinsmore P. Determination of biologically available phosphorus using a radiobioassay technique. Freshwater Biol. 1985;15(5): 597603. Google Scholar
8111 H. Effect of Additions Bibliography
Klotz RL. Influence of light on the alkaline phosphatase activity of Selenastrum capricornutum (Chlorophyceae) in streams. Can J Fish Aquat Sci. 1985;42(2):384388. Google Scholar
Kuwabara JS, Davis JA, Chang CCY. Algal growth response to particle-bound orthophosphate and zinc. Limnol Oceanogr. 1986;31(3):503511. Google Scholar
Storch TA, Dunham VL. Iron-mediated changes in the growth of Lake Erie phytoplankton and axenic algal cultures. J Phycol. 1986;22(2): 109117. Google Scholar
Williams TG, Turpin DH. 1987. Photosynthetic kinetics determine the outcome of competition for dissolved inorganic carbon by freshwater microalgae: Implications for acidified lakes. Oecologia. 1987;73: 307311. Google Scholar
Ellis BK, Stanford JA. Phosphorus bioavailability of fluvial sediments determined by algal assays. Hydrobiologia. 1988;160:918. Google Scholar
Ankley GT, Katko A, Arthur JW. Identification of ammonia as an important sediment-associated toxicant in the lower Fox River and Green Bay, Wisconsin. Environ Tox Chem. 1990;9(3):313322. Google Scholar
Braband A, Faafenc BA, Nilssen JPM. Relative importance of ­phosphorus supply to phytoplankton production: Fish excretion ­versus external loading. Can J Fish Aquat Sci. 1990;47(2): 364372. Google Scholar
Carr OJ, Goulder R. Fish-farm effluents in rivers: II. Effects on inorganic nutrients, algae and the macrophyte Ranunculus penicillatus. Water Res. 1990;24(5):639647. Google Scholar
Engler DL, Sarnelle O. Algal use of sedimentary phosphorus from an Amazon floodplain lake: Implications for total phosphorus analysis in turbid waters. Limnol Oceanogr. 1990;35(2):483490. Google Scholar
Ireland FA, Judy BM, Lower WR, Thomas MW, Krause GF. ­Characterization of eight soil types using the Selenastrum capricornutum bioassay. In: Plants for toxicity assessment, Vol. 2; STP 1115. West Conshohocken (PA): ASTM International; 1991, p. 217. Google Scholar
Dierberg FE. Decomposition of desiccated submersed aquatic vegetation and bioavailability of released phosphorus. Lake Reserv Manage. 1993;8(1):3136. Google Scholar
Djomo JE, Dauta A, Moreau F. Bioassessment of the eutrophication potential in relation to phosphorus leaching from petroleum drilling muds [in French]. Ann Limnol. 1993;29(1):103109. Google Scholar
8111 I. Data Analysis and Interpretation Reference
1 Eutrophication and Lake Restoration Branch. Marine algal assay procedure: bottle test. Corvallis (OR): U.S. Environmental Protection Agency, Pacific Northwest Environmental Research Laboratory; 1974. Google Scholar

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Standard Methods Committee of the American Public Health Association, American Water Works Association, and Water Environment Federation. 8111 biostimulation (algal productivity) In: Standard Methods For the Examination of Water and Wastewater. Lipps WC, Baxter TE, Braun-Howland E, editors. Washington DC: APHA Press.

DOI: 10.2105/SMWW.2882.158

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