BIOLOGICAL METHODS Goldman, C. R., <strong>and</strong> R. C. Carter. 1965. An investigation by rapid Carbon-14 bioassay <strong>of</strong>factors affecting <strong>the</strong> cultural eutrophication <strong>of</strong> Lake Tahoe, Cali<strong>for</strong>nia-Nevada. J. WPCF, 37(7): 1044-1059. Goldman, C. R. 1969. Measurements (in situ) on isolated samples <strong>of</strong> natural communities, bioassay technique <strong>for</strong> nutrient limiting factors. In: A manual on <strong>methods</strong> <strong>for</strong> <strong>measuring</strong> primary production in aquatic environments (R. A. Vollenweider, ed.) IBP H<strong>and</strong>book, No. 12. F. A. Davis, Philadelphia. pp. 79-81. Goldman, C. R. 1963. Measurement <strong>of</strong> primary productivity <strong>and</strong> limiting factors in freshwater with C-14. In: Proc. conf. on primary productivity measurement, marine <strong>and</strong> freshwater (M. S. Doty, ed.) Univ. <strong>of</strong> Hawaii, Aug.-Sept. 1961. U. S. Atomic Energy Commission, Div. Tech. Inf. T.LD. 7633, 103-113. Goldman, C. R. 1968. The use <strong>of</strong> absolute activity <strong>for</strong> eliminating serious errors in <strong>the</strong> measurement <strong>of</strong> primary productivity with C-14. J. Cons. Int. Explor. Mer. 32: 172-179. Jenkins, D. 1965. Determination <strong>of</strong> primary productivity <strong>of</strong> turbid waters with carbon-14. J. WPCF, 37: 1281-1288. Jitts, H. R., <strong>and</strong> B. D. Scott. 1961. The determination <strong>of</strong> zero-thickness activity in geiger counting <strong>of</strong> C14 solutions used in marine productivity studies. Lirnnol. Oceanogr. 6:116-123. Jitts, H. R. 1963. The st<strong>and</strong>ardization <strong>and</strong> comparison <strong>of</strong> measurements <strong>of</strong> primary production by <strong>the</strong> carbon-14 technique. In: Proc. Conf. on Primary Productivity Measurement, Marine <strong>and</strong> Freshwater (M. S. Doty,ed.) Univ. <strong>of</strong> Hawaii, Aug.-Sept. 1961. U. S. Atomic Energy Commission, Div. Tech. Inf. T.LD. 7633, 103-113. Joint Industry/Government Task Force <strong>of</strong> Eutrophication. 1969. Provisional algal assay procedure. pp.I6-29. McAllister, C. D. 1961. Decontamination <strong>of</strong> filters in <strong>the</strong> C14 method <strong>of</strong> <strong>measuring</strong> marine photosyn<strong>the</strong>sis. Limnol. Oceanogr. 6(3):447-450. Odum, H. T. 1956. Primary production in flowing water. Limnol. Oceanogr. 1(2):102-117. Odum, H. T. 1957. Primary production measurements in eleven Florida springs <strong>and</strong> a marine turtle grass community. Limnol. Oceanogr.2(2):85-97. Odum, H. T., <strong>and</strong> C. M. Hoskin. 1958. Comparative studies on <strong>the</strong> metaboliSm <strong>of</strong> marine waters. Pub!. Inst. Mar. Sci., Univ. <strong>of</strong> Texas, 5:16-46. Owens, M., <strong>and</strong> R. W. Edwards. 1963. Some oxygen studies in <strong>the</strong> River Lark. Proc. Soc. <strong>for</strong> Water Treatment <strong>and</strong> Examination, 12:126-145. Park, K., D. W. Hood, <strong>and</strong> H. T. Odum. 1958. Diurnal pH variation in Texas bays <strong>and</strong> its application to primary production estimation. PubL Inst. Mar. Sci., Uillv. Texas, 5:47-64. Rodhe, W., R. A. Vollenweider, <strong>and</strong> A. Nauwerck. 1958. The primary production <strong>and</strong> st<strong>and</strong>ing crop <strong>of</strong> phytoplankton. In: Perspectives in Marine Biology (A. A. Buzzati-Traverso, ed.), Uillv. <strong>of</strong> Cali<strong>for</strong>nia Press. pp. 299-322. Saijo, Y., <strong>and</strong> S. Ichimura. 1963. A review <strong>of</strong> recent development <strong>of</strong> techniques <strong>measuring</strong> primary production. In: Proc. conf. on primary productivity measurement, marine <strong>and</strong> freshwater (S. Doty, ed.) Univ. Hawaii, Aug.-Sept. 1961. U. S. Atomic Energy Commission, Div. Tech. Inf. Ll.D. 7633, 91-96. Steeman-Neilson, E. 1952. The use <strong>of</strong> radioactive carbon (C-14) <strong>for</strong> <strong>measuring</strong> organic production in <strong>the</strong> sea. J. Cons. Int. Explor. Mer. 18: 117-140. Strickl<strong>and</strong>, J. D. H., <strong>and</strong> T. R. Parsons, 1968. A practical h<strong>and</strong>book <strong>of</strong> seawater analysis. Fish. Res. Bd. Canada, Bull. No. 167, 311 pp. Talling, J. F., <strong>and</strong> G. E. Fogg. 1959. Measurements (in situ) on isolated samples on natural communities, possible limitations <strong>and</strong> artificial modifications. In: A manual <strong>of</strong> <strong>methods</strong> <strong>for</strong> <strong>measuring</strong> primary production in aquatic environments (R. A. Vollenweider, ed.) IBP H<strong>and</strong>book, No. 12, F. A. Davis, Philadelphia. pp. 73-78. Thomas, W. H. 1963. Physiological factors affecting <strong>the</strong> interpretation <strong>of</strong> phytoplankton production measurements. In: Proc. conf. on primary productivity measurement, marine <strong>and</strong> freshwater (M. S. Doty, ed.) Univ. Hawaii, Aug.-Sept. 1961. U. S. Atomic Energy Commission, Div. Tech. Inf. T.l.D. 7633, 147-162. Verduin, J. 1952. Photosyn<strong>the</strong>sis <strong>and</strong> growth rates <strong>of</strong> two diatom communities In western Lake Erie. Ecology, 33(2): 163-168. Westlake, D. F., M. Owens, <strong>and</strong> 1. F. Talling. 1969. Measurements on non-isolated natural communities. In: A manual on <strong>methods</strong> <strong>for</strong> <strong>measuring</strong> primary production in aquatic environments (R. A. Vollenweider, ed.) IBP H<strong>and</strong>book, No. 12. F. A. Davis, Philadelphia. pp.90-100. 20
PERIPHYIOI
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... EPA-610/4-13 -001 July 1973 BIO
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• FOREWORD Man and his environmen
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Name Anderson, Max Arthur, John W.
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The role of aquatic biology in the
- Page 9 and 10: FOREWORD 1 PREFACE CONTENTS BIOLOGI
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- Page 73 and 74: 3.0 REFERENCES MACROPHYTON Blackbur
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MACROINVERTEBRATE REFERENCES Hauber
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MACROINVERTEBRATE REFERENCES Robert
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FISH
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Deepwater seInIng usually requires
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BIOLOGICAL METHODS (Lonchocarpus ni
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BIOLOGICAL METHODS Figure 4. Gill n
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BIOLOGICAL METHODS the major univer
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BIOLOGICAL METHODS 7.0 BIBLIOGRAPHY
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Freshwater: Northeast FISH REFERENC
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FISH REFERENCES U.S. Department of
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BIOASSAY 1.0 GENERAL CONSIDERATIONS
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BIOLOGICAL METHODS When making wast
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BIOLOGICAL METHODS TABLE 1. STOCK C
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BIOLOGICAL METHODS the concentratio
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BIOLOGICAL METHODS Dimick, R. E., a
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Laboratory in Newtown, Ohio. Groups
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taining some yellow pigment, coarse
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Appendix A Test (Evansville, Indian
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2.3 Food Use a good frozen trout fo
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BIOLOGICAL METHODS 3.5 Methods When
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APPENDIX
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Item Source Cat. No. Unit Approx. C
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2.3 Fish Sources of information on
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Definitions In its original concept
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To Minims _ Liquid Ounces _ Gills _