The role of prediction in limnology1
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[1] U. Borgmann. Predicting the effect of toxic substances on pelagic ecosystems , 1985 .
[2] John T. Lehman,et al. The effect of changes in the nutrient income on the condition of Lake Washington1 , 1981 .
[3] W. Calder. Size, Function, and Life History , 1988 .
[4] R. W. Sheldon,et al. The Size Distribution of Particles in the OCEAN1 , 1972 .
[5] F. H. Rigler,et al. Recognition of the Possible: An Advantage of Empiricism in Ecology , 1982 .
[6] K. Popper. The Poverty of Historicism , 1959 .
[7] J. Kalff,et al. SIZE‐DEPENDENT PHOSPHORUS UPTAKE KINETICS AND CELL QUOTA IN PHYTOPLANKTON 1 , 1982 .
[8] W. C. Leggett,et al. Empirical Prediction of Fish Biomass and Yield , 1982 .
[9] D. Canfield,et al. Relationships between Zooplankton Abundance and Chlorophyll a Concentrations in Florida Lakes , 1984 .
[10] R. T. Oglesby,et al. Phosphorus loadings to lakes and some of their responses. Part 1. A new calculation of phosphorus loading and its application to 13 New York lake 1 , 1978 .
[11] R. Peters. From Natural History to Ecology , 2015 .
[12] R. T. Oglesby. Relationships of Fish Yield to Lake Phytoplankton Standing Crop, Production, and Morphoedaphic Factors , 1977 .
[13] V. Smith,et al. Low Nitrogen to Phosphorus Ratios Favor Dominance by Blue-Green Algae in Lake Phytoplankton , 1983, Science.
[14] D. Schlesinger,et al. Empirical Predictors of Annual Surface Water Temperature Cycles in North American Lakes , 1983 .
[15] Gene E. Likens,et al. Beyond the shoreline: A watershed-ecosystem approach: With 13 figures and 2 tables in the text , 1984 .
[16] Gertrud K. Nürnberg,et al. The prediction of internal phosphorus load in lakes with anoxic hypolimnia1 , 1984 .
[17] R Lewin,et al. Santa Rosalia Was a Goat: Ecologists have for two decades made assumptions about the importance of competition in community organization; that idea is now under vigorous attack. , 1983, Science.
[18] M. Sakamoto,et al. Primary production by phytoplankton community in some Japanese lakes and its dependence on lake depth , 1966 .
[19] John R. Jones,et al. Factors Affecting the Relation Between Phosphorus and Chlorophyll a in Midwestern Reservoirs , 1983 .
[20] Daniel Simberloff,et al. Competition Theory, Hypothesis-Testing, and Other Community Ecological Buzzwords , 1983, The American Naturalist.
[21] J. Gore,et al. Predictive Models of Benthic Macroinvertebrate Density for Use in Instream Flow Studies and Regulated Flow Management , 1981 .
[22] R. Peters,et al. An Allometric Model for Pesticide Bioaccumulation , 1982 .
[23] Val H. Smith,et al. Nutrient dependence of primary productivity in lakes1 , 1979 .
[24] C. Forsberg,et al. EUTROPHICATION PARAMETERS AND TROPHIC STATE INDICES IN 30 SWEDISH WASTE-RECEIVING LAKES , 1980 .
[25] F. Rigler. THE PHOSPHORUS FRACTIONS AND THE TURNOVER TIME OF INORGANIC PHOSPHORUS IN DIFFERENT TYPES OF LAKES,1 , 1964 .
[26] Val H. Smith,et al. The nitrogen and phosphorus dependence of algal biomass in lakes: An empirical and theoretical analysis1 , 1982 .
[27] R. Ryder,et al. A Method for Estimating the Potential Fish Production of North-temperate Lakes , 1965 .
[28] James H. Brown. Two Decades of Homage to Santa Rosalia: Toward a General Theory of Diversity , 1981 .
[29] D. Canfield,et al. Prediction of Chlorophyll a Concentrations in Florida Lakes: Importance of Aquatic Macrophytes , 1984 .
[30] K. Popper,et al. Conjectures and refutations;: The growth of scientific knowledge , 1972 .
[31] R. Stauffer. Relationships between phosphorus loading and trophic state in calcareous lakes of southeast Wisconsin , 1985 .
[32] R. Peters. Size Structure of the Plankton Community Along the Trophic Gradient of Lake Memphremagog , 1983 .
[33] M. Pace. An empirical analysis of zooplankton community size structure across lake trophic gradients1 , 1986 .
[34] Robert H. Peters,et al. Empirical analysis of zooplankton filtering and feeding rates1 , 1984 .
[35] J. Kalff,et al. Phosphorus competition among phytoplankton: A reply , 1985 .
[36] R. Peters. The Ecological Implications of Body Size , 1983 .
[37] E. Prepas,et al. Improvements in Quantifying the Phosphorus Concentration in Lake Water , 1982 .
[38] K. Popper. Objective Knowledge: An Evolutionary Approach , 1972 .
[39] J. Stockner,et al. Whole-Lake Fertilization Experiments in Coastal British Columbia Lakes: Empirical Relationships between Nutrient Inputs and Phytoplankton Biomass and Production , 1985 .
[40] R. D. Gulati,et al. Zooplankton and its grazing as indicators of trophic status in Dutch lakes , 1983, Environmental monitoring and assessment.
[41] C. N. Slobodchikoff,et al. A New Ecology: Novel Approaches to Interactive Systems , 1984 .
[42] D. Schindler. Evolution of phosphorus limitation in lakes. , 1977, Science.
[43] M. Charlton. Hypolimnion Oxygen Consumption in Lakes: Discussion of Productivity and Morphometry Effects , 1980 .
[44] J. Barica. Summerkill Risk in Prairie Ponds and Possibilities of its Prediction , 1975 .
[45] R. Peters,et al. Microhabitat–Preference Curves of Blackfly Larvae (Diptera: Simuliidae): A Comparison of Three Estimation Methods , 1986 .
[46] John R. Jones,et al. Sources of Variability in Phosphorus and Chlorophyll and Their Effects on Use of Lake Survey Data , 1984 .
[47] F. Rigler. The Relation between Fisheries Management and Limnology , 1982 .
[48] David W. Schindler,et al. Experimental Lakes Area: Whole-Lake Experiments in Eutrophication , 1974 .
[49] S. Hurlbert. Pseudoreplication and the Design of Ecological Field Experiments , 1984 .
[50] P. Dillon,et al. An Evaluation of Phosphorus‐Chlorophyll‐Phytoplankton Relationships for Lakes , 1978 .
[51] R. Carlson. A trophic state index for lakes1 , 1977 .
[52] U. Borgmann,et al. Particle-Size-Conversion Efficiency and Contaminant Concentrations in Lake Ontario Biota , 1983 .
[53] S. R. Kerr,et al. Theory of Size Distribution in Ecological Communities , 1974 .
[54] Kenneth H. Reckhow,et al. Engineering approaches for lake management , 1983 .
[55] D. Spence,et al. zonation of plants in freshwater lakes , 1982 .
[56] F. Rigler,et al. Hypolinimetic Oxygen Deficits: Their Prediction and Interpretation , 1979, Science.
[57] F. H. Rigler,et al. The phosphorus‐chlorophyll relationship in lakes1,2 , 1974 .
[58] V. Smith. Predictive models for the biomass of blue-green algae in lakes , 1985 .
[59] A. Morin. Variability of Density Estimates and the Optimization of Sampling Programs for Stream Benthos , 1985 .
[60] K. Patalas. The crustacean plankton communities of fourteen North American great lakes: With 5 figures and 1 table in the text , 1975 .
[61] S. Chapra,et al. A chlorophyll a model and its relationship to phosphorus loading plots for lakes , 1976 .
[62] J. Downing,et al. Aggregation, Transformation, and the Design of Benthos Sampling Programs , 1979 .