Previous Page Table of Contents

References

Abramson, N.J. (1971). Computer programs for fish stock assessment. FAO Fish.Tech.Pap., (101):80 p.

Anon (1981). Methods of collecting and analyzing size and age data for fish stock assessment. FAO Fish.Circ., (736):100 p.

Baird, J.W. and S.C. Stevenson (1983). Levels of precision - sea versus shore sampling. In Doubleday W.G. and D. Rivard (eds). Sampling commercial catches of marine fish and invertebrates. Can.Spec.Publ.Fish.Aquat.Sci., (66):185–188

Basson, M., A.A. Rosenberg and J.R. Beddington (1988). The accuracy and reliability of two new methods for estimating growth parameters from length-frequency data. J.Cons.Int.Explor.Mer, 44(3):277–285

Bazigos, G.P. (1974). The design of fisheries statistical surveys - inland waters. FAO Fish.Tech.Pap., (133):122 p.

Beddington, J.R. and J.G. Cooke (1981). Development of an assessment technique for male sperm whales based on length data in the catches, with special reference to the North-West Pacific stock. Rep.Int.Whaling Comm., (31):747–60

Beverton, R.J.H. (1963). Maturation, growth and mortality of clupeoid and engraulid stocks in relation to fishing. Rapp.P.-V.Réun. Cons.Int.Explor.Mer, (154):44–67

Beverton, R.J.H. and S.J. Holt (1956). A review of the methods for estimating mortality rates in fish populations, with special reference to sources of bias in catch sampling. Rapp.P.-V.Réun. Cons.Int.Explor.Mer, (140):67–83

Beverton, R.J.H. and S.J. Holt (1957). On the dynamics of exploited fish populations. Fish.Invest., Lond., Ser. II., 19:533 p.

Beverton and Holt (1959). A review of the lifespans and natural mortality rates of fish in nature and their relation to growth and other physiological characteristics. In Wolstenholme, G.E.W. and M. O'Connor (eds.). CIBA Colloquium on ageing, Vol.5:142–180

Beverton, R.J.H. and S.J.Holt (1964). Tables of yield functions for fishery assessment. FAO Fish.Tech.Pap., (38):49 p.

Bhatacharaya, C.G. (1967). A simple method for resolution of distribution in Gaussian components. Biometrics, 23:115–135

Brothers, E.B. (1981). What can otolith microstructure tell us about daily and subdaily events in the early life history of fish? Rapp.P.-V.Réun.Cons.Int.Explor.Mer, 178:393–394

Burns, T.S., R. Schultz, and B.C. Brown (1983). The commercial catch sampling programme in the northeastern United States. In Doubleday W.G. and D. Rivard (eds). Sampling commercial catches of marine fish and invertebrates. Can.Spec.Publ.Fish.Aquat.Sci., (66):82–96

Burr, R.L. (1988). Inferring the distribution of the parameters of the von Bertalanffy growth model from length moments, Can.J.Fish.Aquat.Sci., 45(1): 1779–1788

Cadima, E.L. (1978). The effect of the change in the age of first capture. FAO Fish.Circ., (701):41–47

Campana, S.E. and J.D. Neilson (1985). Microstructure of fish otoliths. Can.J.Fish.Aquat.Sci., 42(5):1014–1032

Cassie, R.M. (1954). Some uses of probability paper in the analysis of size frequency distributions. Aust.J.Mar.Freshwat.Res., 5(3): 513–522

Cochran, W.G. (1953). Sampling techniques. New York, Wiley, 330 p.

Cooke, J.G. and J.R. Beddington (1982). Further development of an assessment technique for male sperm whales based on length data from catches. Rep.Int.Whaling Comm., 32:239–241

Crittendon. R. and V. Gallucci (1988). Unbiased estimation of Z/K in length composition analysis. College Park, MD, Collaborative Research Support Program, University of Maryland, 15 p.

Csirke, J. and J.F. Caddy (1983). Production modelling using mortality estimates. Can.J.Fish.Aquat.Sci., 40(1):43–51

Damm, U. (1987). Some modifications of Ebert's method to estimate growth and mortality parameters from average lengths in a population. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:45–51

Doubleday, W.G. and D. Rivard (eds.) (1983). Sampling commercial catches of marine fish and invertebrates. Can.Spec.Publ.Fish. Aquat.Sci., (66):290 p.

Ebert, T.A. (1981). Estimating mortality from size from growth parameters and a size distribution when recruitment is periodic. Limnol.Oceanogr., 26(4):764–769

Ebert, T.A. (1987). Estimating growth and mortality parameters by nonlinear regression using average size in catches. In Pauly D. and G.R.Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:35–44.

Fournier, D.A., J.R. Sibert, J. Majkowski and J. Hampton (1990). MULTIFAN a likelihood-based method for estimating growth-parameters and age composition from multiple length frequency data sets illustrated using data for southern bluefin tuna (Thunnus maccoyii) Can.J.Fish.Aquat.Sci., 47(2):301–317

Fridriksson, A. (1934). On the calculation of age-distribution within a stock of cod by means of relatively few age-determinations as a key to measurements on a large scale. Rapp.P.-V.Cons.Int.Explor.Mer, 86(6):1–14

Fry, F.E.J. (1949). Statistics of a lake trout fishery. Biometrics, 5(1):27–67

Garcia, S. and E. Josse (1988). Notes on the assessment of stocks of small pelagic species on the basis of length frequency analysis and converted catch curves. Fishbyte, 6(1):16–18

Garcia, S. and L. Le Reste. Life cycles, dynamics, exploitation and management of coastal penaeid shrimp stocks. FAO Fish.Tech.Pap., (203):180 p.

Gulland, J.A. (1956). The English hake fishery with particular reference to the effect of fishing on the stock. ICES Statutory Meeting 1956, ICES Gadoid Fish Comm.Doc., (36):15 p.

Gulland, J.A. (1961a). The estimation of the effect on catches of changes in gear selectivity. J.Cons.Int.Explor.Mer, 26(2):204–214

Gulland, J.A. (1961b). Fishing and the stocks of fish at Iceland. Fish.Invest.Lond., 23(4):41 p.

Gulland, J.A. (1964). A note on the interim effects on catches of changes in gear selectivity. J.Cons.Int.Explor.Mer, 29(1):61–64

Gulland, J.A. (1965). Estimation of mortality rates. Annex to Arctic Fisheries Working Group report. (ICES Council Meeting papers), ICES Gadoid Fish.Comm., CM 3:9 p.

Gulland, J.A. (1966). Manual of sampling and statistical methods for fisheries biology. Part 1. Sampling methods. FAO Man.Fish.Sci., (3): 87 p.

Gulland, J.A. (1983). Fish stock assessment. A manual of basic methods. Chichister, John Wiley, FAO/Wiley Ser.Food Agric., 1:223 p.

Gulland, J.A. (1987). On using the ELEFAN system. (Letter to the editor). Fishbyte, 5(1):4–6

Gulland, J.A. and B.J. Rothschild (1984). Penaeid shrimps - their biology and management. Famham, Fishing News (Books), 308 p.

Harden Jones, F.R. (1968). Fish migration. London, Arnold, 325 p.

Harding, J.P. (1949). The use of the probability paper for graphical analysis of polymodal frequency distribution. J.Mar.Biol.Assoc.U.K., 28(1):141–153

Hasselblad, V. (1966). Estimation of parameters for a mixture of normal frequency distributions. Technometrics, 8:431–446

Henderson, H.F. (1972). The dynamics of the mean-size statistic in a changing fishery. FAO.Fish.Tech.Pap., (116):16 p.

Hoenig, J.M. (1987). Estimation of growth and mortality parameters for use in length-structured production models. In Pauly D. and G.R.Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:121–128

Hoenig, J.M., J. Csirke, M.J. Sanders, A. Abella, M.G. Andreoli, D. Levi, S. Ragonese, M. Al-Shoushani and M.M. el-Musa (1987). Data acquisition for length-based stock assessment. Report of Working Group 1. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:343–352

Hoenig, J.M. (1987). Age-to-length conversions (Letter to the editor). Fishbyte, 5(1):2–4

Holden, M.J. and D.F.S. Raitt (eds) (1974). Manual of fishery science. Part 2. Methods of resource investigations and their application. FAO Fish.Tech.Pap., (115)Rev.1:214 p.

Jones, R. (1981). The use of length composition data in fish stock assessments (with notes on VPA and cohort analysis). FAO Fish.Circ., (734):60 p.

Jones, R. (1984). Assessing the effects of changes in exploitation pattern using length composition data. FAOFish.Tech.Pap., (256):110p.

Jones, R. (1984). Assessing the effect of changes in exploitation patterns using length composition data (with notes on VPA and cohort analysis). FAO Fish.Tech.Pap., (256):118 p.

Kimura, D.K. and S.Chikuni (1987). Mixtures of empirical distributions: an iterative application of the age-length key. Biometrics, 43(1):23–37

Kutkuhn, J.H. (1963). Estimating absolute age composition of California salmon landings. Fish.Bull.Calif.Fish Game, (120):47 p.

Lai, H.L. (1987). Optimum allocation for estimating age composition using age-length key. Fish.Bull., 85(2):179–183

Lai, H.L. and V.F.Gallucci (1987). Users guide for the program LCAN. College Park, MD, Collaborative Research Support Program, University of Maryland, Work.Pap. (12)

Lai, H.L. and V.F.Gallucci (1988). Effect of parameter variability on length-cohort analysis. J.Cons.Int.Explor.Mer, 45(1):82–92

Laurec, A. and B. Mesnil (1987). Analytical investigations of errors in mortality rates estimated from length distribution of catches. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:239–281

MacDonald, P.D.M. (1969). FORTRAN programs for statistical estimation of distribution mixtures: some techniques for statistical analysis of length-frequency data. Tech.Rep.Fish.Res.Board.Can., (29):45 p.

MacDonald, P.D.M. and T.J. Pitcher (1979). Age-groups from size-frequency data: a versatile and efficient method of analyzing distribution mixtures. J.Fish.Res.Board.Can., 36:987–1001

McGlade, J.M. and S.J. Smith (1983). Principal component methods for exploratory data analysis of commercial length-frequency data. In Doubleday, W.G. and D. Rivard (eds.). Sampling commercial catches of marine fish and invertebrates. Can.Spec.Publ.Fish.Aquat.Sci., (66): 235–239 p.

Majkowski, J., J. Hampton, R. Jones, A. Laurec and A.A. Rosenberg (1987). Sensitivity of length-based methods for stock assessment: Report of working group III. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:363–372

Miller, R.G. (1974). The jack-knife - a review. Biometrika, 61:1–15

Morgan, G.R. (1987). Incorporating age data into length based stock assessment methods. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:137–146

Morgan, G.R. and D. Pauly (1987). Analysis of length-frequency data: Some available programs and user's instructions. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:373–462.

Muir, B.S.(1983) Introductory address. In Doubleday W.G. and D. Rivard (eds.). Sampling commercial catches of marine fish and invertebrates. Can.Spec.Publ.Fish. Aquat.Sci., (66):3–4

Munro, J.L. (1982). Estimation of biological and fishery parameters in coral reef fisheries. In Pauly D. and G.I. Murphy (eds.). Theory and management of tropical fisheries. ICLARM Conf.Proc., 9:71–81

Munro, J.L. (1984). Estimation of natural mortality from selection and catch length frequency data. Fishbyte, 2(1):11–24

Pauly, D. (1980). On the interrelationships between natural mortality, growth parameters, and mean environmental temperature in 175 fish stocks. J.Cons.Int.Explor.Mer, 39(2):175–192

Pauly, D. (1984). Fish population dynamics in tropical waters; a manual for use with programmable calculators. ICLARM Stud.Rev., (8):325 p.

Pauly, D. (1986). On improving operation and use of the ELEFAN programs. Part III. Correcting length frequency data for the effects of gear selection and/or incomplete recruitment. Fishbyte, 4(2):11–13

Pauly, D. (1987). A review of the ELEFAN system for analysis of length-frequency data in fish and aquatic invertebrates. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:7–34

Pauly, D and J.F. Caddy (1985). A modification of Bhatacharaya's method for the analysis of mixtures of normal distribution. FAO Fish.Circ., (781):16 p.

Pauly, D. and G. Gaschutz (1979). A simple method for fitting growth curve data, with a program for pocket calculators. (ICES Council Meeting papers), ICES CM 1979/G:24:26 p.

Pauly, D. and G.R. Morgan (eds). (1987). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:468 p.

Petersen, C.G.J. (1891). Eine Methode zur Bestimmung des Alters und des Wuchses der Fisches. Mitt.Dtsch.Seefisch.Ver., 11:226–235

Pope, J.G. (1972). An investigation of the accuracy of virtual population analysis using cohort analysis. Res.Bull.ICNAF, 9:65–74 Northw.Atlant.Fish.Res.Bull., 9:65–74

Pope, J.G.(1987). Two methods for simultaneously estimating growth, mortality and cohort size parameters from time series of catch-at-length data from research vessel surveys. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:103–112

Pope, J.G. (1988). Collecting fisheries assessment data. In Gulland J.A. (ed.). Fish Stock Assessment (2nd ed.). Chichister, John Wiley, pp. 63–82 Chichester. 63–82.

Pope, J.G. and Yang Jiming (1987). Phalanx analysis: an extension of Jones' length cohort analysis to multispecies cohort analysis. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:177–191

Pope, J.G. and J.G. Shepherd (1985). A comparison of the performance of various methods for tuning VPAs using effort data. Cons.Int.Explor.Mer., 42(2):129–151

Powell, D.G. (1979). Estimation of mortality and growth parameters from the length frequency of a catch. Rapp.P.-V.Cons.Réun.Int.Explor.Mer, 175:167–169

Rawlinson, N. (1989). Population dynamics of the commercially important baitfish species Stolephorus heterolobus in Solomon Islands. Fishbyte, 7(1):12–17

Ricker, W.E. (1954). Handbook of computations for biological statistics of fish populations. Bull.Fish.Res.Board Can., (119):300p.

Ricker, W.E. (1975). Computation and interpretation of biological statistics of fish populations. Bull.Fish.Res.Board Can., (191):382p.

Rosenberg, A.A. and J.R. Beddington (1987). Monte-Carlo testing of two methods for estimating growth from length-frequency data with general conditions for their applicability. In Pauly D. and G.R.Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:283–298

Rosenberg, A.A., M. Basson and J.A. Beddington (1986). Growth and longevity of Antarctic krill during the first decade of pelagic whaling. Nature, 324(6093):152–153

Rosenberg, A.A. and J.R. Beddington (1988). Length-based methods of fish stock assessment. In Gulland J.A. (ed.). Fish Population Dynamics (2nd ed.). Chichister, John Wiley, pp.83–104

Saila, S.B. (1983). Importance and assessment of discards in commercial fisheries. FAO Fish.Circ., (765):62 p.

Sainsbury, K.J. (1980). Effect of individual variability on the von Bertalanffy growth equation. Can.J.Fish.Aquat.Sci., 37(2):241–247

Schnute, J. and D. Fournier (1980). A new approach to length-frequency analysis: growth structure. Can.J.Fish.Aquat.Sci., 37(9): 1337–1351

Shepherd, J.G. (1987). Towards a method for short term forecasting of catch rates based on length-compositions. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:167–176

Shepherd, J.G. (1987a). A weekly parametric method for estimating growth parameters from length composition data. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:113–119

Shepherd, J.G. (1988). Fish stock assessments and their data requirements. In Gulland J.A. (ed.). Fish stock Assessment (2nd ed.). Chichester, John Wiley, pp. 35–62

Shepherd, J.G., G.R. Morgan, J.A. Gulland, and C.P. Mathews (1987). Methods of analysis and assessment: Report of working group II. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:353–362

Sparre, P. (1987). A method for the estimation of growth, mortality and gear selection/recruitment parameters from length frequency samples weighted by catch per effort. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:75–102

Sparre, P., E. Ursin and S.C. Venema, (1989). Introduction to tropical fish stock assessment. Part 1. Manual. FAO Fish.Tech.Pap., (306.1):337 p.

Ssentongo, G.W. and P. Larkin (1973). Some simple methods of estimating mortality rates of exploited fish populations. J.Fish.Res.Board Can., 30(5):695–698

Tanaka, S. (1956). A method for analyzing the polymodal frequency distribution and its application to the length distribution of porgy Taius tumifrons (T. and S.). Bull.Tokai Fish.Res.Lab., 14:1–13

Thompson, W.F. and F.H. Bell (1934). Biological statistics of the Pacific halibut fishery. 2. Effect of changes in intensity upon total yield and yield per unit of gear. Rep.Int.Fish.Comm., 8:49 p.

Tukey, J.W. (1977). Exploratory data analysis. Reading, MA, Addison-Wesley, 688 p.

Wetherall, J.A., J.J. Polovina and S. Ralston (1987). Estimating growth and mortality in steady-state fish stocks from length-frequency data. In Pauly D. and G.R. Morgan (eds.). Length-based methods in fisheries research. ICLARM Conf.Proc., 13:53–74

Zwanenburg, K.C.T. and S.J. Smith (1983). Comparison of fish length distributions estimated from samples taken at sea and in port. In Doubleday W.G. and Rivard, D. (eds.). Sampling commercial catches of marine fish and invertebrates. Can.Spec.Publ.Fish.Aquat.Sci., (66):189–193

Back Cover

Previous Page Top of Page