Growth model of the reared sea urchin Paracentrotus ... - SciViews

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References Ebert, T.A., 1977. An experimental analysis of sea urchin dynamics and community interactions on a rock jetty. J. Exp. Mar. Biol. Ecol., 27:1-22. Ebert, T.A., 1980a. Estimating parameters in a flexible growth equation, the Richards function. Can. J. Fish. Aquat. Sci., 37(4):687-692. Ebert, T.A., 1980b. Relative growth of sea urchin jaws: an example of plastic response allocation. Bull. Mar. Sci., 30(2):467-474. Ebert, T.A., 1981. Estimating mortality from growth parameters and a size distribution when recruitment is periodic. Limnol. Oceanogr., 26:764-769. Ebert, T.A., 1982. Longevity, life history, and relative body wall size in sea urchins. Ecol. Monographs, 52(4):353-394. Ebert, T., 1983. Recruitment in echinoderms. In: M. Jangoux & J.M. Lawrence (eds). Echinoderm studies , vol. 1. Balkema, Rotterdam. Pp. 169-203. Ebert, T.A., 1985. Sensitivity of fitness to macroparameter changes: an analysis of survivorship and individual growth in sea urchin life histories. Oecologia, 65:461-467. Ebert, T.A., 1986. A new theory to explain the origin of growth lines in sea urchin spines. Mar. Ecol. Prog. Ser., 34:197-199. Ebert, T.A., 1988a. Calibration of natural growth lines in ossicles of two sea urchins, Strongylocentrotus purpuratus and Echinometra mathaei, using tetracycline. In: R.D. Burke, P.V. Mladenov, P. Lambert, R.L. Parsley (eds). Echinoderm biology. Balkema, Rotterdam. Pp. 435-443. Ebert, T.A., 1988b. Allometry, design and constraint of body components and of shape in sea urchins. J. Nat. Hist., 22:1407-1425. Ebert, T.A., 1994. Allometry and model II non-linear regression. J. Theo. Biol., 168:367-372. Ebert, T.A., 1998. An analysis of the importance of Allee effects in management of the red sea urchin Strongylocentrotus franciscanus. In: R. Mooi & M. Telford (eds). Echinoderms: San Francisco. Balkema, Rotterdam. Pp. 619-627. 193
References Ebert, T.A., 1999. Plant and animal populations. Methods in demography. Academic Press, San Diego. Ebert, T.A. & D.M. Dexter, 1975. A natural history study of Encope grandis and Mellita grantii, two sand dollars in the northern Gulf of California, Mexico. Mar. Biol., 32:397-407. Ebert, T.A., S.C. Schroeter & J.D. Dixon, 1993. Inferring demographic processes from size-frequency distributions: effect of pulsed recruitment on simple models. Fish. Bull. U.S., 91:237-243. Ebert, T.A. & M.P. Russell, 1992. Growth and mortality estimates for red sea urchin Strongylocentrotus franciscanus from San Nicolas Island, California. Mar. Ecol. Prog. Ser., 81:31-41. Ebert, T.A. & M.P. Russell, 1993. Growth and mortality of subtidal red sea urchins (Strongylocentrotus franciscanus) at San Nicolas Island, California, USA: problems with models. Mar. Biol., 117:79-89. Emson, R.H., 1984. Bone idle – a recipe for success? In: B.F. Keegan & B.D.S. O'Connor (eds). Echinodermata. Balkema, Rotterdam. Pp. 25-30. Fabens, A.J., 1965. Properties and fitting of the von Bertalanffy growth curve. Growth, 29:265-289. Fahrmeir, L. & G. Tutz, 1994. Multivariate statistical modelling based on general linear models. Springer-Verlag, New York. Fernandez, C., 1996. Croissance et nutrition de Paracentrotus lividus dans le cadre d’un projet aquacole avec alimentation artificielle. PhD Thesis, Université de Corse, France. Fernandez, C. & C.-F. Boudouresque, 1998. Evaluating artificial diet for small Paracentrotus lividus (Echinodermata: Echinoidea). In: R. Mooi & M. Telford (eds). Echinoderms: San Francisco. Balkema, Rotterdam. Pp. 651-656. Fernandez, C. & A. Caltagirone, 1994. Growth rate of adult sea urchins, Paracentrotus lividus in a lagoon environment: the effect of different diet 194
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U L B bio mar UNIVERSITE LIBRE DE B
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Acknowledgements ACKNOWLEDGEMENTS W
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Abstract ABSTRACT A rearing protoco
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Résumé RESUME Un protocole d'éle
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Table of contents TABLE OF CONTENTS
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ANNEXES............................
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List of figures LIST OF FIGURES Fig
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List of figures Figure 28. A. Histo
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List of tables LIST OF TABLES Table
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List of equations LIST OF EQUATIONS
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List of equations Equation 33. Para
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List of symbols LIST OF SYMBOLS Var
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List of symbols IW Immersed weight:
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Introduction 27
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Foreword 30
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General introduction this study. Se
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General introduction intense fishin
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General introduction habitats: inte
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General introduction substrate to s
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General introduction mm (Spirlet et
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Growth models General introduction
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. The logistic function for asympto
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d. The von Bertalanffy curves Gener
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Y Y 1 Y• 0.8 0.6 0.4 0.2 General
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Y 1 Y• 0.8 0.6 Y•êH1+bL 0.4 0.
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YY 3 2.5 2 1.5 1 0.5 General introd
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Table 1. Models used to fit sea urc
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General introduction model 1 for Ec
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General introduction method used. I
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General introduction Experiments in
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Aim of the thesis 62
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PART I: SET UP OF AN EXPERIMENTAL R
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Land-based closed-cycle echinicultu
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Aquaculture of echinoderms, includi
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6b. exploitation KCl water renewal
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earing cycle into seven stages is e
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(Grosjean et al, 1996, see Part III
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output. The quality of gametes is o
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average value of 19.5 days, a minim
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individuals were still alive 3 mont
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e. Discussion show similar GI and M
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The success of the present method l
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Fenaux (1990) for the same species
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encountered with food is its stabil
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to Christine Spirlet (ref. ERB 4001
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PART II Measurement for size in the
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Part II: Measurement for size in th
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Few studies have compared and discu
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d. Results and discussion The ambit
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Reproducibility of measurements The
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e. Conclusions fresh weight! Cautio
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principal axis 3 1 0.8 0.6 0.4 0.2
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a relative homogeneous growth of al
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110
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Part III: Experimental studies of t
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assumption of normality can be test
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occurred. From this moment on, and
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d. Results Size distribution among
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Nber of ind. 120 100 80 60 40 20 0
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Table 9. Statistics on the six batc
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Table 10. Size distribution of Fe e
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purpuratus; Dafni & Tobol, 1987: Tr
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Nbr. of ind. Nbr. of ind. A. Size d
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Nbr. of ind. Nbr. of ind. Nbr. d'in
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Part III: Experimental studies of t
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134
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Part IV: A growth model with intras
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. Introduction fuzzy-remanent funct
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considered factor on the curve's sh
Page 143 and 144: Diameter D 20 in mm Diameter D in m
Page 145 and 146: d. Results Theoretical consideratio
Page 147 and 148: some two-dimensional processes like
Page 149 and 150: implements this method ('nlrq' pack
Page 151 and 152: value just after metamorphosis (D0,
Page 153 and 154: quantifies maximum speed growth, k2
Page 155 and 156: Table 12. Results of quantile regre
Page 157 and 158: This way, one obtains a 4-parameter
Page 159 and 160: individuals related to the presence
Page 161 and 162: Finally, ∆D∞ should follow a no
Page 163 and 164: 60 Diameter increase D' in mm 40 20
Page 165 and 166: e. Discussion Fig. 34B shows three
Page 167 and 168: Constraining parameters as we did i
Page 169 and 170: It does not consider respiration as
Page 171 and 172: this species. For other species, wh
Page 173 and 174: ecapture, McDonald & Pitcher, 1979;
Page 175 and 176: ∆D∞ D0 +∆D∞ − D0 +∆D∞
Page 177 and 178: evaluated on basis of biological kn
Page 179 and 180: ain conceptualizes complex objects.
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Page 183 and 184: General conclusions individuals, wh
Page 185 and 186: Root models: y’ = ay m -by n (exp
Page 187 and 188: General conclusions - The diauxic g
Page 189 and 190: General conclusions model not on a
Page 191 and 192: References Baker, T.T., R. Lafferty
Page 193: References Dafni, J. & R. Tobol, 19
Page 197 and 198: References intermedius on a rocky s
Page 199 and 200: References Guillou, M. & Ch. Michel
Page 201 and 202: References Kobayashi, S. & J. Taki,
Page 203 and 204: References McDonald, P.D. & T.J. Pi
Page 205 and 206: References Pouvreau, S., C. Bacher
Page 207 and 208: References Sellem, F., H. Langar &
Page 209 and 210: References Stumm, W. & J.J. Morgan,
Page 211 and 212: References Webster, S.K. & A.C. Gie
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Page 215 and 216: Annexes 214
Page 217 and 218: # If no graphic device currently op
Page 219 and 220: lines(edatq[, 1], predict(edat.025,
Page 221 and 222: SimRes
Page 223 and 224: Annexes Code of functions required
Page 225 and 226: plot(cumsum(dat[,columns[1]])/sum(d
Page 227 and 228: for the CI!!! Annexes SEMean
Page 229 and 230: } Annexes # - y, a vector of classe
Page 231 and 232: plot(x, y, type="l", col=col, lty=l
Page 233 and 234: } Annexes } results[i, 1:5]
Page 235 and 236: } .value Annexes dimnames(.grad)
Page 237 and 238: #{ # # This is adapted from SSasymp
Page 239 and 240: Exp.ival
Page 241 and 242: SSallo
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.expr9
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. The 'nlrq' package for nonlinear
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nlrq.control package:nlrq R Documen
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gradSetArgs[[2]]), call("[", gradSe
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model.step
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Annexes 254
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Annexes 256
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Annexes metamorphosis. Acquisition
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Annexes ABSTRACT: The general allom
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Annexes libitum for 8, 16, 24, 32,
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Annexes EXECUTIVE SUMMARY: The aim
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Annexes KEYWORDS: Somatic growth, d
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Annexes amount of waste produced at
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Annexes ABSTRACT: Multimodal distri
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