Pecten maximus (Great scallop):  

Predictions & Data for this entry

Model:  abj  

MRE = 0.458
SMSE = 0.323

Zero-variate data
ab 2 1.378 (0.311)dage at birth ShumPars2006, GrufBeau1972
tj 25 6.298 (0.7481)dtime since birth at metam RicoBern2010, ShumPars2006
tp365 246.7 (0.3241)dtime since birth at puberty Lava2011, ShumPars2006
am7300 4806 (0.3416)dlife spanShumPars2006
Lb0.008 0.02815 (2.519)cmshell height at birth ShumPars2006, SamaCoch1987
Lj0.024 0.1231 (4.13)cmshell height at metam BuesCoch1982, ShumPars2006
Lp 4 5.56 (0.39)cmshell height at puberty Lava2011, ShumPars2006
Li 12 13.77 (0.1477)cmultimate shell heightJean2011
Wdb1.04e-07 1.444e-07 (0.3884)gdry weight at birthLava2011
Wdj3e-06 1.208e-05 (3.026)gdry weight at metam Ande2011, SamaCoch1987
Wdp 1 1.112 (0.1124)gdry weight at pubertyLava2011
Wdi 20 16.91 (0.1546)gultimate dry weightLava2011
Ri5.753e+04 7.882e+04 (0.3699)#/dmaximum reprod rate PaulFifa1989, PaulBekh1997
Uni-variate data
DatasetFigure(RE)Independent variableDependent variableReference
tL1 see Fig. 1 (0.0443)time in julian dayshell heightLava2014
tL2 see Fig. 2 (0.02888)timelength (Bay of Brest)Lava2014
tL3 see Fig. 3 (0.02448)time - julian daylength (Traena)Lava2014
Pseudo-data at Tref
DataGeneralised animalPecten maximusUnitDescription
v 0.02 0.03021cm/denergy conductance
kap 0.8 0.8865-allocation fraction to soma
kap_R 0.95 0.95-reproduction efficiency
p_M 18 49.06J/^3vol-spec som maint
k_J 0.002 0.0021/dmaturity maint rate coefficient
kap_G 0.8 0.7938-growth efficiency


  • [Wiki]
  • [Ande2011] Sissel Andersen, 2011. Pers. com.
  • [BuesCoch1982] D. Buestel, J.-C. Cochard, J.-C. Dao, and A. Gerard. Artificial production of great scallop Pecten maximus (L.) spat. First results in the Bay of Brest. Vie Marine-Annales de la Fondation oceanographique Ricard, 4:24--28, 1982.
  • [SamaCoch1987] Samain J. F., J. C. Cochard, L. Chevaulot, J. Y. Daniel, C. Jeanthon, J. R. Le Coz, Y. Marty, J. Moal, D. Prieur, and M. Salaün. Effect of water quality on the growth of Pecten maximus larvae in nursery: First observations. Haliotis, 16:363--381, 1987.
  • [GrufBeau1972] L. D. Gruffydd and A. R. Beaumont. A method for rearing pecten maximus larvae in the laboratory. Marine Biology, 15(4):350--355, 1972.
  • [Jean2011] f. Jean, 2011. Own measurements in Bay of Brest.
  • [Kooy2010] S. A. L. M. Kooijman. Dynamic Energy Budget theory for metabolic organisation. Cambridge Univ. Press, Cambridge, 2010.
  • [Lava2011] R. Lavaud, 2011. Own measurements in Bay of Brest.
  • [Lava2014] Romain Lavuad. Environmental variability and energetic adaptability of the great scallop, Pecten maximus, facing climate change. PhD thesis, Vrije Universiteit Amsterdam, 2014.
  • [PaulBekh1997] Y.-M. Paulet, F. Bekhadra, N. Devauchelle, A. Donval, and G. Dorange. Seasonal cycles, reproduction and oocyte quality in Pecten maximus from the Bay of Brest. Annales de l Institut oceanographique, 73(1):101--112, 1997.
  • [RicoBern2010] B. Rico-Villa, I. Bernard, R. Robert, and S. Pouvreau. A Dynamic Energy Budget (DEB) growth model for pacific oyster larvae, Crassostrea gigas. Aquaculture, 305:84--94, 2010.
  • [ShumPars2006] S. E. Shumway and G. J. Parsons. Scallops: Biology, ecology and aquaculture. In Developments in Aquaculture and Fisheries Science, volume 35. Elsevier, Amsterdam, 2006.
  • [PaulFifa1989] Paulet Y.-M. and S. Fifas. Etude de la fecondite potentielle de la coquille Saint-Jacques Pecten maximus, en Baie de Saint-Brieue. Haliotis, 19:275--285, 1989.

Bibtex files with references for this entry

Romain Lavaud, 2011/05/10 (last modified by Starrlight Augustine 2017/05/24)

accepted: 2017/05/24

refer to this entry as: AmP Pecten maximus version 2017/05/24