Predictions & Data for this entry

Model: abj climate: Csa, Cfb, Dfb migrate:
COMPLETE = 2.5 ecozone: THp food: biD
MRE = 0.106 habitat: 0iFp, 0iFl, 0iFm, 0iFc gender: D
SMSE = 0.156 embryo: Fbf reprod: O

Zero-variate data
DataObservedPredicted(RE)UnitDescriptionReference
ab11.5 10.46 (0.09036)dage at birthPoecHump1990
tp204 200.8 (0.01549)dtime since birth at pubertyPoeckl1992
am570 570.4 (0.0007794)dlife spanPoeckl2003
Lb0.152 0.1527 (0.00446)cmtotal length at birthPoeckl1992
Lp0.68 0.6685 (0.01694)cmtotal length at pubertyPoeckl1992
Li1.204 1.217 (0.01111)cmultimate total lengthPoeckl1992
Wwb0.123 0.1206 (0.01926)mgwet weight at birthPoeckl1992
Wwp 10 10.13 (0.0125)mgwet weight at pubertyPoeckl1992
Wwi59.1 61.15 (0.03471)mgultimate wet weightPoeckl1992
Ri5.452 4.151 (0.2386)#/dmaximum reprod ratePoeckl1993
Uni-variate data
DatasetFigure(RE)Independent variableDependent variableReference
tW_f see Fig. 1 (0.05686)time since birthwet weightPoeckl1995
tW_m see Fig. 1 (0.06662)time since birthwet weightPoeckl1995
tW_f2 see Fig. 2 (0.1065)time since birthwet weightPoeckl1995
tW_m2 see Fig. 2 (0.1893)time since birthwet weightPoeckl1995
tW_f3 see Fig. 3 (0.2312)time since birthwet weightPoeckl1995
tW_m3 see Fig. 3 (0.304)time since birthwet weightPoeckl1995
tW_f4 see Fig. 4 (0.1905)time since birthwet weightPoeckl1995
tW_m4 see Fig. 4 (0.2085)time since birthwet weightPoeckl1995
Tap see Fig. 5 (0.0813)temperaturematuration timePoeckl1992
Tab see Fig. 6 (0.2316)temperaturebrood development timePoecHump1990
Pseudo-data at Tref
DataGeneralised animalGammarus roeseliiUnitDescription
v 0.02 0.01395cm/denergy conductance
kap 0.8 0.8364-allocation fraction to soma
kap_R 0.95 0.95-reproduction efficiency
p_M 18 436.1J/d.cm^3vol-spec som maint
k_J 0.002 0.0021/dmaturity maint rate coefficient
kap_G 0.8 0.8168-growth efficiency

Bibliography

  • [Kooy2010] S.A.L.M. Kooijman. Dynamic Energy Budget theory for metabolic organisation. Cambridge Univ. Press, Cambridge, 2010.
  • [Poeckl1992] M. Poeckl. Effects of temperature, age and body size on moulting and growth in the freshwater amphipods Gammarus fossarum and G. roeseli. Freshwater Biology, 27:211--225, 1992.
  • [Poeckl1993] M. Poeckl. Reproductive potential and lifetime potential fecundity of the freshwater amphipods Gammarus fossarum and G.roeseli in Austrian streams and rivers. Freshwater Biology, 30:73--91, 1993.
  • [Poeckl1995] M. Poeckl. Laboratory studies on growth, feeding, moulting and mortality in the freshwater amphipods Gammarus fossarum and G. roeseli. Archiv fuer Hydrobiologie, 134:223--253, 1995.
  • [PoecHump1990] M. Poeckl and U. H. Humpesch. Intra- and inter-specific variations in egg survival and brood development time for Austrian populations of Gammarus fossarum and G. roeseli (Crustacea: Amphipoda). Freshwater Biology, 23:441--455, 1990.
  • [Poeckl2003] M. Poeckl, B. W. Webb, and D. W. Sutcliffe. Life history and reproductive capacity of Gammarus fossarum and G. roeseli (Crustacea: Amphipoda) under naturally fluctuating water temperatures: a simulation study. Freshwater Biology, 48:53--66, 2003.

Bibtex file with references for this entry


Andre Gergs, 2016/04/12 (last modified by Andre Gergs 2017/08/02)

accepted: 2018/08/02

refer to this entry as: AmP Gammarus roeselii version 2018/08/02 bio.vu.nl/thb/deb/deblab/add_my_pet/