dget_VRE: Calculate changes on state variables over a time interval
In Echinophoria/DEB: What the Package Does (One Line, Title Case)
Description
Usage
Arguments
Value
Author(s)
References
Examples
Description
This function calculates the growth and the changes in the 3 state variables during the time period specified by a. When T or f or both are functions, it also integrates as function of temperature ad f considerig their variation during the time interval
Usage
1
dget_VRE(a, VRE, pars)
Arguments
a
a vector containing the time point from the start at which the function has to be evaluated. Should be in days.
VRE
a 3 vector with the starting values of V (structure volume, cm^3), R (accumulated reproductive buffer, J) and E (energy reserves, J)
pars
a list containing:
p: a list containing all the DEB parameters for the species. Called by the get_DEB_pars function.
Lp = structural length at puberty, for the function to determine when the accumulation of R starts.
s_M = acceleration factor.
T: a scalar with the temperature in K or a regression model (T = f(a)) to obtain the temperature (in K) at time a for the correction during the integration.
f: scaled functional response during a. It can be a scalar between 0 and 1 when food is constant during the integrated period or a function/regression model as a function of time.
Value
VRE
a list with three vectors corresponding to the values of V, R and E at the time points (a) at which the function is evaluated.
Author(s)
Antonio Aguera. Danish Shellfish Center, DTU-aqua, Nykoebing Mors, Denmark
References
DEBlab, http://http://www.bio.vu.nl/thb/deb/deblab/
Kooijman SALM (2010) Dynamic Energy Budget theory for metabolic organisation, Third edn. Cambridge University Press, Cambridge, 509 pp.
Lika K, Kearney MR, Freitas V et al. (2011) The covariation method for estimating the parameters of the standard Dynamic Energy Budget model I: Philosophy and approach. Journal of Sea Research, 66, 270_277.
Lika K, Kearney MR, Kooijman SALM (2011) The covariation method for estimating the parameters of the standard Dynamic Energy Budget model II: Properties and preliminary patterns. Journal of Sea Research, 66, 278_288.
Examples
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p <- get_DEB_pars(system.file('data_examples_templates/results_Odontaster_validus.mat', package='DEB'))
a <- seq(1,365,1) # to evaluate de changes daily
Lw <- 5 # cm, physical length of the individual to be evaluated.
e <- 0.8 # -, scaled reserves at the start of the evaluation.
ltR <- get_tj(p, e) # calculates key events for the initial conditions.
Lp <- ltR$lp * p$L_m
V <- (Lw*p$del_M)^3 # cm^3, initial structural volume
R <- 0 # onset of gametogenesis no reproductive buffer accumulated yet.
E <- e * p$E_m * V # J, initial reserve.
VRE_0 <- c(V, R, E)
pars <- list(p, Lp, ltR$s_M, 283, 0.5)
require(deSolve)
t_VRE <- ode(VRE_0, a, dget_VRE, pars, method='ode45')
t_VRE <- as.data.frame(t_VRE)
names(t_VRE)<-c('Days',"V", "Er","E")
Echinophoria/DEB documentation built on March 16, 2021, 5:22 a.m.
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Description Usage Arguments Value Author(s) References Examples
Description
This function calculates the growth and the changes in the 3 state variables during the time period specified by a. When T or f or both are functions, it also integrates as function of temperature ad f considerig their variation during the time interval
Usage
1 | dget_VRE(a, VRE, pars)
|
Arguments
a |
a vector containing the time point from the start at which the function has to be evaluated. Should be in days. |
VRE |
a 3 vector with the starting values of V (structure volume, cm^3), R (accumulated reproductive buffer, J) and E (energy reserves, J) |
pars |
a list containing: p: a list containing all the DEB parameters for the species. Called by the get_DEB_pars function. Lp = structural length at puberty, for the function to determine when the accumulation of R starts. s_M = acceleration factor. T: a scalar with the temperature in K or a regression model (T = f(a)) to obtain the temperature (in K) at time a for the correction during the integration. f: scaled functional response during a. It can be a scalar between 0 and 1 when food is constant during the integrated period or a function/regression model as a function of time. |
Value
VRE |
a list with three vectors corresponding to the values of V, R and E at the time points (a) at which the function is evaluated. |
Author(s)
Antonio Aguera. Danish Shellfish Center, DTU-aqua, Nykoebing Mors, Denmark
References
DEBlab, http://http://www.bio.vu.nl/thb/deb/deblab/
Kooijman SALM (2010) Dynamic Energy Budget theory for metabolic organisation, Third edn. Cambridge University Press, Cambridge, 509 pp.
Lika K, Kearney MR, Freitas V et al. (2011) The covariation method for estimating the parameters of the standard Dynamic Energy Budget model I: Philosophy and approach. Journal of Sea Research, 66, 270_277.
Lika K, Kearney MR, Kooijman SALM (2011) The covariation method for estimating the parameters of the standard Dynamic Energy Budget model II: Properties and preliminary patterns. Journal of Sea Research, 66, 278_288.
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | p <- get_DEB_pars(system.file('data_examples_templates/results_Odontaster_validus.mat', package='DEB'))
a <- seq(1,365,1) # to evaluate de changes daily
Lw <- 5 # cm, physical length of the individual to be evaluated.
e <- 0.8 # -, scaled reserves at the start of the evaluation.
ltR <- get_tj(p, e) # calculates key events for the initial conditions.
Lp <- ltR$lp * p$L_m
V <- (Lw*p$del_M)^3 # cm^3, initial structural volume
R <- 0 # onset of gametogenesis no reproductive buffer accumulated yet.
E <- e * p$E_m * V # J, initial reserve.
VRE_0 <- c(V, R, E)
pars <- list(p, Lp, ltR$s_M, 283, 0.5)
require(deSolve)
t_VRE <- ode(VRE_0, a, dget_VRE, pars, method='ode45')
t_VRE <- as.data.frame(t_VRE)
names(t_VRE)<-c('Days',"V", "Er","E")
|
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