| D.H.est |
Functions to define tree responses |
| D.plot |
Stability analysis and plots (didactic purpose) |
| dD.dt.analysis |
Functions to define tree responses |
| dD.dt.calibra |
Functions to define tree responses |
| dD.rate |
Functions to define tree responses |
| DH.allom |
Functions to define tree responses |
| diversity |
Functions to define community dynamics models for simulation, to determine equilibrium points, and calculate diversity from simulation output. |
| Dl.allom |
Functions to define tree responses |
| DO.PP.pond |
Functions to determine primary productivity |
| env.factors.analysis |
Functions to define tree responses |
| eq.2sp |
Functions to define community dynamics models for simulation, to determine equilibrium points, and calculate diversity from simulation output. |
| euler |
Numerical integration methods: Euler, Runge-Kutta 4th order, Monte Carlo, RK4 with discontinuities, and Ramos method. |
| expon |
Functions to define exponential models for simulation |
| expon.alf |
Functions to define tree responses |
| expon.forced |
Functions to define exponential models for simulation |
| expon.g |
Functions to define exponential models for simulation |
| expon.rand |
Functions to define exponential models for simulation |
| expon.var |
Functions to define exponential models for simulation |
| expon.z |
Functions to define exponential models for simulation |
| logistic |
Functions to define logistic and M3 (Michaelis-Menten-Monod) models for simulation |
| logistic.forced |
Functions to define logistic and M3 (Michaelis-Menten-Monod) models for simulation |
| logistic.g |
Functions to define logistic and M3 (Michaelis-Menten-Monod) models for simulation |
| logistic.var |
Functions to define logistic and M3 (Michaelis-Menten-Monod) models for simulation |
| logistic.z |
Functions to define logistic and M3 (Michaelis-Menten-Monod) models for simulation |
| LVint.2sp |
Functions to define community dynamics models for simulation, to determine equilibrium points, and calculate diversity from simulation output. |
| LVint.3sp |
Functions to define community dynamics models for simulation, to determine equilibrium points, and calculate diversity from simulation output. |
| parab |
Functions to define temperature response. |
| parab1 |
Functions to define tree responses |
| pet |
Weather simulation |
| phase.plot |
Stability analysis and plots (didactic purpose) |
| PP.Eilers |
Functions to determine primary productivity |
| PP.Smith |
Functions to determine primary productivity |
| PP.Steele |
Functions to determine primary productivity |
| PP.Thornley |
Functions to determine primary productivity |
| PPrates.depth |
Functions to determine primary productivity |
| PPT.Smith |
Functions to determine primary productivity |
| PPT.Steele |
Functions to determine primary productivity |
| rain.day |
Weather simulation |
| ramos |
Numerical integration methods: Euler, Runge-Kutta 4th order, Monte Carlo, RK4 with discontinuities, and Ramos method. |
| ran.exp |
Custom random number generators for didactic purposes |
| ran.norm |
Custom random number generators for didactic purposes |
| ran.unif |
Custom random number generators for didactic purposes |
| read.plot.cerio.out |
Read and plot output from Fortran and C simulation programs |
| read.plot.forsucc.out |
Read and plot output from Fortran and C simulation programs |
| read.plot.river.out |
Read and plot output from Fortran and C simulation programs |
| read.plot.semi.out |
Read and plot output from Fortran and C simulation programs |
| read.plot.zelig.out |
Read and plot output from Fortran and C simulation programs |
| ReIm.plot |
Stability analysis and plots (didactic purpose) |
| river.C |
Wrapper for simulation programs in Fortran and C |
| RK4 |
Numerical integration methods: Euler, Runge-Kutta 4th order, Monte Carlo, RK4 with discontinuities, and Ramos method. |
| RK4D |
Numerical integration methods: Euler, Runge-Kutta 4th order, Monte Carlo, RK4 with discontinuities, and Ramos method. |
| rnum |
Numerical integration methods: Euler, Runge-Kutta 4th order, Monte Carlo, RK4 with discontinuities, and Ramos method. |
| rnum.out |
Simulator output functions |
| root.locus.quad |
Stability analysis and plots (didactic purpose) |
| root.plot |
Stability analysis and plots (didactic purpose) |
| seem |
Simulation of Ecological and Environmental Models |
| semi.F |
Wrapper for simulation programs in Fortran and C |
| sens |
Model evaluation and sensitivity analysis |
| sim |
Simulation functions |
| sim.comp |
Simulation functions |
| sim.ga |
Soil water dynamics |
| sim.mruns |
Simulation functions |
| sim.proj |
Matrix projection |
| sim.rnum |
Simulation functions |
| simd |
Simulation functions |
| simr |
Simulation functions |
| simt |
Simulation functions |
| soil.water |
Soil water dynamics |
| soilwat.1 |
Soil water dynamics |
| soilwat.n |
Soil water dynamics |
| sta.plot |
Stability analysis and plots (didactic purpose) |
| succession |
Functions to define community dynamics models for simulation, to determine equilibrium points, and calculate diversity from simulation output. |
| succession.g |
Functions to define community dynamics models for simulation, to determine equilibrium points, and calculate diversity from simulation output. |
| succession.z |
Functions to define community dynamics models for simulation, to determine equilibrium points, and calculate diversity from simulation output. |
| sun.atmos |
Solar radiation functions |
| sun.dec |
Solar radiation functions |
| sun.elev.hr |
Solar radiation functions |
| sun.elev.max |
Solar radiation functions |
| sun.path |
Solar radiation functions |
| sun.rad.hr |
Solar radiation functions |
| sun.rad.hr.mult |
Solar radiation functions |
| sun.rad.yr |
Solar radiation functions |
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