Starfish_Planet_3
Model was written in NetLogo 6.0.4
•
Viewed 1648 times
•
Downloaded 117 times
•
Run 0 times
Do you have questions or comments about this model? Ask them here! (You'll first need to log in.)
Info tab cannot be displayed because of an encoding error
Comments and Questions
Please start the discussion about this model!
(You'll first need to log in.)
Click to Run Model
turtles-own [ age ;; an age counter for each agent/turtle/starfish mutator ;; a gene that when activated has got three alleles; the neutral one, ;; the positive one (that increase the probability of mutations) and the ;; the negative one (that decrease the probability of mutations) tolerance_variation ;; starfishes can survive in a range of standard energy supply ;; but when the switch tolerance-shift is activated, every starfish can ;; diverge from the standard, as well: the magnitude of the drift is given by ;; the tolerance_variation "gene" ] globals [ incoming_cosmic_energy ;; energy coming from external space surface_energy ;; energy measured on the surface of the planet n.red ;; counter of the red starfishes n.white ;; counter of the white starfishes rw_difference ;; difference between red and white starfishes mmut ;; average of mutator genes activity in total population mvar ;; average of tolerance-shift variation genes in total population crowd? ;; does the number of starfishes exceed the maximum sustained by the environment? ] ;; ---------- SETUP PROCEDURES ----------------------------------------------------------------------- ;; ------------------------------------------------------------------------------------------------------- to setup clear-all reset-ticks set incoming_cosmic_energy 0 set surface_energy 0 ask patches [set pcolor cyan] ;; the planet has a cyan background crt 500 [setxy random-xcor random-ycor ;; the planet is populated by two kinds of starfishes, set color red ;; the red ones ... set shape "star" set size 0.7 set age random 5 set mutator 0 set tolerance_variation 0 ] crt 500 [setxy random-xcor random-ycor set color white ;; and the white ones set shape "star" set size 0.7 set age random 5 set mutator 0 set tolerance_variation 0 ] set n.red count turtles with [color = red] set n.white count turtles with [color = white] set rw_difference n.red - n.white set mmut 0 set mvar 0 set crowd? false end ;; -------------- RUNTIME PROCEDURES --------------------------------------------------------------------- ;; ------------------------------------------------------------------------------------------------------- to go tick ;; the physics of starfish planet is given by an oscillating flux of "cosmic energy" set incoming_cosmic_energy (cos(ticks * 31) * energy_oscillation_amplitude) + energy_average ;; at the surface of the planet the energetic balance is influenced by the incoming energy, ;; and biological factors given by the positive or negative "albedo effect" ;; of two different populations of starfishes set surface_energy (surface_energy + incoming_cosmic_energy) / 2 + rw_difference * albedo_parameter ;; the two kinds of alien starfishes populations living on the planet follow a little bit different ;; challenge according to their color ask turtles [ if (color = white) [white-challenge] if (color = red) [red-challenge] ] ;; if the planet is overcrowded the starfishes arrive to the reproductive age later ;; the reproductive process is linked to the mutation chance given by the mutation_rate ;; after a mutation a red newborn starfish became white ifelse crowd? = false [ask turtles [if age > 2 [reproduction]]] [ask turtles [if age > 3 [reproduction]]] ;; starfishes have all the same life cycle, lasting four cosmic ticks ask turtles [ set age age + 1 if age > 4 [die] ] ;; the number of starfishes composing the two subpopulations is counted set n.red count turtles with [color = red] set n.white count turtles with [color = white] set rw_difference n.red - n.white ;; the simulation is terminated if both subpopulations are extinguished if (n.red + n.white = 0) [stop] ;; if the number of total starfishes is excessive, the system senses its state as overcrowded ifelse (n.white + n.red) > 1000 [set crowd? true] [set crowd? false] set mmut mean [mutator] of turtles set mvar mean [tolerance_variation] of turtles end to white-challenge ;; the white starfishes have got a survival range included between -17 and 19 unit of cosmic energy if (surface_energy >= 19 + tolerance_variation) [die] if (surface_energy <= -17 + tolerance_variation) [die] end to red-challenge ;; the red starfishes have got a survival range included between -19 and 17 unit of cosmic energy if (surface_energy >= 17 - tolerance_variation) [die] if (surface_energy <= -19 - tolerance_variation) [die] end to reproduction hatch 1 [ set age 0 rt random-float 360 fd 2 if mutator-gene [if random 100 < environmental_mutation_rate + mutator [set mutator mutator + (random 3 - 1)]] set size 0.7 + tolerance_variation / 5 if color = red [red-mutation] if color = white [white-mutation] ] end to white-mutation ;; when tolerance-shift is ON the range of tolerance become a genetic character of starfishes ;; so it can change in dependence of mutation rate and it is preferentially increased if tolerance-shift [ if (random 100 < environmental_mutation_rate + mutator) [ set tolerance_variation (tolerance_variation + random 10 - 0.1) if tolerance_variation <= -3 [die] ] ] ;; even if tolerance-shift is OFF the color of newborn starfish can mutate becoming red if random 100 < environmental_mutation_rate + mutator [ set color red ] end to red-mutation ;; when tolerance-shift is ON the range of tolerance become a genetic character of starfishes ;; so it can change in dependence of mutation rate it is preferentially increased if tolerance-shift [ if random 100 < environmental_mutation_rate + mutator [ set tolerance_variation (tolerance_variation + random 10 - 0.1) if tolerance_variation <= -3 [die] ] ] ;; even if tolerance-shift is OFF the color of newborn starfish can mutate becoming white ;; as consequence of this the tolerance-variation is inverted, as well if (random 100 < environmental_mutation_rate + mutator) [ set color white ] end
There are 18 versions of this model.
Attached files
File | Type | Description | Last updated | |
---|---|---|---|---|
Starfish_Planet_3.png | preview | Preview for 'Starfish_Planet_3' | almost 8 years ago, by Cosimo Leuci | Download |
This model does not have any ancestors.
This model does not have any descendants.