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NAME

r.pi.energy.pr - Individual-based dispersal model for connectivity analysis (energy based) using iterative patch removal.

KEYWORDS

raster, landscape structure analysis, connectivity analysis

SYNOPSIS

r.pi.energy.pr
r.pi.energy.pr --help
r.pi.energy.pr [-abrp] input=name [costmap=string] [suitability=string] output=name keyval=integer step_length=integer [perception=integer] [multiplicator=float] n=integer energy=float percent=float stats=string[,string,...] [out_freq=integer] [seed=integer] [title="phrase"] [--overwrite] [--help] [--verbose] [--quiet] [--ui]

Flags:

-a
Set for 8 cell-neighbors. 4 cell-neighbors are default
-b
Set if individuals should be set back after leaving area
-r
Set to remove individuals which start in the deleted patch
-p
Set to output values as percentual of the value from the reference run
--overwrite
Allow output files to overwrite existing files
--help
Print usage summary
--verbose
Verbose module output
--quiet
Quiet module output
--ui
Force launching GUI dialog

Parameters:

input=name [required]
Name of input raster map
costmap=string
Name of the costmap
suitability=string
Name of the suitability raster with values from 0-100
output=name [required]
Name for output raster map
keyval=integer [required]
Category value of the patches
step_length=integer [required]
Length of a single step measured in pixels
perception=integer
Perception range
multiplicator=float
Attractivity of patches [1-inf]
n=integer [required]
Number of individuals
energy=float [required]
Initial energy of the individuals
percent=float [required]
Percentage of finished individuals desired before simulation ends
stats=string[,string,...] [required]
Statistical method to perform on the pathlengths of the individuals
Options: average, variance, standard deviation, median, min, max
out_freq=integer
Output an intermediate state of simulation each [out_freq] steps
seed=integer
Seed for random number generator
title="phrase"
Title for resultant raster map

Table of contents

DESCRIPTION

This function is based on r.pi.energy but adds the functionality of iterative patch removal for testing of patch relevance to maintain the landscape connectivity integrity. Isolation or connectivity of singular patches of a defined landcover class are analysed using individual-based dispersal models. This functions uses a maximum amount of energy for each individuals dispersing through the landscape which is deminished by a fricition or cost map. Unlike the related function r.pi.energy does this function allows individuals to stay or move within a patch until the energy is depleted.

NOTES

Amount of successful immigrants or emigrants are not taken individual into account which emigrated from and immigrated into the same patch (pseudo immigration).

The suitability matrix impacts the step direction, while the costmap relates to the depletion of assigned energy.

EXAMPLE

An example for the North Carolina sample dataset: The amount (average) and variance with or without the respective patch of successful emigrants (*_emi), immigrants (*_imi), the percentage of immigrants per patch (*_imi_percent), the amount of lost indivuals (*_lost), the amount of migrants (*_mig), successful (*_mig_succ) and unsuccessful migrants (_mig_unsucc) can be retrieved using this command:
r.pi.energy.pr input=landclass96 output=energyiter1 keyval=5 n=1000 step_length=5 energy=10 percent=80 stats=average,variance
introducing costs for movement results in different immigration counts:
r.mapcalc "cost_raster = if(landclass96==5,1,if(landclass96 == 1, 10, if (landclass96==3,2, if(landclass96==4,1,if(landclass96==6,100)))))"
r.pi.energy.pr input=landclass96 output=energy1 keyval=5 n=1000 step_length=5 energy=10 percent=80 stats=average costmap=cost_raster
introducing a suitability for the movement:
# the suitability for the next step selection is defined as:
# class 5 and 3 (forest and grassland) have a high suitability,
# while shrubland (class 4) only a moderate and water and developed
# areas (class 6 and 1) have a very low suitability:

r.mapcalc "suit_raster = if(landclass96==5,100,if(landclass96 == 3, 100, if (landclass96==1,1, if(landclass96==6,1,if(landclass96==4,50)))))"
r.pi.energy.pr input=landclass96 output=energyiter3 keyval=5 n=1000 step_length=5 energy=10 percent=80 suitability=suit_raster stats=average,variance
further settings can be changed and information retrieved: setting the perception range to 10 pixel:
r.pi.energy.pr input=landclass96 output=energyiter keyval=5 n=1000 step_length=5 energy=10 percent=80 perception=10 stats=average
increasing the attraction to move towards patches to 10:
r.pi.energy input=landclass96 output=energyiter keyval=5 n=1000 step_length=5 energy=10 percent=80 stats=average multiplicator=10
output of each movement location for a defined step frequency. Here every 10th step is provided as output raster:
r.pi.energy input=landclass96 output=energyiter keyval=5 n=1000 step_length=5 energy=10 percent=80 stats=average out_freq=10

SEE ALSO

r.pi.energy, r.pi.searchtime, r.pi

AUTHORS

Programming: Elshad Shirinov
Scientific concept: Dr. Martin Wegmann
Department of Remote Sensing
Remote Sensing and Biodiversity Unit
University of Wuerzburg, Germany

Port to GRASS GIS 7: Markus Metz

SOURCE CODE

Available at: r.pi.energy.pr source code (history)

Latest change: Tuesday Sep 19 09:59:22 2023 in commit: e76c325998c8cd9053ce012a5adbb79f33ab0779


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