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In this tutorial, a sample of 28 birds from the program Flight is
used to demonstrate how to use the package to estimate flight ranges of
migrating birds. Note that in package FlyingR
two
approaches are implemented for this estimation. The first from Pennycuick (1975) and the second from Pennycuick and Battley (1998) and Pennycuick (2008). In this tutorial focus is on
the second approach (a time-marching approach).
data("birds", package = "FlyingR")
results <-
FlyingR::migrate(data = birds,
method = "cmm",
speed_control = 1,
min_energy_protein = 0.05)
## ## settings not defined. Using default constants.
##
## Default airDensity = 1.00 kg m^3
# extract range as a vector
results$range
## Anser anser Hydrobates pelagicus Pachyptila desolata
## 3523.341 3015.679 4234.999
## Regulus regulus Calidris canutus Aegypius monachus
## 1239.048 4427.874 3977.319
## Limosa lapponica Anas crecca Hirundo rustica
## 16542.199 3957.240 3366.906
## Cygnus cygnus Sylvia borin Luscinia luscinia
## 3486.521 2626.797 2132.726
## Corvus monedula Anas penelope Fregata magnificens
## 2282.793 6417.650 11818.913
## Larus ridibundus Diomedea exulans Phalacrocorax carbo
## 6154.056 6253.491 2940.844
## Gyps rueppellii Torgos tracheliotus Ardeotis kori
## 7849.544 6885.830 4622.839
## Sturnus vulgaris Fringilla coelebs Carduelis spinus
## 4342.847 2781.554 2573.194
## Turdus philomelos Calidris tenuirostris Buteo swainsoni M
## 3155.936 7021.358 5943.870
## Buteo swainsoni F
## 7832.813
In this case, the muscle mass adjustment criteria is the constant
muscle mass (“cmm”, meaning protein is not consumed from muscle mass).
Run by holding true airspeed at start of flight constant, the
alternative is maintain the ratio between true airspeed and minimum
power speed constant (speed_control = 0
). In this
simulation, additional protein is consumed (5% of the total energy) and
this comes from the airframe mass.
The default settings are as follows:
These settings could be adjusted. For example, the default value for
the induced power factor is high, the recommended being 0.9. This can be
adjusted as follows settings = list(ipf =0.9)
. Basic
knowledge of defining lists is required.
results <-
FlyingR::migrate(data = birds,
method = "cmm",
settings = list(ipf = 0.9),
speed_control = 1,
min_energy_protein = 0.05)
Other methods are the constant specific work
(method = "csw"
) and constant specific power
(method = "csp"
).
results <-
FlyingR::migrate(data = birds,
method = "csw",
settings = list(ipf = 0.9),
speed_control = 1,
min_energy_protein = 0.05)
# obtain remaining body mass
results$bodyMass
## Anser anser Hydrobates pelagicus Pachyptila desolata
## 2.519994936 0.017024028 0.097398903
## Regulus regulus Calidris canutus Aegypius monachus
## 0.003760447 0.075167275 6.901150950
## Limosa lapponica Anas crecca Hirundo rustica
## 0.072327343 0.138060363 0.010553746
## Cygnus cygnus Sylvia borin Luscinia luscinia
## 8.807117551 0.012255185 0.017009737
## Corvus monedula Anas penelope Fregata magnificens
## 0.127357220 0.349389454 0.843895225
## Larus ridibundus Diomedea exulans Phalacrocorax carbo
## 0.168160520 6.415392298 1.809294431
## Gyps rueppellii Torgos tracheliotus Ardeotis kori
## 3.579893319 3.626748479 6.821882187
## Sturnus vulgaris Fringilla coelebs Carduelis spinus
## 0.038112871 0.012801287 0.006230200
## Turdus philomelos Calidris tenuirostris Buteo swainsoni M
## 0.039904948 0.100881801 0.445811279
## Buteo swainsoni F
## 0.512133471
# starting minimum power speed
results$startMinSpeed
## Anser anser Hydrobates pelagicus Pachyptila desolata
## 17.943034 7.226151 9.809614
## Regulus regulus Calidris canutus Aegypius monachus
## 6.478470 9.987883 17.961954
## Limosa lapponica Anas crecca Hirundo rustica
## 12.067335 11.790593 6.894405
## Cygnus cygnus Sylvia borin Luscinia luscinia
## 21.156584 8.333710 8.523696
## Corvus monedula Anas penelope Fregata magnificens
## 10.644033 14.738550 11.825379
## Larus ridibundus Diomedea exulans Phalacrocorax carbo
## 9.754916 17.701882 17.168295
## Gyps rueppellii Torgos tracheliotus Ardeotis kori
## 17.893455 16.836893 21.188122
## Sturnus vulgaris Fringilla coelebs Carduelis spinus
## 10.213171 8.064553 7.079332
## Turdus philomelos Calidris tenuirostris Buteo swainsoni M
## 10.071773 11.706853 11.977692
## Buteo swainsoni F
## 12.890201
# end of flight minimum power speed
results$endMinSpeed
## Anser anser Hydrobates pelagicus Pachyptila desolata
## 15.687467 6.290587 8.401544
## Regulus regulus Calidris canutus Aegypius monachus
## 5.734903 8.385144 15.925371
## Limosa lapponica Anas crecca Hirundo rustica
## 7.020574 9.874101 5.666809
## Cygnus cygnus Sylvia borin Luscinia luscinia
## 18.824703 6.856383 7.306440
## Corvus monedula Anas penelope Fregata magnificens
## 9.466638 11.324106 9.417949
## Larus ridibundus Diomedea exulans Phalacrocorax carbo
## 8.181101 15.491528 15.291795
## Gyps rueppellii Torgos tracheliotus Ardeotis kori
## 14.108853 13.789329 17.599673
## Sturnus vulgaris Fringilla coelebs Carduelis spinus
## 7.913486 6.633048 5.821629
## Turdus philomelos Calidris tenuirostris Buteo swainsoni M
## 8.287716 8.855204 9.960540
## Buteo swainsoni F
## 10.113454
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.