| slope.bipartite {bipartite} | R Documentation |
Slope of extinction simulation
Description
Fits a hyperbolic function to the extinction simulation of second.extinct.
Usage
slope.bipartite(object, plot.it = TRUE, ...)
Arguments
object |
An object of class “bipartite”, usually generated by |
plot.it |
Logical; want to see the graph? |
... |
Graphical parameters passed on to the |
Details
Function scales extinction sequences to values between 0 and 1 for each participant. The x-axis of the graph features the proportion of exterminated participants, while the y-axis depicts the proportion of secondary extinctions. Since these curves usually follow a hyperbolic function (see examples in Memmott et al. 2004), this is fitted to the data.
At present, only a function of type y \sim 1 - x^a is fitted (using nls), i.e. without offset. While usually this
function provides very good fits, do check the graph and judge for yourself. Fitting this simple function makes its
parameter ‘a’ a measure of extinction vulnerability. The more gradual the secondary extinctions, the lower the absolute value of ‘a’. Or, phrased differently, large absolute values of ‘a’ indicate a very abrupt die-off, indicative of high initial redundancy in the network.
Value
Returns one number, the exponent of the fitted hyperbolic model.
Note
This function is not as vigorously tested as it should probably be. It worked fine for large networks, but small ones it may behave strangely, I fathom.
Author(s)
Carsten F. Dormann
References
Memmott, J., Waser, N. M. and Price, M. V. (2004) Tolerance of pollination networks to species extinctions. Proceedings of the Royal Society B 271, 2605–2611
See Also
second.extinct for generating the required input object.
Examples
## Not run:
data(Safariland)
ex <- second.extinct(Safariland, participant="lower", method="random", nrep=100,
details=FALSE)
slope.bipartite(ex)
## End(Not run)