stepacross {vegan} | R Documentation |

Function `stepacross`

tries to replace dissimilarities with
shortest paths stepping across intermediate
sites while regarding dissimilarities above a threshold as missing
data (`NA`

). With `path = "shortest"`

this is the flexible shortest
path (Williamson 1978, Bradfield & Kenkel 1987),
and with `path = "extended"`

an
approximation known as extended dissimilarities (De'ath 1999).
The use of `stepacross`

should improve the ordination with high
beta diversity, when there are many sites with no species in common.

stepacross(dis, path = "shortest", toolong = 1, trace = TRUE, ...)

`dis` |
Dissimilarity data inheriting from class `dist` or
a an object, such as a matrix, that can be converted to a
dissimilarity matrix. Functions `vegdist` and
`dist` are some functions producing suitable
dissimilarity data. |

`path` |
The method of stepping across (partial match)
Alternative `"shortest"` finds the shortest paths, and
`"extended"` their approximation known as extended
dissimilarities. |

`toolong` |
Shortest dissimilarity regarded as `NA` .
The function uses a fuzz factor, so
that dissimilarities close to the limit will be made `NA` , too. |

`trace` |
Trace the calculations. |

`...` |
Other parameters (ignored). |

Williamson (1978) suggested using flexible shortest paths to estimate
dissimilarities between sites which have nothing in common, or no shared
species. With `path = "shortest"`

function `stepacross`

replaces dissimilarities that are
`toolong`

or longer with `NA`

, and tries to find shortest
paths between all sites using remaining dissimilarities. Several
dissimilarity indices are semi-metric which means that they do not
obey the triangle inequality *d[ij] <=
d[ik] + d[kj]*, and shortest path algorithm can replace these
dissimilarities as well, even when they are shorter than
`toolong`

.

De'ath (1999) suggested a simplified method known as extended
dissimilarities, which are calculated with ```
path =
"extended"
```

. In this method, dissimilarities that are
`toolong`

or longer are first made `NA`

, and then the function
tries to replace these `NA`

dissimilarities with a path through
single stepping stone points. If not all `NA`

could be
replaced with one pass, the function will make new passes with updated
dissimilarities as long as
all `NA`

are replaced with extended dissimilarities. This mean
that in the second and further passes, the remaining `NA`

dissimilarities are allowed to have more than one stepping stone site,
but previously replaced dissimilarities are not updated. Further, the
function does not consider dissimilarities shorter than `toolong`

,
although some of these could be replaced with a shorter path in
semi-metric indices, and used as a part of other paths. In optimal
cases, the extended dissimilarities are equal to shortest paths, but
they may be longer.

As an alternative to defining too long dissimilarities with parameter
`toolong`

, the input dissimilarities can contain `NA`

s. If
`toolong`

is zero or negative, the function does not make any
dissimilarities into `NA`

. If there are no `NA`

s in the
input and `toolong = 0`

, `path = "shortest"`

will find shorter paths for semi-metric indices, and ```
path =
"extended"
```

will do nothing. Function `no.shared`

can be
used to set dissimilarities to `NA`

.

If the data are disconnected or there is no path between all points,
the result will
contain `NA`

s and a warning is issued. Several methods cannot
handle `NA`

dissimilarities, and this warning should be taken
seriously. Function `distconnected`

can be used to find
connected groups and remove rare outlier observations or groups of
observations.

Alternative `path = "shortest"`

uses Dijkstra's method for
finding flexible shortest paths, implemented as priority-first search
for dense graphs (Sedgewick 1990). Alternative ```
path =
"extended"
```

follows De'ath (1999), but implementation is simpler
than in his code.

Function returns an object of class `dist`

with extended
dissimilarities (see functions `vegdist`

and
`dist`

).
The value of `path`

is appended to the `method`

attribute.

The function changes the original dissimilarities, and not all
like this. It may be best to use the
function only when you really *must*: extremely high
beta diversity where a large proportion of dissimilarities are at their
upper limit (no species in common).

Semi-metric indices vary in their degree of violating the triangle
inequality. Morisita and Horn–Morisita indices of
`vegdist`

may be very strongly semi-metric, and shortest
paths can change these indices very much. Mountford index violates
basic rules of dissimilarities: non-identical sites have zero
dissimilarity if species composition of the poorer site is a subset of
the richer. With Mountford index, you can find three sites *i, j,
k* so that *d[ik] = 0* and *d[jk] =
0*, but *d[ij] > 0*. The results of `stepacross`

on Mountford index can be very weird. If `stepacross`

is needed,
it is best to try to use it with more metric indices only.

Jari Oksanen

Bradfield, G.E. & Kenkel, N.C. (1987). Nonlinear ordination using
flexible shortest path adjustment of ecological
distances. *Ecology* 68, 750–753.

De'ath, G. (1999). Extended dissimilarity: a method of robust
estimation of ecological distances from high beta diversity
data. *Plant Ecol.* 144, 191–199.

Sedgewick, R. (1990). *Algorithms in C*. Addison Wesley.

Williamson, M.H. (1978). The ordination of incidence
data. *J. Ecol.* 66, 911-920.

Function `distconnected`

can find connected groups in
disconnected data, and function `no.shared`

can be used to
set dissimilarities as `NA`

. See `swan`

for an
alternative approach. Function `stepacross`

is an essential
component in `isomap`

and `cophenetic.spantree`

.

# There are no data sets with high beta diversity in vegan, but this # should give an idea. data(dune) dis <- vegdist(dune) edis <- stepacross(dis) plot(edis, dis, xlab = "Shortest path", ylab = "Original") ## Manhattan distance have no fixed upper limit. dis <- vegdist(dune, "manhattan") is.na(dis) <- no.shared(dune) dis <- stepacross(dis, toolong=0)

[Package *vegan* version 1.16-32 Index]