1 CHANGES IN APE VERSION 2.3-3
6 o add.scale.bar() always drew a horizontal bar.
8 o zoom() shuffled tips with unrooted trees.
10 o write.nexus() failed to write correctly trees with a "TipLabel"
13 o rcoal() failed to compute branch lengths with very large n.
15 o A small bug was fixed in compar.cheverud() (thanks to Michael
18 o seg.sites() failed when passing a vector.
20 o drop.tip() sometimes shuffled tip labels.
22 o root() shuffled node labels with 'resolve.root = TRUE'.
26 CHANGES IN APE VERSION 2.3-2
31 o all.equal.phylo() did not compare unrooted trees correctly.
33 o dist.topo(... method = "PH85") did not treat unrooted trees
34 correctly (thanks to Tim Wallstrom for the fix).
36 o root() sometimes failed to test for the monophyly of the
39 o extract.clade() sometimes included too many edges.
41 o vcv.phylo() did not work correctly when the tree is in
44 o nj() did not handle correctly distance matrices with many 0's.
45 The code has also been significantly improved: 7, 70, 160 times
46 faster with n = 100, 500, 1000, respectively.
50 CHANGES IN APE VERSION 2.3-1
55 o The new function is.monophyletic tests the monophyly of a group.
57 o There is now a c() method for lists of class "DNAbin".
59 o yule.cov() now fits the null model, and its help page has been
60 corrected with respect to this change.
62 o drop.tip() has a new option 'rooted' to force (or not) a tree
63 to be treated as (un)rooted.
68 o dist.gene() failed on most occasions with the default
69 pairwise.deletion = FALSE.
71 o read.tree() failed to read correctly the tree name(s).
73 o boot.phylo() now treats correctly data frames.
75 o del.gaps() did not copy the rownames of a matrix.
77 o A small bug was fixed in CDAM.global().
79 o ace() failed with large data sets. Thanks to Rich FitzJohn for
80 the fix. With other improvements, this function is now about 6
83 o write.tree() failed with objects of class "multiPhylo".
85 o drop.tip(, subtree = TRUE) sometimes shuffled tip labels.
90 o [.multiPhylo and [.DNAbin now respect the original class.
92 o Instances of the form class(phy) == "phylo" have been replaced
93 by inherits(phy, "phylo").
95 o rcoal() is now faster.
100 o klastorin() has been removed.
104 CHANGES IN APE VERSION 2.3
109 o The new functions CADM.global and CADM.post, contributed by
110 Pierre Legendre, test the congruence among several distance
113 o The new function yule.time fits a user-defined time-dependent
114 Yule model by maximum likelihood.
116 o The new function makeNodeLabel creates and/or modifies node
117 labels in a flexible way.
119 o read.tree() and write.tree() have been modified so that they can
120 handle individual tree names.
122 o plot.phylo() has a new argument 'edge.lty' that specifies the
123 types of lines used for the edges (plain, dotted, dashed, ...)
125 o phymltest() has been updated to work with PhyML 3.0.1.
130 o drop.tip() shuffled tip labels in some cases.
132 o drop.tip() did not handle node.label correctly.
134 o is.ultrametric() now checks the ordering of the edge matrix.
136 o ace() sometimes returned negative values of likelihoods of
137 ancestral states (thanks to Dan Rabosky for solving this long
143 o The data set xenarthra has been removed.
147 CHANGES IN APE VERSION 2.2-4
151 o The bug fix in read.nexus() in version 2.2-3 was wrong: this is
152 now fixed. (Thanks to Peter Wragg for the fix!)
154 o A warning message occurred for no reason with ace(method="GLS").
159 o There is now a general help page displayed with '?ape'
163 CHANGES IN APE VERSION 2.2-3
168 o The new function extract.clade extracts a clade from a tree by
169 specifying a node number or label.
171 o fastme.bal() has two new options 'spr' and 'tbr' to perform tree
172 operations of the same names.
174 o dist.dna() can now return the number of site differences by
175 specifying model="N".
180 o chronopl() did not work with CV = TRUE.
182 o read.nexus() did not work correctly in some situations (trees on
183 multiple lines with different numbers of lines and/or with
184 comments inserted within the trees).
186 o ltt.plot(), ltt.lines(), and mltt.plot() did not count correctly
187 the number of lineages with non-binary trees.
192 o ape has now a namespace.
194 o drop.tip() has been improved: it should be much faster and work
195 better in some cases (e.g., see the example in ?zoom).
199 CHANGES IN APE VERSION 2.2-2
204 o dist.gene() has been substantially improved and gains an option
207 o cbind.DNAbin() has a new option 'fill.with.gaps' and is now
213 o prop.part() failed with a single tree with the default option
214 'check.labels = TRUE'.
216 o summary.DNAbin() failed to display correctly the summary of
217 sequence lengths with lists of sequences of 10,000 bases or more
218 (because summary.default uses 4 significant digits by default).
220 o read.nexus() failed to read a file with a single tree with line
221 breaks in the Newick string.
223 o del.gaps() returned a list of empty sequences when there were no
229 o phymltest() has been updated for PhyML 3.0 and gains an option
230 'append', whereas the option 'path2exec' has been removed.
232 o rbind.DNAbin() and cbind.DNAbin() now accept a single matrix
233 which is returned unchanged (instead of an error).
235 o The data sets bird.orders and bird.families are now stored as
236 Newick strings; i.e., the command data(bird.orders) calls
241 CHANGES IN APE VERSION 2.2-1
246 o The new function makeLabel() helps to modify labels of trees,
247 lists of trees, or DNA sequences, with several utilities to
248 truncate and/or make them unique, substituting some
249 characters, and so on.
251 o The new function del.gaps() removes insertion gaps ("-") in a
252 set of DNA sequences.
254 o read.dna() can now read Clustal files (*.aln).
259 o root() failed with 'resolve.root = TRUE' when the root was
260 already the specified root.
262 o Several bugs were fixed in mlphylo().
264 o collapsed.singles() did not propagate the 'Nnode' and
265 'node.labels' elements (thanks to Elizabeth Purdom for the fix).
267 o read.nexus() failed to remove correctly the comments within
270 o read.nexus() failed to read a file with a single tree and no
271 translation of tip labels.
273 o read.nexus() failed to place correctly tip labels when reading
274 a single tree with no edge lengths.
276 o A bug was fixed in sh.test().
281 o unique.multiPhylo() is faster thanks to a suggestion by Vladimir
284 o The option 'check.labels' of consensus() and prop.part() is now
287 o write.dna() now does not truncate names to 10 characters with
292 CHANGES IN APE VERSION 2.2
297 o Four new functions have been written by Damien de Vienne for the
298 graphical exploration of large trees (cophyloplot, subtrees,
299 subtreeplot), and to return the graphical coordinates of tree
302 o The new functions corPagel and corBlomberg implement the Pagel's
303 "lambda" and Blomberg et al.'s "ACDC" correlation structures.
305 o chronopl() has been improved and gains several options: see its
306 help page for details.
308 o boot.phylo() has now an option 'trees' to possibly return the
309 bootstraped trees (the default is FALSE).
311 o prop.part() has been improved and should now be faster in all
317 o read.dna() failed if "?" occurred in the first 10 sites of the
320 o The x/y aspect of the plot is now respected when plotting a
321 circular tree (type = "r" or "f").
323 o Drawing the tip labels sometimes failed when plotting circular
326 o zoom() failed when tip labels were used instead of their numbers
327 (thanks to Yan Wong for the fix).
329 o drop.tip() failed with some trees (fixed by Yan Wong).
331 o seg.sites() failed with a list.
333 o consensus() failed in some cases. The function has been improved
334 as well and is faster.
338 CHANGES IN APE VERSION 2.1-3
343 o A bug in read.nexus() made the Windows R-GUI crash.
345 o An error was fixed in the computation of ancestral character
346 states by generalized least squares in ace().
348 o di2multi() did not modify node labels correctly.
350 o multi2di() failed if the tree had its attribute "order" set to
355 CHANGES IN APE VERSION 2.1-2
360 o There three new methods for the "multiPhylo" class: str, $,
363 o root() gains the options 'node' and 'resolve.root'
364 (FALSE by default) as well as its code being improved.
366 o mltt.plot() has now an option 'log' used in the same way
367 than in plot.default().
372 o mltt.plot() failed to display the legend with an unnamed
375 o nodelabels() with pies now correcly uses the argument
376 'cex' to draw symbols of different sizes (which has
377 worked already for thermometers).
379 o read.nexus() generally failed to read very big files.
384 o The argument 'family' of compar.gee() can now be a function
385 as well as a character string.
387 o read.tree() and read.nexus() now return an unnamed list if
390 o read.nexus() now returns a modified object of class "multiPhylo"
391 when there is a TRANSLATE block in the NEXUS file: the individual
392 trees have no 'tip.label' vector, but the list has a 'TipLabel'
393 attribute. The new methods '$' and '[[' set these elements
394 correctly when extracting trees.
398 CHANGES IN APE VERSION 2.1-1
403 o The new function rmtree generates lists of random trees.
405 o rcoal() now generates a genuine coalescent tree by default
406 (thanks to Vladimir Minin for the code).
411 o nuc.div() returned an incorrect value with the default
412 pairwise.deletion = FALSE.
417 o The internal codes of bionj(), fastme.bal(), and fastme.ols()
418 have been improved so that they are stabler and faster.
420 o R packages used by ape are now loaded silently; lattice and gee
421 are loaded only when needed.
425 CHANGES IN APE VERSION 2.1
430 o The new function identify.phylo identifies clades on a plotted
431 tree using the mouse.
433 o It is now possible to subset a list of trees (object of class
434 "multiPhylo") with "[" while keeping its class correct.
436 o The new function as.DNAbin.alignment converts DNA sequences
437 stored in the "alignment" format of the package seqinr into
438 an object of class "DNAbin".
440 o The new function weight.taxo2 helps to build similarity matrices
441 given two taxonomic levels (usually called by other functions).
443 o write.tree() can now take a list of trees (class "multiPhylo")
444 as its main argument.
446 o plot.correlogram() and plot.correlogramList() have been
447 improved, and gain several options (see the help page for
448 details). A legend is now plotted by default.
453 o dist.dna() returned some incorrect values with `model = "JC69"'
454 and `pairwise.deletion = TRUE'. This affected only the
455 distances involving sequences with missing values. (Thanks
456 to Bruno Toupance for digging this bug out.)
458 o write.tree() failed with some trees: this is fixed by removing
459 the `multi.line' option (trees are now always printed on a
462 o read.nexus() did not correctly detect trees with multiple root
463 edges (see OTHER CHANGES).
468 o The code of mlphylo() has been almost entirely rewritten, and
469 should be much stabler. The options have been also greatly
470 simplified (see ?mlphylo and ?DNAmodel for details).
472 o The internal function nTips has been renamed klastorin_nTips.
474 o The code of is.ultrametric() contained redundancies and has
477 o The code of Moran.I() and of correlogram.formula() have been
480 o read.tree() and read.nexus() now return an error when trying to
481 read a tree with multiple root edges (see BUG FIXES). The
482 correction applied in previous version did not work in all
485 o The class c("multi.tree", "phylo") has been renamed
491 o There is now a vignette in ape: see vignette("MoranI", "ape").
496 o as.matching() and as.phylo.matching() do not support branch
499 o correlogram.phylo() and discrete.dist() have been removed.
503 CHANGES IN APE VERSION 2.0-2
508 o The new function matexpo computes the exponential of a square
511 o The new function unique.multi.tree removes duplicate trees from
514 o yule() has a new option `use.root.edge = FALSE' that specifies
515 to ignore, by default, the root edge of the tree if it exists.
520 o which.edge() failed when the index of a single terminal edge was
523 o In diversi.time(), the values returned for model C were
526 o A bug was fixed in yule() that affected the calculation of the
527 likelihood in the presence of ties in the branching times.
529 o There was a bug in the C function mat_expo4x4 affecting the
530 calculations of the transition probabilities for models HKY and
533 o A small bug was fixed in as.matrix.DNAbin (thanks to James
536 o rtree() did not `shuffle' the tip labels by default, so only a
537 limited number of labelled topologies could be generated.
541 CHANGES IN APE VERSION 2.0-1
546 o The three new functions bionj, fastme.ols, and fastme.bal
547 perform phylogeny estimation by the BIONJ and fastME methods in
548 OLS and balanced versions. This is a port to R of previous
549 previous programs done by Vincent Lefort.
551 o The new function chronoMPL performs molecular dating with the
552 mean path lengths method of Britton et al. (2002, Mol. Phyl.
555 o The new function rotate, contributed by Christoph Heibl, swaps
556 two clades connected to the same node. It works also with
557 multichotomous nodes.
559 o The new `method' as.matrix.DNAbin() may be used to convert
560 easily DNA sequences stored in a list into a matrix while
561 keeping the names and the class.
566 o chronopl() failed when some branch lengths were equal to zero:
567 an error message is now returned.
569 o di2multi() failed when there was a series of consecutive edges
574 CHANGES IN APE VERSION 1.10-2
579 o plot.phylo() can now plot circular trees: the option is type =
580 "fan" or type = "f" (to avoid the ambiguity with type = "c").
582 o prop.part() has a new option `check.labels = FALSE' which allows
583 to considerably speed-up the calculations of bipartitions. As a
584 consequence, calculations of bootstrap values with boot.phylo()
585 should be much faster.
590 o read.GenBank() did not return correctly the list of species as
591 from ape 1.10: this is fixed in this version
593 o Applying as.phylo() on a tree of class "phylo" failed: the
594 object is now returned unchanged.
598 CHANGES IN APE VERSION 1.10-1
603 o The three new functions Ntip, Nnode, and Nedge return, for a
604 given tree, the number of tips, nodes, or edges, respectively.
609 o read.nexus() did not set correctly the class of the returned
610 object when reading multiple trees.
612 o mllt.plot() failed with objects of class c("multi.tree",
615 o unroot() did not work correctly in most cases.
617 o reorder.phylo() made R freeze in some occasions.
619 o Plotting a tree in pruningwise order failed.
621 o When plotting an unrooted tree, the tip labels where not all
622 correctly positioned if the option `cex' was used.
626 CHANGES IN APE VERSION 1.10
631 o Five new `method' functions have been introduced to manipulate
632 DNA sequences in binary format (see below).
634 o Three new functions have been introduced to convert between the
635 new binary and the character formats.
637 o The new function as.alignment converts DNA sequences stored as
638 single characters into the class "alignment" used by the package
641 o read.dna() and read.GenBank() have a new argument `as.character'
642 controlling whether the sequences are returned in binary format
648 o root() failed when the tree had node labels: this is fixed.
650 o plot.phylo() did not correctly set the limits on the y-axis with
651 the default setting: this is fixed.
653 o dist.dna() returned a wrong result for the LogDet, paralinear,
654 and BH87 models with `pairwise.deletion = TRUE'.
659 o DNA sequences are now internally stored in a binary format. See
660 the document "A Bit-Level Coding Scheme for Nucleotides" for the
661 details. Most functions analyzing DNA functions have been
662 modified accordingly and are now much faster (dist.dna is now
663 ca. 60 times faster).
667 CHANGES IN APE VERSION 1.9-4
672 o A bug was fixed in edgelabels().
674 o as.phylo.hclust() did not work correctly when the object of
675 class "hclust" has its labels set to NULL: the returned tree has
676 now its tip labels set to "1", "2", ...
678 o consensus could fail if some tip labels are a subset of others
679 (e.g., "a" and "a_1"): this is now fixed.
681 o mlphylo() failed in most cases if some branch lengths of the
682 initial tree were greater than one: an error message is now
685 o mlphylo() failed in most cases when estimating the proportion of
686 invariants: this is fixed.
690 CHANGES IN APE VERSION 1.9-3
695 o The new function edgelabels adds labels on the edge of the tree
696 in the same way than nodelabels or tiplabels.
701 o multi2di() did not handle correctly branch lengths with the
702 default option `random = TRUE': this is now fixed.
704 o A bug was fixed in nuc.div() when using pairwise deletions.
706 o A bug occurred in the analysis of bipartitions with large
707 numbers of large trees, with consequences on prop.part,
708 prop.clades, and boot.phylo.
710 o The calculation of the Billera-Holmes-Vogtmann distance in
711 dist.topo was wrong: this has been fixed.
715 CHANGES IN APE VERSION 1.9-2
720 o The new function ladderize reorganizes the internal structure of
721 a tree to plot them left- or right-ladderized.
723 o The new function dist.nodes computes the patristic distances
724 between all nodes, internal and terminal, of a tree. It replaces
725 the option `full = TRUE' of cophenetic.phylo (see below).
730 o A bug was fixed in old2new.phylo().
732 o Some bugs were fixed in chronopl().
734 o The edge colours were not correctly displayed by plot.phylo
735 (thank you to Li-San Wang for the fix).
737 o cophenetic.phylo() failed with multichotomous trees: this is
743 o read.dna() now returns the sequences in a matrix if they are
744 aligned (interleaved or sequential format). Sequences in FASTA
745 format are still returned in a list.
747 o The option `full' of cophenetic.phylo() has been removed because
748 it could not be used from the generic.
753 o rotate() has been removed; this function did not work correctly
758 CHANGES IN APE VERSION 1.9-1
763 o Trees with a single tip were not read correctly in R as the
764 element `Nnode' was not set: this is fixed.
766 o unroot() did not set correctly the number of nodes of the
767 unrooted tree in most cases.
769 o read.GenBank() failed when fetching very long sequences,
770 particularly of the BX-series.
772 o A bug was introduced in read.tree() with ape 1.9: it has been
777 CHANGES IN APE VERSION 1.9
782 o There are two new print `methods' for trees of class "phylo" and
783 lists of trees of class "multi.tree", so that they are now
784 displayed in a compact and informative way.
786 o There are two new functions, old2new.phylo and new2old.phylo,
787 for converting between the old and new coding of the class
790 o dist.dna() has three new models: Barry and Hartigan ("BH87"),
791 LogDet ("logdet"), and paralinear ("paralin").
793 o compute.brlen() has been extended: several methods are now
794 available to compute branch lengths.
796 o write.dna() can now handle matrices as well as lists.
801 o cophenetic.phylo() sometimes returned a wrong result with
802 multichotomous trees: this is fixed.
804 o rotate() failed when a single tip was specified: the tree is now
807 o ace() did not return the correct index matrix with custom
808 models: this is fixed.
810 o multi2di() did not work correctly when resolving multichotomies
811 randomly: the topology was always the same, only the arrangement
812 of clades was randomized: this is fixed. This function now
813 accepts trees with no branch lengths.
815 o The output of diversi.gof() was blurred by useless prints when a
816 user distribution was specified. This has been corrected, and
817 the help page of this function has been expanded.
822 o The internal structure of the class "phylo" has been changed:
823 see the document "Definition of Formats for Coding Phylogenetic
824 Trees in R" for the details. In addition, the code of most
825 functions has been improved.
827 o Several functions have been improved by replacing some R codes
828 by C codes: pic, plot.phylo, and reorder.phylo.
830 o There is now a citation information: see citation("ape") in R.
832 o write.tree() now does not add extra 0's to branch lengths so
833 that 1.23 is printed "1.23" by default, not "1.2300000000".
835 o The syntax of bind.tree() has been simplified. This function now
836 accepts trees with no branch lengths, and handles correctly node
839 o The option `as.numeric' of mrca() has been removed.
841 o The unused options `format' and `rooted' of read.tree() have
844 o The unused option `format' of write.tree() has been removed.
846 o The use of node.depth() has been simplified.
850 CHANGES IN APE VERSION 1.8-5
855 o Two new functions read.nexus.data() and write.nexus.data(),
856 contributed by Johan Nylander, allow to read and write molecular
857 sequences in NEXUS files.
859 o The new function reorder.phylo() reorders the internal structure
860 of a tree of class "phylo". It is used as the generic, e.g.,
863 o read.tree() and read.nexus() can now read trees with a single
866 o The new data set `cynipids' supplies a set of protein sequences
872 o The code of all.equal.phylo() has been completely rewritten
873 (thanks to Benoît Durand) which fixes several bugs.
875 o read.tree() and read.nexus() now checks the labels of the tree
876 to remove or substitute any characters that are illegal in the
877 Newick format (parentheses, etc.)
879 o A negative P-value could be returned by mantel.test(): this is
884 CHANGES IN APE VERSION 1.8-4
889 o The new function sh.test() computes the Shimodaira-
892 o The new function collapse.singles() removes the nodes with a
893 single descendant from a tree.
895 o plot.phylo() has a new argument `tip.color' to specify the
898 o mlphylo() has now an option `quiet' to control the display of
899 the progress of the analysis (the default is FALSE).
904 o read.dna() did not read correctly sequences in sequential format
905 with leading alignment gaps "-": this is fixed.
907 o ace() returned a list with no class so that the generic
908 functions (anova, logLik, ...) could not be used directly. This
909 is fixed as ace() now returns an object of class "ace".
911 o anova.ace() had a small bug when computing the number of degrees
912 of freedom: this is fixed.
914 o mlphylo() did not work when the sequences were in a matrix or
915 a data frame: this is fixed.
917 o rtree() did not work correctly when trying to simulate an
918 unrooted tree with two tips: an error message is now issued.
923 o The algorithm of rtree() has been changed: it is now about 40,
924 100, and 130 times faster for 10, 100, and 1000 tips,
929 CHANGES IN APE VERSION 1.8-3
934 o There are four new `method' functions to be used with the
935 results of ace(): logLik(), deviance(), AIC(), and anova().
937 o The plot method of phymltest has two new arguments: `main' to
938 change the title, and `col' to control the colour of the
939 segments showing the AIC values.
941 o ace() has a new argument `ip' that gives the initial values used
942 in the ML estimation with discrete characters (see the examples
943 in ?ace). This function now returns a matrix giving the indices
944 of the estimated rates when analysing discrete characters.
946 o nodelabels() and tiplabels() have a new argument `pie' to
947 represent proportions, with any number of categories, as
948 piecharts. The use of the option `thermo' has been improved:
949 there is now no limitation on the number of categories.
954 o mlphylo() did not work with more than two partitions: this is
957 o root() failed if the proposed outgroup was already an outgroup
958 in the tree: this is fixed.
960 o The `col' argument in nodelabels() and tiplabels() was not
961 correctly passed when `text' was used: this is fixed.
963 o Two bugs were fixed in mlphylo(): parameters were not always
964 correctly output, and the estimation failed in some cases.
966 o plot.phylo() was stuck when given a tree with a single tip: this
967 is fixed and a message error is now returned.
969 o An error was corrected in the help page of gammaStat regarding
970 the calculation of P-values.
972 o Using gls() could crash R when the number of species in the tree
973 and in the variables were different: this is fixed.
977 CHANGES IN APE VERSION 1.8-2
982 o The new function mlphylo() fits a phylogenetic tree by maximum
983 likelihood from DNA sequences. Its companion function DNAmodel()
984 is used to define the substitution model which may include
985 partitioning. There are methods for logLik(), deviance(), and
986 AIC(), and the summary() method has been extended to display in
987 a friendly way the results of this model fitting. Currently, the
988 functionality is limited to estimating the substitution and
989 associated parameters and computing the likelihood.
991 o The new function drop1.compar.gee (used as, e.g., drop1(m))
992 tests for single effects in GEE-based comparative method. A
993 warning message is printed if there is not enough degrees of
999 o An error message was sometimes issued by plot.multi.tree(),
1000 though with no consequence.
1004 CHANGES IN APE VERSION 1.8-1
1009 o There is a new plot method for lists of trees (objects of class
1010 "multi.tree"): it calls plot.phylo() internally and is
1011 documented on the same help page.
1016 o A bug was fixed in the C code that analyzes bipartitions: this
1017 has impact on several functions like prop.part, prop.clades,
1018 boot.phylo, or consensus.
1020 o root() did not work correctly when the specified outgroup had
1021 more than one element: this is fixed.
1023 o dist.dna() sometimes returned a warning inappropriately: this
1026 o If the distance object given to nj() had no rownames, nj()
1027 returned a tree with no tip labels: it now returns tips labelled
1028 "1", "2", ..., corresponding to the row numbers.
1033 o nj() has been slightly changed so that tips with a zero distance
1034 are first aggregated with zero-lengthed branches; the usual NJ
1035 procedure is then performed on a distance matrix without 0's.
1039 CHANGES IN APE VERSION 1.8
1044 o The new function chronopl() estimates dates using the penalized
1045 likelihood method by Sanderson (2002; Mol. Biol. Evol., 19:101).
1047 o The new function consensus() calculates the consensus tree of a
1050 o The new function evolve.phylo() simulates the evolution of
1051 continuous characters along a phylogeny under a Brownian model.
1053 o The new plot method for objects of class "ancestral" displays a
1054 tree together with ancestral values, as returned by the above
1057 o The new function as.phylo.formula() returns a phylogeny from a
1058 set of nested taxonomic variables given as a formula.
1060 o The new function read.caic() reads trees in CAIC format.
1062 o The new function tiplabels() allows to add labels to the tips
1063 of a tree using text or plotting symbols in a flexible way.
1065 o The new function unroot() unroots a phylogeny.
1067 o multi2di() has a new option, `random', which specifies whether
1068 to resolve the multichotomies randomly (the default) or not.
1070 o prop.part() now returns an object of class "prop.part" for which
1071 there are print (to display a partition in a more friendly way)
1072 and summary (to extract the numbers) methods.
1074 o plot.phylo() has a new option, `show.tip.label', specifying
1075 whether to print the labels of the tips. The default is TRUE.
1077 o The code of nj() has been replaced by a faster C code: it is now
1078 about 10, 25, and 40 times faster for 50, 100, and 200 taxa,
1081 o write.nexus() now writes whether a tree is rooted or not.
1086 o Two bugs have been fixed in root(): unrooted trees are now
1087 handled corretly, and node labels are now output normally.
1089 o A bug was fixed in phymltest(): the executable couldn't be found
1092 o Three bug have been fixed in ace(): computing the likelihood of
1093 ancestral states of discrete characters failed, custom models
1094 did not work, and the function failed with a null gradient (a
1095 warning message is now returned; this latter bug was also
1096 present in yule.cov() as well and is now fixed).
1098 o pic() hanged out when missing data were present: a message error
1101 o A small bug was fixed in dist.dna() where the gamma correction
1102 was not always correctly dispatched.
1104 o plot.phylo() plotted correctly the root edge only when the tree
1105 was plotted rightwards: this works now for all directions.
1110 o dist.taxo() has been renamed as weight.taxo().
1112 o Various error and warning messages have been improved.
1116 CHANGES IN APE VERSION 1.7
1119 o The new function ace() estimates ancestral character states for
1120 continuous characters (with ML, GLS, and contrasts methods), and
1121 discrete characters (with ML only) for any number of states.
1123 o The new function compar.ou() fits the Ornstein-Uhlenbeck model
1124 of directional evolution for continuous characters. The user
1125 specifies the node(s) of the tree where the character optimum
1128 o The new function is.rooted() tests whether a tree (of class
1131 o The new function rcoal() generates random ultrametric trees with
1132 the possibility to specify the function that generates the
1133 inter-nodes distances.
1135 o The new function mrca() gives for all pairs of tips in a tree
1136 (and optionally nodes too) the most recent common ancestor.
1138 o nodelabels() has a new option `thermo' to plot proportions (up
1139 to three classes) on the nodes of a tree.
1141 o rtree() has been improved: it can now generate rooted or
1142 unrooted trees, and the mathematical function that generates the
1143 branch lengths may be specified by the user. The tip labels may
1144 be given directly in the call to rtree. The limit cases (n = 2,
1145 3) are now handled correctly.
1147 o dist.topo() has a new argument `method' with two choices: "PH85"
1148 for Penny and Henny's method (already available before and now
1149 the default), and "BHV01" for the geometric distance by Billera
1150 et al. (2001, Adv. Appl. Math. 27:733).
1152 o write.tree() has a new option, `digits', which specifies the
1153 number of digits to be printed in the Newick tree. By default
1154 digits = 10. The numbers are now always printed in decimal form
1155 (i.e., 1.0e-1 is now avoided).
1157 o dist.dna() can now compute the raw distances between pairs of
1158 DNA sequences by specifying model = "raw".
1160 o dist.phylo() has a new option `full' to possibly compute the
1161 distances among all tips and nodes of the tree. The default if
1167 o Several bugs were fixed in all.equal.phylo().
1169 o dist.dna() did not handle correctly gaps ("-") in alignments:
1170 they are now considered as missing data.
1172 o rotate() did not work if the tips were not ordered: this is
1175 o mantel.test() returned NA in some special cases: this is fixed
1176 and the function has been improved and is now faster.
1178 o A bug was fixed in diversi.gof() where the calculation of A² was
1181 o cherry() did not work correctly under some OSs (mainly Linux):
1184 o is.binary.tree() has been modified so that it works with both
1185 rooted and unrooted trees.
1187 o The documentation of theta.s() was not correct: this has been
1190 o plot.mst() did not work correctly: this is fixed.
1194 CHANGES IN APE VERSION 1.6
1199 o The new function dist.topo() computes the topological distances
1202 o The new function boot.phylo() performs a bootstrap analysis on
1203 phylogeny estimation.
1205 o The new functions prop.part() and prop.clades() analyse
1206 bipartitions from a series of trees.
1211 o read.GenBank() now uses the EFetch utility of NCBI instead of
1212 the usual Web interface: it is now much faster (e.g., 12 times
1213 faster to retrieve 8 sequences, 37 times for 60 sequences).
1218 o Several bugs were fixed in read.dna().
1220 o Several bugs were fixed in diversi.time().
1222 o is.binary.tree() did not work correctly if the tree has no edge
1223 lengths: this is fixed.
1225 o drop.tip() did not correctly propagated the `node.label' of a
1226 tree: this is fixed.
1230 CHANGES IN APE VERSION 1.5
1235 o Two new functions, as.matching.phylo() and as.phylo.matching(),
1236 convert objects between the classes "phylo" and "matching". The
1237 latter implements the representation of binary trees introduced by
1238 Diaconis and Holmes (1998; PNAS 95:14600). The generic function
1239 as.matching() has been introduced as well.
1241 o Two new functions, multi2di() and di2multi(), allow to resolve
1242 and collapse multichotomies with branches of length zero.
1244 o The new function nuc.div() computes the nucleotide diversity
1245 from a sample a DNA sequences.
1247 o dist.dna() has been completely rewritten with a much faster
1248 (particularly for large data sets) C code. Eight models are
1249 available: JC69, K80, F81, K81, F84, T92, TN93, and GG95 (the
1250 option `method' has been renamed `model'). Computation of variance
1251 is available for all models. A gamma-correction is possible for
1252 JC69, K80, F81, and TN93. There is a new option, pairwise.deletion,
1253 to remove sites with missing data on a pairwise basis. The option
1254 `GCcontent' has been removed.
1256 o read.GenBank() has a new option (species.names) which specifies
1257 whether to return the species names of the organisms in addition
1258 to the accession numbers of the sequences (this is the default
1261 o write.nexus() can now write several trees in the same NEXUS file.
1263 o drop.tip() has a new option `root.edge' that allows to specify the
1264 new root edge if internal branches are trimmed.
1269 o as.phylo.hclust() failed if some labels had parentheses: this
1272 o Several bugs were fixed in all.equal.phylo(). This function now
1273 returns the logical TRUE if the trees are identical but with
1274 different representations (a report was printed previously).
1276 o read.GenBank() did not correctly handle ambiguous base codes:
1282 o birthdeath() now returns an object of class "birthdeath" for
1283 which there is a print method.
1287 CHANGES IN APE VERSION 1.4
1292 o The new function nj() performs phylogeny estimation with the
1293 neighbor-joining method of Saitou and Nei (1987; Mol. Biol.
1296 o The new function which.edge() identifies the edges of a tree
1297 that belong to a group specified as a set of tips.
1299 o The new function as.phylo.phylog() converts an object of class
1300 "phylog" (from the package ade4) into an object of class
1303 o The new function axisPhylo() draws axes on the side of a
1306 o The new function howmanytrees() calculates the number of trees
1307 in different cases and giving a number of tips.
1309 o write.tree() has a new option `multi.line' (TRUE by default) to
1310 write a Newick tree on several lines rather than on a single
1313 o The functionalities of zoom() have been extended. Several
1314 subtrees can be visualized at the same time, and they are marked
1315 on the main tree with colors. The context of the subtrees can be
1316 marked with the option `subtree' (see below).
1318 o drop.tip() has a new option `subtree' (FALSE by default) which
1319 specifies whether to output in the tree how many tips have been
1322 o The arguments of add.scale.bar() have been redefined and have
1323 now default values (see ?add.scale.bar for details). This
1324 function now works even if the plotted tree has no edge length.
1326 o plot.phylo() can now plot radial trees, but this does not take
1327 edge lengths into account.
1329 o In plot.phylo() with `type = "phylogram"', if the values of
1330 `edge.color' and `edge.width' are identical for sister-branches,
1331 they are propagated to the vertical line that link them.
1336 o Repeated calls to as.phylo.hclust() or as.hclust.phylo() made R
1337 crashing. This is fixed.
1339 o In plot.phylo(), the options `edge.color' and `edge.width' are
1340 now properly recycled; their default values are now "black" and
1343 o A bug has been fixed in write.nexus().
1348 o The function node.depth.edgelength() has been removed and
1349 replaced by a C code.
1353 CHANGES IN APE VERSION 1.3-1
1358 o The new function nodelabels() allows to add labels to the nodes
1359 of a tree using text or plotting symbols in a flexible way.
1361 o In plot.phylo() the arguments `x.lim' and `y.lim' can now be two
1362 numeric values specifying the lower and upper limits on the x-
1363 and y-axes. This allows to leave some space on any side of the
1364 tree. If a single value is given, this is taken as the upper
1369 CHANGES IN APE VERSION 1.3
1374 o The new function phymltest() calls the software PHYML and fits
1375 28 models of DNA sequence evolution. There are a print method to
1376 display likelihood and AIC values, a summary method to compute
1377 the hierarchical likelihood ratio tests, and a plot method to
1378 display graphically the AIC values of each model.
1380 o The new function yule.cov() fits the Yule model with covariates,
1381 a model where the speciation rate is affected by several species
1382 traits through a generalized linear model. The parameters are
1383 estimated by maximum likelihood.
1385 o Three new functions, corBrownian(), corGrafen(), and
1386 corMartins(), compute the expected correlation structures among
1387 species given a phylogeny under different models of evolution.
1388 These can be used for GLS comparative phylogenetic methods (see
1389 the examples). There are coef() and corMatrix() methods and an
1390 Initialize.corPhyl() function associated.
1392 o The new function compar.cheverud() implements Cheverud et al.'s
1393 (1985; Evolution 39:1335) phylogenetic comparative method.
1395 o The new function varcomp() estimates variance components; it has
1398 o Two new functions, panel.superpose.correlogram() and
1399 plot.correlogramList(), allow to plot several phylogenetic
1402 o The new function node.leafnumber() computes the number of leaves
1403 of a subtree defined by a particular node.
1405 o The new function node.sons() gets all tags of son nodes from a
1408 o The new function compute.brlen() computes the branch lengths of
1409 a tree according to a specified method.
1411 o plot.phylo() has three new options: "cex" controls the size of
1412 the (tip and node) labels (thus it is no more needed to change
1413 the global graphical parameter), "direction" which allows to
1414 plot the tree rightwards, leftwards, upwards, or downwards, and
1415 "y.lim" which sets the upper limit on the y-axis.
1420 o Some functions which try to match tip labels and names of
1421 additional data (e.g. vector) are likely to fail if there are
1422 typing or syntax errors. If both series of names do not perfectly
1423 match, they are ignored and a warning message is now issued.
1424 These functions are bd.ext, compar.gee, pic. Their help pages
1425 have been clarified on this point.
1429 CHANGES IN APE VERSION 1.2-7
1434 o The new function root() reroots a phylogenetic tree with respect
1435 to a specified outgroup.
1437 o The new function rotate() rotates an internal branch of a tree.
1439 o In plot.phylo(), the new argument "lab4ut" (labels for unrooted
1440 trees) controls the display of the tip labels in unrooted trees.
1441 This display has been greatly improved: the tip labels are now not
1442 expected to overlap with the tree (particularly if lab4ut =
1443 "axial"). In all cases, combining appropriate values of "lab4ut"
1444 and the font size (via "par(cex = )") should result in readable
1445 unrooted trees. See ?plot.phylo for some examples.
1447 o In drop.tip(), the argument `tip' can now be numeric or character.
1452 o drop.tip() did not work correctly with trees with no branch
1453 lengths: this is fixed.
1455 o A bug in plot.phylo(..., type = "unrooted") made some trees being
1456 plotted with some line crossings: this is now fixed.
1460 CHANGES IN APE VERSION 1.2-6
1465 o Six new functions (Moran.I, correlogram.formula, discrete.dist,
1466 correlogram.phylo, dist.taxo, plot.correlogram) have been added
1467 to implement comparative methods with an autocorrelation approach.
1469 o A new data set describing some life history traits of Carnivores
1475 o A fix was made on mcmc.popsize() to conform to R 2.0.0.
1480 o When plotting a tree with plot.phylo(), the new default of the
1481 option `label.offset' is now 0, so the labels are always visible.
1485 CHANGES IN APE VERSION 1.2-5
1490 o The new function bd.ext() fits a birth-death model with combined
1491 phylogenetic and taxonomic data, and estimates the corresponding
1492 speciation and extinction rates.
1497 o The package gee is no more required by ape but only suggested
1498 since only the function compar.gee() calls gee.
1502 CHANGES IN APE VERSION 1.2-4
1507 o Four new functions (mcmc.popsize, extract.popsize, plot.popsize,
1508 and lines.popsize) implementing a new approach for inferring the
1509 demographic history from genealogies using a reversible jump
1510 MCMC have been introduced.
1512 o The unit of time in the skyline plot and in the new plots can
1513 now be chosen to be actual years, rather than substitutions.
1517 CHANGES IN APE VERSION 1.2-3
1522 o The new function rtree() generates a random binary tree with or
1523 without branch lengths.
1525 o Two new functions for drawing lineages-through-time (LTT) plots
1526 are provided: ltt.lines() adds a LTT curve to an existing plot,
1527 and mltt.plot() does a multiple LTT plot giving several trees as
1528 arguments (see `?ltt.plot' for details).
1533 o Some taxon names made R crashing when calling as.phylo.hclust():
1536 o dist.dna() returned an error with two identical DNA sequences
1537 (only using the Jukes-Cantor method returned 0): this is fixed.
1542 o The function dist.phylo() has been re-written using a different
1543 algorithm: it is now about four times faster.
1545 o The code of branching.times() has been improved: it is now about
1550 CHANGES IN APE VERSION 1.2-2
1555 o The new function seg.sites() finds the segregating sites in a
1556 sample of DNA sequences.
1561 o A bug introduced in read.tree() and in read.nexus() with version
1564 o A few errors were corrected and a few examples were added in the
1569 CHANGES IN APE VERSION 1.2-1
1574 o plot.phylo() can now draw the edge of the root of a tree if it
1575 has one (see the new option `root.edge', its default is FALSE).
1580 o A bug was fixed in read.nexus(): files with semicolons inside
1581 comment blocks were not read correctly.
1583 o The behaviour of read.tree() and read.nexus() was corrected so
1584 that tree files with badly represented root edges (e.g., with
1585 an extra pair of parentheses, see the help pages for details)
1586 are now correctly represented in the object of class "phylo";
1587 a warning message is now issued.
1591 CHANGES IN APE VERSION 1.2
1596 o plot.phylo() has been completely re-written and offers several
1597 new functionalities. Three types of trees can now be drawn:
1598 phylogram (as previously), cladogram, and unrooted tree; in
1599 all three types the branch lengths can be drawn using the edge
1600 lengths of the phylogeny or not (e.g., if the latter is absent).
1601 The vertical position of the nodes can be adjusted with two
1602 choices (see option `node.pos'). The code has been re-structured,
1603 and two new functions (potentially useful for developpers) are
1604 documented separately: node.depth.edgelength() and node.depth();
1605 see the respective help pages for details.
1607 o The new function zoom() allows to explore very large trees by
1608 focusing on a small portion of it.
1610 o The new function yule() fits by maximum likelihood the Yule model
1611 (birth-only process) to a phylogenetic tree.
1613 o Support for writing DNA sequences in FASTA format has been
1614 introduced in write.dna() (support for reading sequences in
1615 this format was introduced in read.dna() in version 1.1-2).
1616 The function has been completely re-written, fixing some bugs
1617 (see below); the default behaviour is no more to display the
1618 sequences on the standard output. Several options have been
1619 introduced to control the sequence printing in a flexible
1620 way. The help page has been extended.
1622 o A new data set is included: a supertree of bats in NEXUS format.
1627 o In theta.s(), the default of the option `variance' has
1628 been changed to `FALSE' (as was indicated in the help page).
1630 o Several bugs were fixed in the code of all.equal.phylo().
1632 o Several bugs were fixed in write.dna(), particularly this
1633 function did not work with `format = "interleaved"'.
1635 o Various errors were corrected in the help pages.
1640 o The argument names of as.hclust.phylo() have been changed
1641 from "(phy)" to "(x, ...)" to conform to the definition of
1642 the corresponding generic function.
1644 o gamma.stat() has been renamed gammaStat() to avoid confusion
1645 since gamma() is a generic function.
1649 CHANGES IN APE VERSION 1.1-3
1654 o base.freq() previously did not return a value of 0 for
1655 bases absent in the data (e.g., a vector of length 3 was
1656 returned if one base was absent). This is now fixed (a
1657 vector of length 4 is always returned).
1659 o Several bugs were fixed in read.nexus(), including that this
1660 function did not work in this absence of a "TRANSLATE"
1661 command in the NEXUS file, and that the commands were
1666 CHANGES IN APE VERSION 1.1-2
1671 o The Tamura and Nei (1993) model of DNA distance is now implemented
1672 in dist.dna(): five models are now available in this function.
1674 o A new data set is included: a set of 15 sequences of the
1675 cytochrome b mitochondrial gene of the woodmouse (Apodemus
1681 o A bug in read.nexus() was fixed.
1683 o read.dna() previously did not work correctly in most cases.
1684 The function has been completely re-written and its help page
1685 has been considerably extended (see ?read.dna for details).
1686 Underscores (_) in taxon names are no more replaced with
1687 spaces (this behaviour was undocumented).
1689 o A bug was fixed in write.dna().
1693 CHANGES IN APE VERSION 1.1-1
1698 o A bug in read.tree() introduced in APE 1.1 was fixed.
1700 o A bug in compar.gee() resulted in an error when trying to fit
1701 a model with `family = "binomial"'. This is now fixed.
1705 CHANGES IN APE VERSION 1.1
1710 o The Klastorin (1982) method as suggested by Misawa and Tajima
1711 (2000, Mol. Biol. Evol. 17:1879-1884) for classifying genes
1712 on the basis of phylogenetic trees has been implemented (see
1713 the function klastorin()).
1715 o Functions have been added to convert APE's "phylo" objects in
1716 "hclust" cluster objects and vice versa (see the help page of
1717 as.phylo for details).
1719 o Three new functions, ratogram(), chronogram() and NPRS.criterion(),
1720 are introduced for the estimation of absolute evolutionary rates
1721 (ratogram) and dated clock-like trees (chronogram) from
1722 phylogenetic trees using the non-parametric rate smoothing approach
1723 by MJ Sanderson (1997, Mol. Biol. Evol. 14:1218-1231).
1725 o A summary method is now provided printing a summary information on a
1726 phylogenetic tree with, for instance, `summary(tree)'.
1728 o The behaviour of read.tree() was changed so that all spaces and
1729 tabulations in tree files are now ignored. Consequently, spaces in tip
1730 labels are no more allowed. Another side effect is that read.nexus()
1731 now does not replace the underscores (_) in tip labels with spaces
1732 (this behaviour was undocumented).
1734 o The function plot.phylo() has a new option (`underscore') which
1735 specifies whether the underscores in tip labels should be written on
1736 the plot as such or replaced with spaces (the default).
1738 o The function birthdeath() now computes 95% confidence intervals of
1739 the estimated parameters using profile likelihood.
1741 o Three new data sets are included: a gene tree estimated from 36
1742 landplant rbcL sequences, a gene tree estimated from 32 opsin
1743 sequences, and a gene tree for 50 BRCA1 mammalian sequences.
1748 o A bug was fixed in dist.gene() where nothing was returned.
1750 o A bug in plot.mst() was fixed.
1752 o A bug in vcv.phylo() resulted in false correlations when the
1753 option `cor = TRUE' was used (now fixed).
1757 CHANGES IN APE VERSION 1.0
1762 o Two new functions, read.dna() and write.dna(), read/write in a file
1763 DNA sequences in interleaved or in sequential format.
1765 o Two new functions, read.nexus() and write.nexus(), read/write trees
1768 o The new function bind.tree() allows to bind two trees together,
1769 possibly handling root edges to give internal branches.
1771 o The new function drop.tip() removes the tips in a phylogenetic tree,
1772 and trims (or not) the corresponding internal branches.
1774 o The new function is.ultrametric() tests if a tree is ultrametric.
1776 o The function plot.phylo() has more functionalities such as drawing the
1777 branches with different colours and/or different widths, showing the
1778 node labels, controling the position and font of the labels, rotating
1779 the labels, and controling the space around the plot.
1781 o The function read.tree() can now read trees with no branch length,
1782 such as "(a,b),c);". Consequently, the element `edge.length' in
1783 objects of class "phylo" is now optional.
1785 o The function write.tree() has a new default behaviour: if the default
1786 for the option `file' is used (i.e. file = ""), then a variable of
1787 mode character containing the tree in Newick format is returned which
1788 can thus be assigned (e.g., tree <- write.tree(phy)).
1790 o The function read.tree() has a new argument `text' which allows
1791 to read the tree in a variable of mode character.
1793 o A new data set is included: the phylogenetic relationships among
1794 the orders of birds from Sibley and Ahlquist (1990).
1798 CHANGES IN APE VERSION 0.2-1
1803 o Several bugs were fixed in the help pages.
1807 CHANGES IN APE VERSION 0.2
1812 o The function write.tree() writes phylogenetic trees (objects of class
1813 "phylo") in an ASCII file using the Newick parenthetic format.
1815 o The function birthdeath() fits a birth-death model to branching times
1816 by maximum likelihood, and estimates the corresponding speciation and
1819 o The function scale.bar() adds a scale bar to a plot of a phylogenetic
1822 o The function is.binary.tree() tests whether a phylogeny is binary.
1824 o Two generic functions, coalescent.intervals() and collapsed.intervals(),
1825 as well as some methods are introduced.
1827 o Several functions, including some generics and methods, for computing
1828 skyline plot estimates (classic and generalized) of effective
1829 population size through time are introduced and replace the function
1830 skyline.plot() in version 0.1.
1832 o Two data sets are now included: the phylogenetic relationships among
1833 the families of birds from Sibley and Ahlquist (1990), and an
1834 estimated clock-like phylogeny of HIV sequences sampled in the
1835 Democratic Republic of Congo.
1838 DEPRECATED & DEFUNCT
1840 o The function skyline.plot() in ape 0.1 has been deprecated and
1841 replaced by more elaborate functions (see above).
1846 o Two important bugs were fixed in plot.phylo(): phylogenies with
1847 multichotomies not at the root or not with only terminal branches,
1848 and phylogenies with a single node (i.e. only terminal branches)
1849 did not plot. These trees should be plotted correctly now.
1851 o Several bugs were fixed in diversi.time() in the computation of
1854 o Various errors were corrected in the help pages.