Published August 13, 2015 | Version v1

Data from: Phylogenetic signal detection from an ancient rapid radiation: effects of noise reduction, long-branch attraction, and model selection in crown clade Apocynaceae

  • 1. Oberlin College
  • 2. University of Florida
  • 3. Oregon State University
  • 4. Drexel University

Description

Crown clade Apocynaceae comprise seven primary lineages of lianas, shrubs, and herbs with a diversity of pollen aggregation morphologies including monads, tetrads, and pollinia, making them an ideal group for investigating the evolution and function of pollen packaging. Traditional molecular systematic approaches utilizing small amounts of sequence data have failed to resolve relationships along the spine of the crown clade, a likely ancient rapid radiation. The previous best estimate of the phylogeny was a five-way polytomy, leaving ambiguous the homology of aggregated pollen in two major lineages, the Periplocoideae, which possess pollen tetrads, and the milkweeds (Secamonoideae plus Asclepiadoideae), which possess pollinia. To assess whether greatly increased character sampling would resolve these relationships, a plastome sequence data matrix was assembled for 13 taxa of Apocynaceae, including nine newly generated complete plastomes, one partial new plastome, and three previously reported plastomes, collectively representing all primary crown clade lineages and outgroups. The effects of phylogenetic noise, long-branch attraction, and model selection (linked versus unlinked branch lengths among data partitions) were evaluated in a hypothesis-testing framework based on Shimodaira–Hasegawa tests. Discrimination among alternative crown clade resolutions was affected by all three factors. Exclusion of the noisiest alignment positions and topologies influenced by long-branch attraction resulted in a trichotomy along the spine of the crown clade consisting of Rhabdadenia + the Asian clade, Baisseeae + milkweeds, and Periplocoideae + the New World clade. Parsimony reconstruction on all optimal topologies after noise exclusion unambiguously supports parallel evolution of aggregated pollen in Periplocoideae (tetrads) and milkweeds (pollinia). Our phylogenomic approach has greatly advanced the resolution of one of the most perplexing radiations in Apocynaceae, providing the basis for study of convergent floral morphologies and their adaptive value.

Notes

Files

105_topologies.txt

Files (41.0 MB)

Name Size Download all
md5:5af4752186da571b1fa05e1e7ba0278d
17.2 kB Preview Download
md5:9d9ba6b4ec3c806cf29a53d2a5507f3d
188 Bytes Download
md5:905c7edfff1452112ffb49a004a2ca08
201 Bytes Download
md5:e59bd3e95aecd4771795ba95f255bc90
191 Bytes Download
md5:a31febc393bc34b4b5aaec3d9554004e
516 Bytes Download
md5:78896055ecdf5ff634205d019036a099
14.7 kB Preview Download
md5:02862770bc437f51b25a0aa267073a08
14.7 kB Preview Download
md5:a972475796fc0d47ad13d4bd0b09ba55
360 Bytes Download
md5:2366ac7c0a777fcdc9eb684c5bbe06b1
518 Bytes Download
md5:2366ac7c0a777fcdc9eb684c5bbe06b1
518 Bytes Download
md5:28dd69600a5d398ad6a54db681663172
334 Bytes Download
md5:566a2120a581d5ee8fa7a5c66d5b4ae0
334 Bytes Download
md5:80ef9a447f97bdeb31d33dee2df5fcdd
16.8 MB Preview Download
md5:5eafe31cecf60b56c346fcc0af180af3
11.9 MB Preview Download
md5:b69793e7a5050a1331f9a010051abc48
10.6 kB Preview Download
md5:217cf8eae42b8f571b23b859bf66a89d
3.8 kB Preview Download
md5:353c30cf25f52477231097801c5aa0d0
5.5 kB Preview Download
md5:12250b246ddae8c7cb61dba72e352ef2
9.5 MB Download
md5:8ba9badd2bbffa0be32449a258173d1a
718 Bytes Download
md5:dd57266970f5a6da6de9396358eda43e
39.7 kB Download
md5:a5e4806a89af3ce96ab8d79267be0fc5
13.1 kB Download
md5:8dd6da2b7c074779dc7e150c8e5856da
13.0 kB Preview Download
md5:d76c8425cc401707c072496f3162f0b1
29.4 kB Download
md5:24f40c3260423177514cfaf02fde4946
1.7 MB Download
md5:72677161d55965b3be0614aaaf89dbd8
376.0 kB Download
md5:65875dd6f33264209cef65651faa2d45
399.1 kB Download
md5:839c78965ba0d8aa860475d7dc838b07
676 Bytes Download
md5:8198befaf4c18b2e8b031cb313f56923
13.6 kB Preview Download
md5:2570eb4fec23f7002776c662111df2fc
13.2 kB Preview Download
md5:3f400c88f0fc4568bf31147791abd49f
13.2 kB Preview Download
md5:0574d6b502a543d1bef8d8fb82d097d7
13.2 kB Preview Download
md5:91ff2d132be69d752657eb67c89ed618
13.6 kB Preview Download
md5:5f776a967b34eaa4ffadc5a9dbb820dc
13.2 kB Preview Download
md5:a0b057376389cdc9409e227082d5f97c
13.2 kB Preview Download
md5:c3a337c4888b7e7c49133b21c98fc656
13.2 kB Preview Download
md5:3b9bc87b5494414c8508c35f3c838e1e
14.4 kB Preview Download
md5:e26a2ed9234a51fa28e2d2b2b9e4a01a
17.2 kB Download

Additional details

Related works