TRIBES AND CLADES WITHIN APIACEAE SUBFAMILY APIOIDEAE: THE CONTRIBUTION OF MOLECULAR DATA

Authors

  • S. R. DOWNIE Department of Plant Biology, University of Illinois
  • G. M. PLUNKETT Department of Biology, Virginia Commonwealth University
  • M. F. WATSON Royal Botanic Garden Edinburgh
  • K. SPALIK Department of Plant Systematics and Geography, Warsaw University
  • D. S. KATZ-DOWNIE Department of Plant Biology, University of Illinois
  • C. M. VALIEJO-ROMAN A. N. Belozersky Institute of Physico-Chemical Biology, Moscow State University
  • E. I. TERENTIEVA Botanical Garden, Moscow State University
  • A. V. TROITSKY A. N. Belozersky Institute of Physico-Chemical Biology, Moscow State University
  • B.-Y. LEE Department of Plant Biology, University of Illinois
  • J. LAHHAM Department of Biological Sciences, Yarmouk University
  • A. EL-OQLAH Department of Biological Sciences, Yarmouk University

DOI:

https://doi.org/10.1017/S0960428601000658

Keywords:

Chloroplast intron, internal transcribed spacer, molecular systematics, nuclear rDNA, phylogeny, suprageneric classification, Umbelliferae

Abstract

Phylogenetic analyses of chloroplast gene (rbcL, matK), intron (rpl16, rps16, rpoC1) and nuclear ribosomal DNA internal transcribed spacer (ITS) sequences and chloroplast DNA restriction sites, with supplementary data from variation in size of the chloroplast genome inverted repeat, have been used to elucidate major clades within Apiaceae (Umbelliferae) subfamily Apioideae Drude. This paper summarizes the results of previously published molecular cladistic analyses and presents a provisional classification of the subfamily based on taxonomic congruence among the data sets. Ten tribes (Aciphylleae M. F. Watson & S. R. Downie, Bupleureae Spreng., Careae Baill., Echinophoreae Benth., Heteromorpheae M. F. Watson & S. R. Downie, Oenantheae Dumort., Pleurospermeae M. F. Watson & S. R. Downie, Pyramidoptereae Boiss., Scandiceae Spreng. and Smyrnieae Spreng.) are erected or confirmed as monophyletic, with Scandiceae comprising subtribes Daucinae Dumort., Scandicinae Tausch and Torilidinae Dumort. Seven additional clades are also recognized but have yet to be treated formally, and at least 23 genera examined to date are of dubious tribal or clade placement. The utility of these different molecular markers for phylogenetic inference in Apioideae is compared based on maximum parsimony analyses of subsets of previously published molecular data sets. Of the six loci sequenced, the ITS region is seen to be evolving most rapidly and rbcL is the most conservative. Intermediate in rate of evolution are matK and the three chloroplast introns; with rpl16 and rps16 evolving slightly faster than matK or rpoC1. The analysis of restriction sites, however, provided 2–4 times more parsimony informative characters than any single DNA locus sequenced, with estimates of divergence just slightly lower than that of the ITS region. The trees obtained from separate analyses of these reduced data sets are consistent with regard to the major clades inferred and the relationships among them. Similar phylogenies are obtained by combining data or combining trees, representing the supermatrix and supertree approaches to phylogenetic analysis, respectively. The inferred relationship among the tribes and informally recognized major clades within Apioideae is presented.

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Published

2001-10-23

Issue

Section

Original Research Articles