Phylogenetic relationships of the brown algal orders Ectocarpales, Chordariales, Dictyosiphonales, and Tilopteridales (Phaeophyceae) based on RUBISCOlarge subunit and spacer sequences
Bl. Siemer et al., Phylogenetic relationships of the brown algal orders Ectocarpales, Chordariales, Dictyosiphonales, and Tilopteridales (Phaeophyceae) based on RUBISCOlarge subunit and spacer sequences, J PHYCOLOGY, 34(6), 1998, pp. 1038-1048
Phylogenetic relationships among 23 species of morphologically simple brown
algae belonging to the Ectocarpales sensu stricto, Chordariales, Dictyosip
honales, and Tilopteridales sensu stricto, Phaeophyceae (Fucophyceae), were
analyzed using chloroplast-encoded RUBISCO large subunit gene sequences (r
bcL) and the associated RUBISCO spacer sequences. Comparison of the observe
d and expected sequence divergence at the three codon positions of rbcL sho
wed that the level of mutational saturation within the brown algae is minor
. Thus, rbcL is well suited for phylogenetic studies in this group. Unweigh
ted parsimony analyses and a neighbor-joining distance analysis were perfor
med using unambiguously aligned rbcL sequences from the above four orders,
one marine raphidophyte and two Tribophyceae (Xantophyceae). Polyphyly of T
ilopteridales sensu lato (i.e. including Dictyosiphonales) is verified; we
therefore recommend the use of Tilopteridales in the strict sense. The Ecto
carpales, Chordariales, and Dictyosiphonales are paraphyletic with respect
to each other, forming a highly interwoven clade. A separate parsimony anal
ysis of the RUBISCO spacer as well as a combined rbcL and spacer analysis s
upported the close relationship among the latter three orders, adding to th
e evidence that they should be subsumed into the Ectocarpales sensu lato.