BIOGEOGRAPHY OF CLADOPHOROPSIS MEMBRANACEA (CHLOROPHYTA) BASED ON COMPARISONS OF NUCLEAR rDNA ITS SEQUENCES 1

Nucleotides were compared at 988 sites, spanning both internal transcribed spacers (ITS1 and ITS2) of the nuclear ribosomal DNA, among 17 isolates of the green alga Cladophoropsis membranacea (Hofman Bang ex C. Agardh) Boergesen and two isolates of Struvea anastomosans (Harvey) Piccone and Grunow. Collections were made from Bonaire, Curaçao, St. Croix, the Canary Islands, the Cape Verde Islands, Mauritania, Syria, the Red Sea, Okinawa, and Hawaii. Two nucleotide substitutions were found between the sequenced coding regions of C. membranacea and S. anastomosans. Of the 720 nucleotides compared in ITS1 and ITS2, an average of 6.7% sequence divergence was found within C. membranacea and 17.4% between C. membranacea and S. anastomosans. Sequences were analyzed using maximum parsimony. Phylogenetic hypotheses were compared with the biogeographic hypothesis of an east‐west Tethyan vicariance. Results of the study allow the identification of widely dispersed biogeographic populations, the identification of an underlying Tethyan imprint, and support for the hypothesis that dispersal has occurred between the Caribbean and the tropical eastern Atlantic. These results demonstrate the usefulness of ITS sequences at the sub‐specific level in C. membranacea .