Delineation of the Genera Struvea Bonder and Phyllodictyon J. E. Gray (Cladophorales, Chlorophyta)

Abstract

SUMMARYPlants of the stalked, net‐forming green alga Struvea plumosa Sender, the type species of the genus Struvea, divide segregatively at every stage of their multicellular differentiation. The segregative process results in virtually simultaneous internal cleavage of the cytoplasts of parent axes or laterals into uniseriate series of nearly identically sized daughter cells m which intercalary cross‐wall formation never takes place. Several branch orders result through a repeated process by which each daughter cell produces a pair of opposite protrusions at its distal end; the protruded arms subsequently undergo segregative divisions themselves after reaching a sufficient length. Struvea elegans Børgesen is seemingly the only other member of the genus in which the thallus divides by this segregative process. The remaining species appear to lack segregative cell division, their septation resulting from non‐synchronous, centripetal wall ingrowths that divide parent cells into more or less equal halves. Intercalary cell divisions are common, this process being easily seen in the most widely distributed member of the genus, Struvea anastomosans (Harv.) Pice, et Grunov ex Pice. Phyllodictyon J. E. Gray, based on Phyllodictyon putcherrimum. is currently considered a synonym of Struvea but should be reinstated to accommodate those former species of Struvea that have Cladophoratype. as opposed to segregative, cell division. Although the two genera thus differ substantially in their modes of cytokinesis and are assumed to represent independent developmental lines, both Struvea and Phyllodictyon are assigned to the Cladophorales on the basis of molecular studies by others showing that recognition of the separate order Siphonocladales renders the Cladophorales paraphyletic.