The taxonomic identity and physiological ecology of Chlamydomonas hedleyi sp. nov. algal flagellate symbiont from the foraminifer Archaias angulatus

The fine structure of the symbiotic alga isolated from the formainiferan Archaias angulatus (Fichtel et Moll) DeMontfort is typical of the Chlorophyceae of the volvocalean and chlorococcalean lines. Spherical non-motile cells, 10–14 μm in diameter, characterise the dominant life cycle phase. Long oval motile forms with truncated apices are present 3–5 days after transfer to fresh medium. The pyrenoids are embedded anteriorly in the singly bilobed chloroplast and are surrounded by a sheath of starch platelets. In spite of the non-motile state of cells in older cultures (which is perhaps a reflection of its normally symbiotic condition), the alga is identified as a species of the volvocalean genus Chlamydomonas and is named C. hedleyi sp. nov.

The symbiont has no vitamin or organic requirements but growth is increased threefold in the presence of thiamine, and twofold in the presence of 1 μm glutamic acid, histidine and methionine. Urea was the best nitrogen source tested. Purines and pyrimidines did not serve as nitrogen sources. Chlamydomonas hedleyi grows well in a salinity range of 6->52‰. and a pH range of 6–8·5, 7·04 × 10^-7 m carbon h^-1 g^-1 was fixed by the symbiont, 57% being released into the medium as a chromatographically homogeneous organic molecule provisionally identified as mannitol.