When the water in ditches, ponds and puddles shows a green color, everyone knows that it is caused by algae. When green floating algae masses are present, they are usually filamentous algae. Their characteristic feature is that they consist of long chains (filaments) of connected cells that at some point become intertwined and form a network. The cells have chloroplasts with shapes characteristic of the species. The group belongs to the Chlorophyta (green algae). During hot and sunny periods in the summer, large masses of algae can form on ditches and ponds. The ditch becomes suffocated and when the algae die, an anoxic environment arises. An alga called Spirogyra is usually the cause of this. This alga feels slimy and can be recognized by that alone. Other common filamentous algae include Cladophora and Oedogonium. It is interesting to study filamentous algae under the microscope, even though there can be occasional disappointment when it turns out that a sample taken contains Spirogyra for the umpteenth time…………
The chloroplasts of Chlorophyta are characterized by the presence of pyrenoids. These are round, thickened structures in which the enzyme RuBisCO is concentrated and where CO2 fixation takes place.
Spirogyra gets its name from the spiral-shaped chloroplasts in the cells. About 100 species of this algae occur in central Europe and it is sometimes called 'pond scum'. Sexual reproduction occurs by a process called conjugation in which two filaments become adjacent to each other and adjacent cells from the two strands fuse their cytoplasm (scalariform conjugation). The two cells form protrusions (papillae) that touch each other, after which the contents of one of the cells transfer to the other cell. This process can also take place between adjacent cells in a single filament (lateral conjugation). After the contents of both cells have fused, a zygote is created with a thick cell wall and a new filament is later formed from this zygote. Spirogyra forms long unbranched filaments that are surrounded by a gel-like sheat that makes the algae slimy to the touch. The diameter of the filaments varies from 8-170 μm, a considerable range from very thin to very thick filaments. Sometimes a cell nucleus can be seen and the pyrenoids are usually clearly visible in the spiral chloroplasts. The cells may contain a single or multiple chloroplasts. Spirogyra is a nice study object to observe cytoplasmic streaming (cyclosis).
Spirogyra photographed with Carl Zeiss 10/0.22 in darkfield illumination (left) and normal brightfield with Carl Zeiss Jena Apo 16/0.40 (right).
A single cell of Spirogyra photographed in different focal planes to see the details more clearly. C: chloroplast. P: pyrenoid. N: nucleus. Objective: Zeiss-Winkel 40/0.65.
Spirogyra photographed in brightfield with Carl Zeiss Neofluar 40/0.75.
Spirogyra photographed with circular oblique illumination which gives a more spatial impression. Objective: with Leitz Pl Apo 25/0.65.
Spirogyra photographed with Carl Zeiss 63/0.80. Diameter of the filament is approx. 48 μm.
Very large Spirogyra specimen photographed with Olympus 10/0.25. The image shows atypical chloroplasts; this alga is dying and the chloroplasts are fragmenting.
Zygotes of Spirogyra. Objective: Zeiss-Winkel 40/0.65.
Zygotes of Spirogyra. Left with Carl Zeiss Neofluar 40/0.75, middle and right with Fl Oel 54/0.95.
Zygotes of Spirogyra after conjugation has completed. The protrusions between the two filaments are still visible. Photographed with Leitz Pl Apo 25/0.65 in normal brightfield (left) and darkfield illumination (right). Camera: Olympus Stylus 725 SW.
Cytoplasmic streaming (cyclosis) in Spirogyra. Objective: Leitz Pl Apo 40/0.75.
Linne von Berg, KH., Hoef-Emden, K., Marin, B., Melkonian, M. (2012). Der Kosmos Algenführer. Stuttgart: Franckh-Kosmos-Verlags-GmbH & Co.
Bold, H. C. (1973). Morphology of Plants. New York: Harper & Row, Publishers, Inc.