Filamentous Algae | Including Colonial Forms
Colonial algae have a variety of forms, ranging from thin, fragile filaments or nets to large, gelatinous “blobs.” Four common genera are Lyngbya, Hydrodictyon, Pithophora, and Spirogyra.
Pithophora is an alga that forms major surface infestations made up of small to medium colonies that resemble dark to lime green cotton balls. Its filaments are large and distinguishable but, unlike other algae, are difficult to tear apart and coarse to the touch. Pithophora is most common in spring and summer but may persist year-round.
Mats of this cyanobacteria are typically black in the spring, becoming mottled (black, brown, green, and white) in late summer and fall. Extensive mats on pond bottoms persist during all seasons, making Lyngbya difficult to control. Blooms (population explosion) occur in elevated calcium or phosphorus levels. Lyngbya has a strong musty odor and coarse filaments. It is known to produce neurotoxins capable of killing fish, livestock, and pets.
This green alga may form surface colonies that appear frothy and medium to pale green. Mats readily break apart when handled. Blooms occur in protected hard-water environments with elevated nutrient levels, typically during midsummer. Close inspection of Hydrodictyon reveals a fine, net-like structure.
This green alga forms bottom and surface mats that are initially bright green, then fade to yellow in the summer. Individual strands of Spirogyra run parallel and have a smooth, silky feel.
None. Filamentous algae do not significantly add to the food web and can quickly reach problematic levels. Blooms should be dealt with swiftly upon identification.
Treatment is based on acre-feet or surface area. Acre-feet is calculated as average depth multiplied by surface acres. Most Mississippi ponds average about 5 to 6 feet deep and have 5 to 6 acre-feet per surface acre. For surface area, use the area of the whole pond, not just the area of plant coverage.
Species other than Pithophora or Lyngbya: Chelated copper complexes. Use 1.5 gallons per acre-foot (9 gallons per surface acre). Dilute each part of copper complex with 9 parts water. Granules can be used to kill filamentous algae growing on the pond bottom, and spray should be used to address the algae mats at the surface. Granular rate is 60 pounds per surface acre. Copper can be toxic to fish when water alkalinity is low. Although unlikely, some mortality of bass and bream is possible when alkalinity is less than 50 ppm. Do not use copper in catfish or koi ponds when alkalinity is less than 50 ppm.
For Pithophora: Mix a chelated copper liquid and diquat solution using a 1:1 ratio. Apply at a rate of 2 gallons per acre-foot, or 12 gallons per surface acre for most ponds. Also apply chelated copper granules where algae grow on the bottom. See use restrictions above.
For Lyngbya: Apply peroxide (e.g., Phycomycin) at a rate of 75 pounds per treated surface acre. Wait 48–72 hours for the Lyngbya mat to detach from the lakebed and float to the surface. Once the mat detaches, apply a chelated copper compound containing D-limonene (e.g., Cutrine-Ultra) to the surface of the waterbody at 2 gallons per surface acre.
Apply on sunny days when water temperature is above 60°F. Use of copper when alkalinity is less than 50 ppm may kill fish. For heavy blooms, treat only one-third of the pond at a time during the early morning hours. Wait 1 week between treatments of filamentous algae.
Read and follow all chemical label instructions, especially the section on the use of personal protection equipment.
The information given here is for educational purposes only. References to commercial products, trade names, or suppliers are made with the understanding that no endorsement is implied and that no discrimination against other products or suppliers is intended.
Publication 3735-1 (POD-03-22)
By Wes Neal, PhD, Extension/Research Professor, Wildlife, Fisheries, and Aquaculture; Dennis Riecke, Fisheries Coordinator, Mississippi Department of Wildlife, Fisheries, and Parks; and Gray Turnage, PhD, Assistant Research/Extension Professor, GeoSystems Research Institute.
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