Recent media reports involving pet fatalities linked to contact with cyanobacteria have generated a lot of concern. Just what is cyanobacteria? How can you spot it? What can be done to prevent or treat it? Keep reading for the details.
Cyanobacteria, is commonly referred to as
blue-green algae. Cyanobacteria can be confused with algae because of the
coloration. A visual inspection of a "bloom" will not reveal whether
it is cyanobacteria versus algae.
Cyanobacteria blooms often occur in warm, calm water where nutrient levels are high. Heavy nutrient sources include uncontrolled sewage discharge, agricultural run-off, and fertilization of adjacent grass areas.
WHAT DOES CYANOBACTERIA LOOK LIKE?
There are many species of cyanobacteria. Based on the species, the visible characteristics vary. Planktothrix forms a green pollen-like film covering the surface. Mycrosystis and Dolichospermum form green paint-like slick on the water surface and near shorelines. As the surface films age they can appear to be bubbling and may take on different coloration. Other cyanobacteria species are found below the surface of the water making detection difficult. In order to confirm that a bloom is cyanobacteria, it must be tested. You cannot reach a conclusion based on appearance alone.
Important facts about Cyanobacteria
Exposure to cyanotoxins released by Blue-green algae can have extremely serious health impacts for humans, domestic animals, wildlife, and aquatic life.
The release of toxins occurs during the death or rupture of cyanobacteria cells. These toxins include endotoxins, neurotoxins, and hepatoxins. Exposure to cyanotoxins can occur from swimming in infested areas, ingestion of contaminated water, and breathing in toxins when near affected waters. It is important to note that even boiling water infected with cyanobacteria will not kill the toxins.
Effects of exposure include skin irritation(endotoxin), abdominal pain(endotoxin), headache(endotoxin), vomiting(endotoxin), diarrhea(endotoxin), respiratory disease(neurotoxin), paralysis (neurotoxin), liver failure(hepatoxin)and even death.
HOW TO MANAGE CYANOBACTERIA
Prevention is the best approach
Monitor water quality (especially Nitrogen and Phosphorous)
Keep oxygen levels high with aeration
Use beneficial bacteria to manage nutrient concentrations
Apply phosphate binder as needed to keep phosphate concentrations low
Nutrient reduction is important for controlling of cyanobacteria. It is important to determine the source of excess nutrients.
Run-off? Sewage? Fertilization? For known sources- find ways to reduce inputs like diverting flow from runoff, planting vegetation to create a buffer, limit amount of lawn fertilizing. Other sources include organic muck accumulation from dead leaves and vegetation, fish and waterfowl waste.
Although total nitrogen, and total phosphorus elevations are key factors in cyano blooms, simply the presence of these nutrients in water does not result in a bloom. Studies have shown that cyanobacteria blooms occur more frequently when the N:P ratio drops below 29:1.(Science 221 (4611), 669-671)
Based on this research, if TP (total phosphorus) is lowered, then so is the likelihood of a blue-green algae bloom. Total phosphorus can be lowered safely by treating the water with a Phosphate binder such as buffered aluminum sulfate. To limit new phosphorus from releasing from organic muck, bottom aeration should be used to increase oxygen levels.
Algaecides can be used to kill blooms in their early stages. There is the possibility for toxins to release from cyanobacteria after application. This is because the cyanotoxins release when the cells die.
EXERCISE EXTREME CARE INCLUDING PERSONAL PROTECTIVE EQUIPMENT (GLOVES, EYE PROTECTION, OVERALLS, AND RESPIRATOR) WHEN EXPOSED TO CYANOBACTERIA.
Cyanobacteria and Pond Fertilizing
Water quality analysis should be completed before adding fertilizer to a trophy bass pond. Since the ratio of Total Nitrogen to Total Phosphorus is a key factor in the occurrence of cyanobacteria, adding too much Phosphorus can force the ratio into a range where a cyanobacteria bloom could occur. A small amount of Phosphorus will go a long way when fertilizing a pond. If you have any doubt about the correct amount, consult with a professional familiar with pond nutrients and nutrient ratios.
For help preventing cyanobacteria and high nutrient levels email us at firstname.lastname@example.org