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1. Test for toxins prior to adding an algaecide because algaecides damage the cells releasing any toxins that may
be within the cells. Whole cells are more easily removed than the much smaller toxins.
2. For HABs affecting drinking water contact Bob Clement 303-312-6653 or Jake Crosby 303-312-6389. For
HABs affecting recreation contact Tina Laidlaw 406-457-5016.
3. This does not apply to Tribal systems. Wyoming Department of Health can be reached at 1-877-996-9000.
4. Especially if microcystins are greater than 5 ppb in the raw water, PWSs may want to test for other toxins or
review phytoplankton types to see if other toxins are or could be present. When resources are limited testing
for total microcystins using ELISA should be the priority.
5. LC-MS/MS analysis may be useful to determine the specific toxin variants present, but analysis by ELISA is the
preferred primary analytical method since it analyzes for all toxin variants and not just a subset.
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Table 1 Cyanotoxins thresholds and analytical methods
Cyanotoxin thresholds and analytical methods
Type of notice
Total
Microcystins2
Cylindrospermopsi
n
Anatoxin-a1
Total Saxitoxins1,2
Do not Drink:
children under
6 and sensitive
populations3
0.3 ppb
(EPA Health
Advisory value)
0.7 ppb
(EPA Health
Advisory value)
20 ppb
(Ohio Health
Advisory value)
0.2 ppb
(Ohio Health
Advisory value)
Do not Drink:
Children 6 and
older & adults
1.6 ppb
(EPA Health
Advisory value)
3.0 ppb
(EPA Health
Advisory value)
20 ppb
(Ohio Health
Advisory value)
0.2 ppb
(Ohio Health
Advisory value)
Do not use4
20 ppb
20 ppb
300 ppb
3 ppb
Test Strip
Monitoring
Abraxis dip
strips5
Abraxis dip
strips5
Abraxis dip
strips5
When
available
Toxin
Monitoring
and Repeat
Sampling
ELISA-ADDA
and/or
LC-MS/MS6
ELISA and/or
LC-MS/MS
ELISA and/or
LC-MS/MS
ELISA7 and/or
LC-MS/MS
1. Documentation of the calculations of the threshold levels for anatoxin-a and saxitoxin are found in
Appendix C of Ohio EPA's Public Water System Harmful Algae Bloom Response Strategy, July 2015. The
link to this document:
http://epa.ohio.gov/Portals/28/documents/HABs/PWS HAB Response Strategy.pdf
2. Microcystins and saxitoxins thresholds are intended to be applied to total concentrations of all
reported congeners/variants of those cyanotoxins.
3. The USEPA health advisories identify potentially sensitive populations to include pregnant women,
nursing mothers, those receiving dialysis treatment, those with pre-existing liver conditions, the elderly
and immune-compromised as individuals who may want to consider following the recommendations
for children.
4. The drinking water "do not use" thresholds are based on the recreational no contact advisory
thresholds. These values are from Ohio EPA's Public Water System Harmful Algae Bloom Response
Strategy, July 2015.
5. Use for raw water only.
6. ELISA-ADDA tests for all variants of microcystins but currently only has a detection level around 0.3
ppb. LC-MS/MS tests for a subset of the variants but has a very low detection level. Higher levels are
typically found with ELISA as it is a measure of total microcystins. ELISA is the preferred method since
the health advisory value is for total microcystins.
7. Unlike the ELISA method for microcystins, ELISA for saxitoxins tests for many of the variants but not
all.
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Table 2 Screening parameters for assessing bloom severity1
If a PWS is already routinely analyzing for the parameters below, then the severity of the bloom can be
classified as:
Minor bloom (meets any of the following)
Cyanobacteria cell count (or phycocyanin equivalents2) 4,000 to 10,000 cells/ml
Biovolume 0.4 to 1 mm3/L
Chlorophyll a 2 to 5 ppb
Some visual evidence of a bloom (blooms may not be visually apparent at the surface)
Moderate bloom (meets any of the following)
Cyanobacteria cell count (or phycocyanin equivalents2) 10,000 to 100,000 cells/ml
Biovolume 1 to 10 mm3/L
Chlorophyll a 5 to 50 ppb
Bloom is visible throughout the water column
Severe bloom (meets any of the following)
Cyanobacteria cell count (or phycocyanin equivalents2) >100,000 cells/ml
Biovolume > 10 mm3/L
Chlorophyll a >50 ppb
Algae mat is present and/or significant concentration of cells are visible throughout the water
column
Presence of cyanotoxins, as indicated by test kit or laboratory analyses
1. Screening parameters are from Ohio EPA Public Water System Harmful Algae Bloom Response Strategy, July
2015.
2. Phycocyanin is a pigment unique to cyanobacteria. Sensors are available which measure the presence of this
pigment and report relative cyanobacteria concentrations in cells/ml.
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Visual and bottle test
Source of information: Vermont's HAB guidance at
http://healthvermont. gov/enviro/bg algae/documents/BGA guide.pdf
Contact in Vermont: Heather Campbell 802-338-4817
heather. campbell@state.vt.us
Contact at Region 8: Bob Clement 303-312-6653
clement.robert@epa. gov
Visual test: Examine algae to
determine if there are
cyanobacteria/blue-green algae
characteristics
It is NOT cyanobacteria if:
• You can see leaf-like structures or roots
• The material is long and stringy, or can be lifted out of the water on
a stick
• If it is firmly attached to plants, rock or the bottom (e.g. you can't
lift it out)
It MAY be potentially hazardous cyanobacteria if:
• The material consists of small particles that are pinhead size or
smaller
• The material is collecting in a layer at the surface or along the
shoreline;
the surface layer may appear oily
• The water is murky and colored a brownish green, milky green or
blue
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Bottle test or float test: Examine algae
to determine if it is cyanobacteria/
blue-green algae characteristics
It may be cyanobacteria if the algae float:
Many cyanobacteria can regulate their buoyancy and will float to the
top of the water when it is calm. Most other algae don't have this
ability. Most debris and plant material will sink or be identifiable as
debris. Microscopic animals will swim randomly and often with a jerky
motion.
You can check to see if cyanobacteria are present by filling a clear two
liter bottle or a bucket with water. The water should be collected away
from any debris or large plant material floating along the shoreline.
Allow the bucket or bottle to stand in a quiet sunny place, out of the
wind. If present, cyanobacteria will often begin to move toward the
surface.
Wait 15-30 minutes and observe the upper portion of the container.
Cyanobacteria, which may be a mix of several different kinds, will tend
to accumulate in the upper portion of the water while debris and plant
material will be at the bottom. There may be smaller material in the
middle, which will remain suspended for some time.
When filling the container from a dense accumulation, minimize skin
contact with the material by wearing gloves or a plastic bag over your
hands.
Be aware that the concentration of cyanobacteria at a location can
change daily, even hourly, as the weather conditions change. If you do
the float test routinely, you will begin to become familiar with how the
water and cyanobacteria look under different conditions.
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Also, cyanobacteria may not always move to the surface in 30
minutes. If there is a bloom in progress, with a large amount of
cyanobacteria in the water, at least a portion should move toward the
surface. With experience, you will become familiar with how your
lake looks and when conditions warrant a closer examination
Cyanobacteria are
floating on the top
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