The Treatment Water Deserves
CONTENTS
Our Story
The Global Problem
The Product
Outcomes
Uses & Comparisons
FAQs
Safety Profile
Product Label
OUR STORY
In 2005, Dr. Farshid Soheili, a nano/bio-
electrical engineer, set out to solve an
evolving global problem: the steady de-
cline of lakes and ponds overwhelmed by
excess nutrients. Herbicides and algae-
cides could knock back symptoms for a
while, but they couldn’t restore the natural
balance found in healthy waters bodies. Dr.
Soheili believed there was a better way - a
solution that worked with nature, not
against it. That vision became TryMarine.
After years of research and successful ap-
plications, TryMarine has delivered results
broadly deemed impossible. It helps dam-
aged lakes and ponds “turn back the clock,”
reversing the impacts of fertilizer overuse,
polluted runoff, and decades of nutrient
buildup, recovering the clarity, vitality, and
resilience of youth.
TryMarine is now being used in water bod-
ies of all sizes across the United States and
has an almost perfect record in a broad
range of applications (96%+ project con-
tinuation rate.) Most TryMarine deploy-
ments are in severely degraded lakes, hav-
ing already exhausted other strategies.
TryMarine brings a paradigm shift to lake
restoration – what was once thought im-
possible is happening daily!
OUR MISSION
TryMarine exists to help water bodies
break free from the vicious cycle of excess
nutrients, sediment buildup, and eutrophi-
cation, and move into a virtuous cycle of
recovery and healing. Our purpose is sim-
ple: restore and beautify inland waters
while supporting the ecological systems
that make them thrive.
We approach every challenge with envi-
ronmental responsibility and scientific ri-
gor as touchstones. Our solutions are engi-
neered to support natural processes, pro-
tect wildlife, and respect the intricate natu-
ral dance that perpetually produces clean
water.
We recognize the deep connection be-
tween people and world — how water
shapes our well-being, and how our actions
shape water. This partnership deserves
care, balance, and thoughtful stewardship
– our global future demands it.
TryMarine is a long-term, sustainable an-
swer to a growing global tragedy of poor
management and overuse of water re-
sources. By harnessing natural systems,
TryMarine literally breathes life into suffo-
cating water bodies, turning a vicious cy-
cle into a virtuous cycle, giving water bod-
ies back to Mother Nature.
Why So Many Water Bodies are Get-
ting Sick — and Why it Matters to You
Across the world, lakes, ponds, rivers, and
coastal waters are changing in ways that
are easy to miss at first, but with enormous
consequences. Waters that once sup-
ported healthy fish populations, clean rec-
reation, and thriving wildlife are slipping
into decline under the same pressure: too
many nutrients, too much phosphorus.
This overload triggers eutrophication, a
slow but destructive process that turns
clear, vibrant water into algae‑choked,
oxygen‑starved, muck-filled systems.
In the United States the scale of the prob-
lem is unmistakable. About 70% of lakes
and reservoirs, and more than half of rivers
and streams, are officially classified as im-
paired — with excess nutrients as the lead-
ing cause.
This isn’t just an environmental concern —
declining conditions impact everyday life:
- Drinking water safety
- Fish populations and food systems
- Local economies and property values
- Recreation and tourism
- Public health
- Climate stability
Why It’s So Hard to Fix
One of the most dangerous aspects of eu-
trophication is how quietly it develops. Nu-
trients accumulate in the sediment at the
bottom of a lake, and act as a long‑term
storage bank of phosphorus. Even if out-
side pollution is reduced, this stored phos-
phorus perpetually leaches back into the
water, fueling deterioration.
Once a lake crosses the threshold into a
eutrophic state, recovery becomes slow,
uncertain, and, if possible, expensive.
Most water bodies never return to their
earlier, younger state.
Many experts currently believe that it’s
easier to prevent nutrient inflow than to re-
pair the damage, but prevention has been
elusive. Nutrient inputs continue to rise,
and the cost of inaction grows every year.
Why the Problem is Accelerating
Several modern pressures are pushing eu-
trophication faster than natural systems
can withstand:
- Increasing fertilizer use and livestock
production
- Expanding cities and paved surfaces
- Heavier rainfall that washes nutrients into
waterways
- Warmer temperatures that supercharge
algal growth and toxin production
The Climate Connection
Eutrophication isn’t just a water‑quality is-
sue — it’s now recognized as a climate is-
sue too. Higher oxygen demand in nutri-
ent‑rich waters promote optimal condi-
tions for methane production, a green-
house gas far more potent than carbon di-
oxide. Scientific models suggest that rising
nutrient pollution could cause 30–90% in-
creases in methane emissions from inland
waters over time.
Thus, a dangerous feedback loop is cre-
ated: warmer temperatures accelerate eu-
trophication, which increases methane
emissions,
which
further
accelerates
warming.
What Does Eutrophication Look Like?
The graphic below shows differences in
key parameters between the 4 trophic
state levels of inland water bodies.
In general, higher trophic levels have high
nutrient and lower oxygen levels, less di-
versity, deeper muck leading to less water
volume, successfully reducing the natural
cleansing and refreshing capacity of
healthy water bodies.
Hypereutrophic
Eutrophic
Mesotrophic
Oligotrophic
Clear, clean, deep
Low Nutrient Levels
Very few plants
and fish
Sandy bottom
High oxygen
Carbon sink
Idyllic, pristine
Eutrophication
Balanced, not
stressed
Good habitat for
fish
Some plant growth,
low levels of algae
Clear to slightly
green
Carbon sink
A classic lake
Green and murky
Frequent algae
blooms, weeds
High nutrients
Sediment muck build-
up
Low oxygen at the
bottom; fish stress
Unpleasant odors,
methane release
Swimming can be
harmful
Property values and
tourism impacted
Green “pea soup,”
surface scum
Dense weeds &
toxic algae
Extremely high
nutrients
Deep sediment
accumulation
Near 0 oxygen; fish kills
Persistent foul odors,
high methane release
Toxic to humans & pets
Severe economic impact
TryMarine: A Smarter Way to Restore
and Maintain Healthy Lakes
TryMarine is a water-based treatment, ap-
plied by spraying directly onto the surface
of a lake or pond. During restoration, appli-
cations are typically made every other
week throughout the warm growing sea-
son. Once lakes are in better shape, some-
times simple monthly treatments during
warm months are enough to maintain the
natural cycle for long-term health.
TryMarine works by reducing Sediment
Oxygen Demand, allowing more oxygen to
remain available near the bottom, where in
impaired lakes, oxygen depletion is most
severe. This ultimately improves oxygen
balance in the entire water column, sup-
porting healthier aquatic conditions, with-
out introducing living organisms or harsh
chemicals. TryMarine is not a coagulant,
flocculant, herbicide, or pesticide, and has
no live organisms.
Safe for Water, Wildlife, and People
Safety is foundational to TryMarine’s for-
mulation. It is certified to NSF/ANSI/CAN
60 standards - it is safe for use in drinking
water applications at concentrations up to
522 times typical application rates. Inde-
pendent acute and chronic toxicity studies
on five of the most sensitive freshwater
species showed no harmful effects,
demonstrating
its
compatibility
with
aquatic life.
Because TryMarine improves water qual-
ity, its use can significantly reduce or elim-
inate the need for aggressive herbicides
and algaecides over time. Unlike some
treatments, there are no lake closures re-
quired. Swimming, boating, and normal
lake use can continue on treatment days
without interruption.
Scalable, Flexible, and Non-Disruptive
From small residential ponds to large pub-
lic lakes, TryMarine scales easily to fit any
size water body. It is especially well suited
for locations where dredging or aeration
are not practical due to cost, size, or ac-
cess limitations.
No permanent infrastructure is required -
no excavation, no heavy equipment, and no
disturbance to the surrounding environ-
ment—just simple applications with lasting
benefits.
Cost-Effective by Design
TryMarine is designed to protect long-
term lake health, helping prevent the
costly cycle of emergency treatments and
reactive maintenance. Even in severely eu-
trophic lakes requiring full restoration,
treatment plans using TryMarine are sig-
nificantly more cost-effective than me-
chanical alternatives such as dredging,
repetitive symptom management or aer-
ation.
By addressing the root causes of oxygen
depletion, TryMarine helps keep water
bodies healthier for longer — reducing
both costs and intervention over time.
TryMarine doesn’t just treat symptoms. It
restores balance in water bodies from the
bottom up.
The Power of TryMarine
These diagrams illustrate the changes expected when a hypereutrophic water body is treated with TryMarine
Hypereutrophic water bodies are characterized by high phospho-
rus levels, and low dissolved oxygen, water clarity and biodiversity.
The food web is weak, toxin producing algae dominate, fish strug-
gle to survive, and the water body emits high amounts of methane
that harm the environment.
TryMarine is the only solution that breathes life back into water
bodies and allows self-healing the way nature intended. After a full
restoration course, the water body is healthy again. If excess exter-
nal nutrient inflow persists, preventative TryMarine maintenance is
recommended to keep the system from returning to the vicious cy-
cle of eutrophication.
Total Phosphorus in Water
Carbon Sink
Carbon Sequestration
Biodiversity & Food Web Health
Water Clarity & Depth
Dissolved Oxygen
Decrease
Increase
Carbon Emitter
TryMarine begins to reverse the damages of eutrophication by re-
ducing Sediment Oxygen Demand and increasing available oxygen.
Increased oxygen infiltrates the sediment, loosens it, and processes
excess nutrients into the food web. Biodiversity improves. Initially,
total phosphorus and water clarity may worsen, but in time they im-
prove to a normal state. A virtuous cycle has begun.
Total Phosphorus in Water
Carbon Sink
Carbon Sequestration
Biodiversity & Food Web Health
Water Clarity & Depth
Dissolved Oxygen
Decrease
Increase
Carbon Emitter
Total Phosphorus in Water
Carbon Sink
Carbon Sequestration
Biodiversity & Food Web Health
Water Clarity & Depth
Dissolved Oxygen
Decrease
Increase
Carbon Emitter
COMPILED CASE STUDY: 7 WATER BODIES TREATED FOR 2 SEASONS
Impacts: De-eutrophication and improved nutrient balance
TryMarine improves water body health from the bottom up, processing excess nutrients in the sed-
iment and water into the food web. These results are from the first two years of treatment of 7
hypereutrophic or eutrophic water bodies of varying sizes, ranging from ½ to over 400 acres.
Total Phosphorus (ppb)
in Water
The graph on the left shows the av-
erage total phosphorus levels of all
7 water bodies at the start and end
of the 1st and 2nd treatment season.
The level is improved season over
season, and the changes are sus-
tainable. The graph on the right
shows the change in each of the 7
projects, from the beginning of the
1st season to the end of the 2nd sea-
son. Every project had significantly
reduced TP in water.
Low ratios of total nitrogen to total
phosphorus indicate an unhealthy
water body with nitrogen as the lim-
iting nutrient, which favors nitro-
gen-fixing phytoplankton. Higher
ratios support a diverse food web
and robust fish productivity. The
one project whose ratio did not in-
crease saw significant reductions in
both TN and TP.
291
142
150
136
2024
2025
Nitrogen to Phosphorus
Ratio in Water
Total Phosphorus (ppm)
in Sediment
Eutrophic
287
83
128
66
2024
2025
Hypereutrophic
Mesotrophic
-71%
Average percent
decrease
Start
End
18.3
10.7
30.8
2024
2025
2.8
28
Average increase
-53%
Average percent
decrease
The total phosphorus in the sedi-
ment was reduced in all projects
over 2 seasons of treatment, as
shown on the right. The average
percent reduction across the 7 pro-
jects was 53%.
Hypereutrophic
Eutrophic
Mesotrophic
Improving
-74%
-77%
-62%
-93%
-91%
-42%
-64%
-71%
%
Change
Improving
+120%
+871%
+217%
+5502%
+4152%
+1995%
-53%
+1829%
%
Change
Improving
-61%
-69%
-48%
-58%
-49%
-48%
-36%
-53%
%
Change
CASE STUDY: TOTAL LAKE RESTORATION
40-acre lake in Wilmington, NC – Years 1 & 2 of a 3-year project
This private lake in Wilmington, NC has a history of being drained for several years, during
which time plants grew up in the lakebed. After being re-filled, the undecomposed plant mate-
rial at the bottom caused very low DO, with prolonged periods of 0 during the summer months,
causing fish kills. The owner desired a healthy lake that supported recreational fishing, and Try-
Marine was brought in to restore not only the low DO, but to improve the overall lake health
and fishery.
Hypereutrophic
Eutrophic
Mesotrophic
Seasonal
Break
82% Drop in Total Phosphorus (ppb) in Water
TP improved from hypereutrophic to low eutrophic over 2 seasons
of treatment. The improvement was sustained during a 5-month
break in treatment over the winter.
Improved Bottom Dissolved Oxygen
(Monthly Average)
Before treatment began, bottom DO was 0 in the month of May and
during the first month of treatment (June, 2024), but it steadily in-
creased in 2024 and had year over year improvement for every
month in 2025 vs 2024.
Summer 2024
Summer 2025
Lake Health Improvement is Visible
The appearance of the lake improved substantially, as expected with the water quality improvements shown above.
↓82%
over 2 seasons
Mar Apr May Jun
Jul
Aug Sep Oct
2024
Mar Apr May Jun
Jul Aug Sep Oct
2025
Seasonal
Break
Treatment
Start
10
CASE STUDY: DREDGING ALTERNATIVE
Scientific study of depth and nutrient effects over 2 treatment seasons
In conjunction with Dr. Christopher Gobler, Distinguished Professor and Endowed Chair of
Coastal Ecology and Conservation at Stony Brook University, the effects of TryMarine treat-
ment on a hypereutrophic pond on Stony Brook’s campus, Roth Pond, have been studied over
the 2024 and 2025 seasons. The pond showed approximately a foot of sediment removal, and
a substantial improvement in the nutrient levels, changing the trophic state from hyper-
eutrophic to eutrophic.
Total Phosphorus in Water (ppb)
TP in the water decreased 74% over 2 seasons of treatment.
There was some increase during a 7-month seasonal break in
treatment between the first and second year, but reduction
was seen during both treatment periods. The TP is processed
into the food web.
Water and Sediment Depth Changes
A sophisticated sonar drone was used to measure the depth of the pond over the treatment period. This shows the depth in July 2024 vs
October 2025, which was calculated to be a 29.7% increase in water volume and removal of 10.2 inches of sediment.
The right-hand image shows the
difference between the two
dates, with the blue color show-
ing where the pond was deeper
in October.
Data was collected and analyzed
using a HYCAT sonar device by
Dr. Christopher Gobler, Stony
Brook University.
401
75
233
105
2024
2025
Beginning
End
Total Phosphorus in Sediment (ppm)
TP in the sediment decreased 61% over 2 seasons of treat-
ment. The phosphorus from the sediment is processed into
the water and the food web.
311
148
181
122
2024
2025
Beginning
End
Volume = 2129 m3
Area = 1876 m2
Volume Change = +488 m3
= 129,000 gallons (29.7%)
Depth Change = 26 cm = 10.2”
Volume = 1641 m3
Area = 1876 m2
July 2024
October 2025
Change
11
CASE STUDY: FISHERY IMPROVEMENT
Private hunting and fishing club – nutrient balancing and fish growth
A hunting and fishing club property in Arkansas consisting of 3 connected lakes totaling 740
acres was suffering from deep sediment accumulation and eutrophication of the water, result-
ing in poor cypress tree health, low oxygen levels, and stagnant fish growth. Below is average
data from the 3 lakes, each of which saw significant improvement with TryMarine treatment
over 2024 and 2025. The goals of this project were more focused on water quality and fish
health than on sediment remediation, although the latter will also occur with continued treat-
ment, strengthening the resilience of the system.
Decreased Total Phosphorus (ppb) in Water
TP improved from hypereutrophic to nearing mesotrophic over 2
seasons of treatment. The improvement was sustained during a
seasonal break in treatment.
Improved Relative Weight of Fish
Relative weight of fish species is an indicator of how well fish are thriving in their environment — and by extension, how well the lake’s food web,
water quality, and ecological balance are supporting them. Electrofishing in the fall of 2024 and 2025 demonstrated an increase in the relative
weight of 5 species, from below normal in 2024 to at or above normal in 2025, indicating an improvement in overall fish habitat.
100 (Standard)
90 (Underweight, stressed)
110 (Plump, healthy)
Bluegill
+ 17%
Redear
Sunfish
+ 13%
Yellow
Bass
+ 13%
White
Crappie
+ 16%
Largemouth
Bass
+ 12%
End of 1st year
(Fall, 2024)
End of 2nd year
(Fall, 2025)
Relative Weight
Hypereutrophic
Eutrophic
Mesotrophic
Seasonal
Break
2024
2025
Rapid Improvement in Appearance
Two months after TryMarine treatment began, the appearance of
the water improved dramatically, coinciding with the drop in TP lev-
els during the same time period (see figure to the left.)
July 2024
July 2025
12
Reservoirs & Quarries
Public Waters
Golf Courses
Municipalities
Universities
Canals
CUSTOMERS SERVED
Homeowner’s Associations
Private Lakes/Residential Property
Trophy Fishing Lakes
Commercial Fisheries / Hatcheries
Camps
Corporate Parks
Dredging Alternative
Deep Muck
Increasing Sediment Depth
Decreasing Water Depth
Optimal Fishery Productivity
Imbalance of Nutrients (Low TN/TP Ratio)
Increasing Sediment Depth
Poor pH Stability
Poor Fish Health/Growth
PROBLEMS ADDRESSED
Lake Health
Poor Water Quality
Low Oxygen Levels
High Water and Sediment Nutrient Levels
(External and Internal)
Bad Odor
High Turbidity
Proactive Management
Restrictions on Herbicide/Algaecide Use
Worsening Conditions
TRYMARINE IS IN WATERS THROUGHOUT THE U.S.
1-8
9-20
20 +
# Projects
13
HOW TRYMARINE FITS WITHIN
LAKE MANAGEMENT STRATEGIES
There are many tools available for lake
management – most are reactive strate-
gies that are used once problems arise,
and act more like a band-aid than a long-
term solution. All of these have some ef-
fectiveness, but TryMarine addresses the
root cause and strengthens the ecosys-
tem, strengthening the long-term resili-
ency of water bodies. TryMarine can be
used in combination with other treat-
ments, if needed, to achieve a wide variety
of goals.
TryMarine
Herbicides +
Algaecides
Nutrient
Binders
(alum, clay)
Dredging
Aeration
Biological
Additives
Reduce water phosphorus
Reduce sediment phosphorus
Stabilize dissolved oxygen
100% scalable
Decrease sediment depth
No extra infrastructure/energy
Doesn’t harm people, plants, or
animals
Reduces muck
Removes sand/gravel
Restores the ecosystem
Improves fish productivity
Strong, well-documented improvement
Moderate or temporary improvement
14
What is TryMarine? Per our label ingredients, TryMarine is a 97% water-based solution con-
taining a natural sourced polymer, trace elements, and diluted acetic acid, (much lower in con-
centration than household vinegar).
Is TryMarine Safe? TryMarine has been used for more than a decade and in hundreds of lakes
around the USA. TryMarine is NSF/ANSI/CAN 60 certified, safe for drinking water applica-
tions at over 500x the typical application dose. It is safe for swimmers, pets, fish, plants, etc.
before, during and after applications. It has been and continues to be tested for safety by 3rd
parties. See the Safety Testing below.
How does TryMarine work? TryMarine is engineered to accelerate a water body’s natural abil-
ity to process accumulated muck at the bottom, including debris and excess nutrients. This
accumulation is often the root cause of unbalanced lake ecosystems, resulting in low oxygen
availability, poor water quality, and shallower water levels. By addressing the root cause, over
time, TryMarine restores the lake’s resilience, depth, balance and beauty.
How quickly will my lake improve? Improvement depends on starting conditions. Most lakes
look much better by the end of the first season; full restoration takes 3–5 years. Some lakes
improve within months, while others briefly look worse as muck breaks down. Early signs such
as fluffing sediment, cloudiness, surface film, bubbling, or increased weeds/algae indicate nu-
trients are being processed. This phase is short-lived and resolves naturally.
When and how is TryMarine applied? The ideal start is spring, once water reaches 55°F, with
bi-weekly restoration dosing and monthly maintenance through summer and early fall.
Mid/late-summer starts depending on climate have also proven effective. TryMarine is
sprayed on the water surface through shoreline spray or boat application. Trained application
is required for efficacy.
How can I tell if TryMarine is working? Technicians assess visual conditions, dissolved oxy-
gen and pH levels each visit to track progress. Early signs such as fluffing sediment, cloudi-
ness, or surface film and bubbling, indicate that muck is being processed – this naturally re-
solving phase is short-lived. In addition, water and sediment samples are collected as needed.
Occasionally as deeper sediment layers are exposed, nutrient levels may fluctuate for ex-
tended periods, but they generally decline over time.
How much depth will I gain? Water depth can increase 6-12 inches or more per restoration
season, with variability within sections of the waterbody. Significant improvements in sedi-
ment composition are often observed. Precise sediment-reduction measurements, such as
those shown in case studies above, require specialized third-party assessment for a charge.
FREQUENTLY ASKED QUESTIONS
15
What about long-term results? TryMarine’s gains are a function of improving conditions and
creating stability in a waterbody ecosystem. With less muck and improved sediment condi-
tions a strengthened ecosystem should regain its ability to process nutrients. Continued nu-
trient inflow may require low-level maintenance doses of TryMarine or other traditional man-
agement techniques, which should be more effective after TryMarine restoration.
What if my lake doesn’t respond as expected? A small percentage of lakes respond more
slowly due to system complexity. Instead of simply adding more product, treatment profes-
sionals will diagnose the causes and adjust treatment accordingly.
How long has TryMarine been used? The TryMarine formulation has been used and im-
proved over the last decade. It has been the subject of numerous national, state and local test
applications, academic studies and permit approvals. Recognized industry/academic leaders
have studied and worked with TryMarine for more than 5 years.
How does weather affect TryMarine? Treatments are effective at water temperatures of
55°F and above. Normal weather doesn’t affect efficacy, but extreme storms that impact
water and nutrient flows may require dosage adjustments. Application schedules are tailored
to avoid heavy weather and for the specific climate of your region.
Do other treatments affect TryMarine? Other traditional lake management strategies may
be used in combination with TryMarine. Traditional treatments that have lost efficacy, may
actually regain utility during and after TryMarine restoration. Check with a professional appli-
cator before combining different technologies.
I don’t want any period of it looking worse before getting better - can you minimize the pos-
sibility of this? Depending on goals and expectations, TryMarine dosages can be adjusted. If
aesthetics or speed are a priority, an appropriate plan can be tailored. However, temporary
aesthetic impacts cannot be fully ruled out during early treatment phases.
What if my lake has unique challenges (e.g., invasive species, high sediment load)? We love
a good challenge! Many of our first projects in the USA were in water bodies where no other
techniques were helping. We have many ways to tailor a treatment plan to your specific
needs and desired outcomes.
Can TryMarine be used in conjunction with other treatments (herbicides, aeration)? Yes,
TryMarine often works synergistically with other treatments to boost their effectiveness, but
these other treatments may not be necessary for success.
Is there a minimum or maximum lake size for effective treatment? No - TryMarine does not
require any infrastructure, it is scalable from the smallest backyard pond to large public water
bodies. Larger water bodies can be treated in phases, or by section, if desired.
16
TryMarine has undergone rigorous safety testing, for humans and aquatic species.
NSF/ANSI/CAN 60 certification is the nationally recognized standard
for evaluating drinking water treatment products for potential health
effects. As part of certification, products must meet stringent toxi-
cology-based criteria - the Maximum Use Levels are set at 10% or
less of the U.S. EPA’s Maximum Contaminant Levels for regulated
contaminants. TryMarine not only meets all NSF/ANSI/CAN 60 re-
quirements, but with typical application rates of 0.5–2 ppm, is used at levels that are hun-
dreds of times below the (already conservative) certified Maximum Use Level of 522 ppm.
Toxicity testing on
aquatic species,
performed by
EcoAnalysts follow-
ing EPA protocols,
shows no risk to the
most sensitive spe-
cies at levels well
above typical doses
of 0.5-2 ppm.
LC50 = Lethal Concentration to 50% of test population
IC25 = Inhibition Concentration to 25% of test population
NOEC = No Observable Effect Concentration
LOEC = Lowest Observable Effect Concentration
Acute Test – 96 hours
LC50 (ppm)
Water Flea (Ceriodaphnia dubia), 96-hour Survival
>40
Fathead Minnow (Pimephales promelas), 96-hour Survival
>40
Juvenile Mussel (Lampsilis siliquoidea), 96-hour Survival
>40
Rainbow Trout (Oncorhynchus mykiss), 96-hour Survival
>40
Channel Catfish (Ictalurus punctatus), 96-hour Survival
>40
Chronic Test – 7-days
IC25
(ppm)
NOEC
(ppm)
LOEC
(ppm)
Water Flea (Ceriodaphnia dubia), 7-day Survival
>40
40
>40
Water Flea (Ceriodaphnia dubia), 7-day Reproduction
29
20
40
Fathead Minnow (Pimephales promelas), 7-day Survival
>40
40
>40
Fathead Minnow (Pimephales promelas), 7-day Biomass
>40
40
>40
Juvenile Mussel (Lampsilis siliquoidea), 7-day Survival
>40
40
>40
Juvenile Mussel (Lampsilis siliquoidea), 7-day Biomass
>40
40
>40
Juvenile Mussel (Lampsilis siliquoidea), 7-day Length
>40
40
>40
TRYMARINE SAFETY PROFILE
17
For Safety Data Sheet, click here.
TRYMARINE PRODUCT LABEL
18
www.trymarineglobal.com
The Choice Is Clear…