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Eton School
7th + 8th Grade
Bellevue, WA
2014
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Phytoplankton Vs. Turbidity in the Puget Sound
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Introduction
We are the
7th and 8th grade students
of Eton School
We went on our Salish research expedition from October 1-3, 2014
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Introduction continued
• Our research question was: How does turbidity (level of murk) affect the volume of phytoplankton?
• We chose phytoplankton because our class has been interested in these types of creatures and have done experiments with similar
relatives such as daphnia and planaria.
• We decided to test turbidity, because phytoplankton's energy source is sunlight. We wondered what would happen if sunlight were
partially or completely blocked by suspended particles
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Background Knowledge
Turbidity is the measure of how the intensity of light is lowered
by suspended particles in water. In Puget Sound, turbidity is
generally caused by microorganisms, suspended organic
material, silica, clay, silt and even minerals dissolved in the water.
These suspended solids can be contributed by shoreline erosion,
industrial waste, or human activities such as logging or dredging
of river bottoms.
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Background Knowledge…continued
Phytoplankton (primary producers) are autotrophs, organisms that convert light energy, CO2 and inorganic molecules, such as nitrates and phosphates, into organic molecules that provide food for life ‘higher up’ on the food web. Phytoplankton contain chlorophyll and require sunlight to grow.
Phytoplankton form the base of the complex marine food web as they provide about 95% of the food for marine life and they also produce at least half of the world’s molecular oxygen.
We wondered if turbidity in Puget Sound would affect the concentration of phytoplankton.
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Question and Prediction
If turbidity increases,
then phytoplankton concentration will decrease,
because turbidity (murk) decreases sunlight available
for uptake by phytoplankton
How does turbidity (level of murk) affect the volume of phytoplankton?
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Variables
Manipulated: Turbidity and Water
Responding: Phytoplankton
Relationship:
The greater the turbidity, the less sunlight the phytoplankton will have access to absorb for food production
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Materials
• Phytoplankton net
• Secchi disk
• Bucketometer
• Weights
• Rope/line
• Flow meter
• Cod end jar
• Graduated cylinder
• Jars sample
• Stop watch
• Colorimeter
• Funnel
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Methods 1. Ready equipment (materials)
2. Collect water sample from surface using bucketometer
3. Set stopwatch at three minutes
4. Attach rope and weights to phytoplankton net
5. Deploy phytoplankton net
6. Use secchi disk and colorimeter to measure turbidity
7. Remove net from water when stopwatch ends
8. Remove net from cod end jar
9. Pour phytoplankton into a graduated cylinder using a funnel
10. Leave phytoplankton to settle and record volume
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Methods Continued
Phytoplankton Net
(right)
Graduated Cylinders and
Sample Jar
(left)
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Data Analysis
0 20 40 60 80 100 120 140 160
Site 4
Site 3
Site 2
Site1
150
23
44
12
2
2
0
0
10.1
11.5
17.33
16.65 SI
TES
Phytoplankton Vs. Turbidity in Puget Sound
Secchi(m) Turbidity(F.T.U.) Phytoplankton Volume
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Data Table
Site # Phyt. Vol. (mL) Turbidity (FTU) Secchi (M)
1 12 0 10.1
2 44 6 11.5
3 23 2 17.33
4 150 2 16.75
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Conclusion
• After spending time on Carlyn conducting research, looking at our data charts and thinking more closely about our hypothesis, we realized that our hypothesis was like a Catch-22, probably true and false.
– This is because phytoplankton themselves cause the water to be more turbid – phytoplankton cause murk!
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Evaluation
• At first we felt silly when we realized the actual connection between phytoplankton and turbidity, but then we realized that the connection really is complex – just like many marine relationships. Could phytoplankton higher up in the water column shade the lower organisms? We think it is possible.
• From our data, the turbidity in FTUs ranged from 0-6, while phytoplankton concentration ranged from 12-150 ml.
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Evaluation (continued)
• We had the lowest phytoplankton reading at our sampling site just near the Duwamish River, so we wanted to say that industrial pollution may have caused turbidity to shade the phytoplankton –With the low FTU (0) our hypothesis would predict high phytoplankton, but the data measure was low (12ml).
• At this site, we think there was very little water current here to collect the phytoplankton, but we didn’t have the flow meter installed in the net.
• We never had the flow meter installed properly, so we now realize that we can’t correct for flow into the nets – so our data really can’t be related between collection sites.
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Next Time on Carlyn (Part A): 1) We would do research to find areas with higher and
lower turbidity levels (areas in open water with lower turbidity as tested by NOAA and areas near dredging operations or industrial pollutants)
2) We would map our coordinates at the beginning of the trip and plan where we collected samples carefully – and choose diverse sites farther away from each other
3) We would record the species of zooplankton and phytoplankton as viewed microscopically
4) We would make sure the flow meter was working at each sample site so we could correct for current!
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Next Time on Carlyn (Part B):
If we were to do this experiment again, we would test for turbidity at different water depths at
each sample site. Maybe we would learn that in areas with high concentrations of phytoplankton
at the surface, phytoplankton concentrations would be lower with more depth. The
phytoplankton in the top layer of the water might block out the sunlight for the lower layers of phytoplankton. This might cause the lower
layers to contain less phytoplankton.
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THE END!!!