Experimental study of zooplankton behaviour
Daphnia are small planktonic crustaceans that are commonly found in lakes and ponds. They are commonly used as experimental organism to investigate the effects of external stimuli on the aquamarine ecosystem. There has been a myriad of studies showcasing the effects of different stimuli and its i...
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Format: | Final Year Project |
Language: | English |
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Nanyang Technological University
2023
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Online Access: | https://hdl.handle.net/10356/164006 |
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Institution: | Nanyang Technological University |
Language: | English |
Summary: | Daphnia are small planktonic crustaceans that are commonly found in lakes and ponds. They
are commonly used as experimental organism to investigate the effects of external stimuli on
the aquamarine ecosystem. There has been a myriad of studies showcasing the effects of
different stimuli and its impact on Daphnia mortality, and these studies tend to be over a long
period of time or use complicated parameters. However, Daphnia mortality may not be
sufficient and accurate to appraise the stimulus’ long-term consequences on Daphnia and its
water ecosystem. As such, this project will focus on stimuli effect on swimming behaviour
with quantitative parameters, allowing us to better study Daphnia behaviour as compared to a
binary endpoint of mortality. Daphnia will be experimented with common waterbody
microplastic pollutants such as Nylon12 (PA12), Polyethylene (PE), and Acetamiprid
(pesticide) over various concentrations. In addition, daphnia of varying sizes will be
experimented with. The results show that, Nylon 12 acts as a stimulus for Daphnia Magna at
all experimented concentrations, Polyethylene too acts as a stimulus for Daphnia Magna but
only up till concentrations of about 150 mg/L before inhibition. Adversely, Acetamiprid is
not a stimulus for Daphnia Magna, as it generally decreases swimming activity, and should
be noted as hazardous for Daphnia. Daphnia size only affects swimming behaviour at the
start of the experiment.
After the experiments are conducted and data collected, it can be concluded that the 2
microplastics are a stimulus to Daphnia and its ecosystem, and Acetamiprid is generally
harmful. Daphnia size affects initial swimming behaviour but has no observable effect on
swimming behaviour otherwise. |
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