Microplastics (<5 mm) are abundant across the world in the marine environment and so it is
vital that we gain further understanding of their fate and their possible impacts on marine
life. Due to their size, microplastics can interact with small marine organisms which are part
of the lower trophic levels and the main interaction with these plastics is ingestion.
Chemical characteristics and changes to the plastic properties, due to, for example,
adsorbed chemicals and colonisation of biofilms, may affect how readily plastics are
ingested. Research into the interactions of a range of organisms with microplastics enables
for a better understanding of how they could be taken in, impact the organism as well as
predict potential trophic transfer. This in turn could aid in predicting bigger impacts in the
marine environment and on humans themselves. Rockpools are a key environment and
nursery for many important marine and intertidal species, particularly those that we rely on
commercially, such as crab species. This study exposed three key rockpool species of three
feeding types - Beadlet anemone (Actinia equina), common prawn (Palaemon serratus),
Thick top shell (Phorcus lineatus) to nylon fibres within ex-situ mesocosms. These species
represent three feeding types found in a rockpool community – Suspension feeding, Filter
feeding of the whole water column and deposit feeding. The organisms were exposed to
either biofouled or non-biofouled, blue, black, red, or white in colour and 0.5 mm or 2 mm
microfibres for six hours. This was undertaken when individuals were individually housed as
single species, as well as a mixed community with a representative of all three species. Once
biofouling was complete, dissection to observe the digestive tract was undertaken and then
an alkaline digest was completed to obtain evidence of retention other than in the digestive
tract. Beadlet anemones ingested the most microfibres and thick top shell the least. This
study shows that overall, biofouled fibres are significantly more likely to be ingested than
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that of non-biofouled (H(1)= 16.780 , p<0.001). Some ingestion and interaction colour
patterns were found – black in anemones and shrimp ((H(1)= 6.224 , p=0.013 and (H(1)=
6.008 , p=0.014) and black (H(1)= 12.270 , p=0.007) and white in shrimp (H(1)= 8.143 ,
p=0.043). This could possibly be to do with the dye chemicals on the plastics rather than
visual cues. The 0.5mm fibres were ingested and retained more than 2mm (H(1)= 20.924 ,
p<0.001). Thick top shells were the only organism with a difference between housing with
more microfibres ingested/retained when housed individually than when housed in a mixed
community. This study provides further evidence of the potential ingestion and retention of
microplastics in a rockpool setting and therefore highlights the potential impact on these
organisms and predator species. This may likely cause negative impacts within that rockpool
as well as present a route for microfibres to expose other intertidal organisms to
microfibres, particularly as the three study organisms are prey animals to many other
species.
Date of Award | 2023 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Kelly Haynes (Other Supervisor) |
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- Microplastics
- Microfibres
- Nylon
- Rockpool
- Intertidal
- Cornwall
- Ingestion
- Marine invertebrates
- Beadlet anemone (Actinia equina)
- common prawn (Palaemon serratus)
- Thick top shell (Phorcus lineatus)
Microplastic ingestion in invertebrates within rockpool communities
Outred, A. (Author). 2023
Student thesis: ResM