Limited studies have been carried out to assess the potential effects of ionising
radiation on marine organisms. Therefore the general aims of this thesis were, (a) to assess
the cytotoxic, genotoxic and developmental effects of ionising radiation on the embryo-larvae
of two ecologically relevant marine invertebrates Mytilus edulis and Platynereis
dumerilii, (2) to assess the effects of an environmentally relevant cocktail of radionuclides
(3) to monitor the potential impact of radiation in the natural environment and finally (4)
attempt to predict the potential effects of radiation at a population level.
Following validation of developmental stages and mammalian based cytotoxic and
genotoxic assays, chromosomal aberrations (Cabs), sister chromatid exchanges (SCEs) and
proliferation rate index (PRI}, on the embryo-larvae of M. edulis and P.dumerilii, the
embryo-larvae stages were exposed to a reference radionuclide, tritium, (0.37, 3.7, 37 &
370 kBq/ml). Low doses of radiation delivered by tritium were shown to be detrimental to
the development of embryo-larvae with an increase in abnormality for P. dumerilii and an
increase in mortality for M. edulis. Tritium increased the induction of chromosomal
aberrations and sister chromatid exchanges, in exposed embryo-larvae, indicating that
tritium is potentially genotoxic. Cytotoxic effects (reduction in the cell proliferation rate)
were also observed following exposure of embryo-larvae to tritium.
In collaboration with the Royal Devonport Dockyard (DML) investigations on the
cytotoxic, genotoxic and developmental effects of a cocktail of radionuclides (radioactive
liquid waste diluted to 1.8, 3.2, 5.6, 18%) were carried out. All embryo-larvae exposed to
18% radioactive waste were dead within 24h. Both species exhibited increased
abnormality, SCEs and Cabs and a reduction in PRI in dilutions 1.8-5.6%. In general
M. edulis appeared to be more sensitive to ionising radiation than P.dumerilii embryo-larvae.
Following experiments on the embryo-larvae stages of the two marine invertebrates
studies were carried out to assess the effects of ionising radiation on adult life stages.
Following validation of mammalian based genotoxic assays (comet and micronucleus
assays) on adult M. edulis, the mussels were exposed to a reference radionuclide, tritium,
(0.37, 3.7, 37 & 370 kBq/ml) in an attempt to assess the genotoxic effects of ionising
radiation on the adult life stage. An increase in the levels of single strand breaks (comet
assay) and in the induction of micronuclei (micronucleus assay) in haemocyte cells was
observed in adults exposed to tritium.
In collaboration with the Royal Devonport Dockyard (DML) a field study was carried
out to assess the use of the genotoxic assays (comet and micronucleus assays) as
biomarkers of exposure to radiation in adult mussels transplanted to an area of radionuclide
discharge. Statistical analysis detected no correlation between the health of the deployed
mussels and the levels of environmentally realistic radioactivity.
After development of P.dumerilii embryo-larvae to sexual maturity there appeared
to be no affect on the number or sex of the worms that reached adulthood in comparison to
control worms. Although at the highest concentration of tritium (370 kBq/ml) there was a
reduction in the number of eggs produced from sexually matured females.
In conclusion, from the current studies it can be stated that ionising radiation is
cytotoxic and genotoxic to sensitive embryo-larvae stages of marine invertebrates.
However further studies need to be carried out to correlate the effects seen at molecular
levels with the potential long-term effects observed at population and community levels of
these species.
Date of Award | 2002 |
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Original language | English |
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Awarding Institution | |
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Evaluation of Radionuclide Induced Damage in Marine Invertebrates
HAGGER, J. A. (Author). 2002
Student thesis: PhD