The aims of this project were to investigate the cellular stress response (CSR) in
Enteromorpha spp. and assess the potential of the Stress-70 protein (an indicator of the
CSR) as a biomarker of pollutant exposure and acquired tolerance in Enteromorpha spp.,
compared with conventional physiological endpoints of toxicity.
Cross-reactivity of a commercial Stress-70 antibody with E. intestinalis proteins was
determined and used to develop an assay for Stress-70. Using this assay E. intestinalis was
found to exhibit a typical heat shock response.
Stress-70 proved to be a relatively insensitive biomarker of copper exposure and did
not appear to be involved in copper tolerance, the genetic basis of which was investigated
by growing E. intestinalis using a novel culturing technique. Although growth was variable,
it provided a simple, consistent and sensitive measure of copper toxicity. The chlorophyll
fluorescence parameter Fv/Fm was insensitive to copper exposure.
Nutrient limitation enhanced copper toxicity and significantly impaired growth,
Fv/Fm and Stress-70 production in E. intestinalis. In both copper ‘sensitive’ and ‘tolerant’
E. intestinalis, copper exposure did not affect the ability to raise a heat shock response. In
‘sensitive’ algae, copper and heat shock were additive stressors, with heat shock acting as a
stronger inducer of Stress-70. Only heat shock affected 'tolerant' algae.
Zinc was less toxic than copper but in contrast to copper studies, Stress-70 was a
relatively sensitive indicator of zinc exposure, compared to Fv/Fm and growth.
Studies of triazine herbicides revealed that on a molarity basis, Irgarol 1051 was
more toxic to E. intestinalis than atrazine. Fv/Fm and growth were strongly affected by
Irgarol exposure, but Stress-70 levels were unaltered by exposure to the herbicide.
Fv/Fm and Stress-70 were poor in situ biomarkers of pollution, but another
chlorophyll fluorescence parameter - complementary area - appeared to correlate with
levels of organic pollution.
Overall, Stress-70 was found not to be a useful biomarker of exposure to copper or
triazines in E. intestinalis, or in situ pollution. However, the Stress-70 assay developed has
a number of alternative applications and Enteromorpha spp. were deemed to be potentially
useful in pollution monitoring with the selection of suitable biomarker responses.
Date of Award | 1998 |
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Original language | English |
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Awarding Institution | |
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PHYSIOLOGICAL AND CELLULAR LEVEL RESPONSES OF ENTEROMORPHA SPP. TO CHEMICAL AND THERMAL STRESS
LEWIS, S. A. (Author). 1998
Student thesis: PhD