The effects of sublethal copper exposure at three levels of biological organisation were
studied in the common shore crab Carcinus maenas (L.) (Crustacea, Decapoda). The three
levels included the ultrastructure of respiratory and osmoregulatory gill tissues; ventilatory
physiology (scaphognathite activity); and tissue metallothionein levels.
Respiratory gill epithelia were more sensitive to sublethal copper exposure than
osmoregulatory gill tissues. The cellular damage observed included severe epithelial
necrosis and vacuolation, hyperplasia and haemocyte infiltration. In the respiratory gills,
these changes were first present following exposure to 100 µg Cu Lˉ¹ At 500 µg Cu Lˉ¹,
there was complete degeneration of the epithelia. In osmoregulatory gills, lipofuscin
granules were formed at 300 µg Cu Lˉ¹. Signs of cellular damage (as observed in
respiratory gills) appeared in the osmoregulatory gills only following exposure to 500 µg
Cu Lˉ¹, and were restricted to areas proximal to the marginal canal. Copper concentrations
below 100 µg Cu Lˉ¹ had no effect on gill tissues. This result is discussed with reference to
previous studies, and related to inter-population differences and exposure techniques. Gill
ultrastructural differences were observed in crabs from two estuaries with different levels of
water-borne trace metals, and in crabs transplanted from the cleaner to the more polluted
site. Differences included . varying densities of plasmalemmal folds and frequencies of
cellular vacuolation, as well as composition and thickness of algal surface layers on the gill
cuticle.
Following laboratory copper exposures (500 µg Cu Lˉ¹), gill ultrastructural
"damage" and tissue metallothionein levels were related to changes in scaphognathite
activity. Physiological effects, including changes in scaphognathite rate and periods of
apnoea, were exacerbated by increased temperature and hypoxia. Changes in
scaphognathite activity and metallothionein levels were not consistent following several
exposures to the same level of copper; results are discussed in relation to physiological
influences. In contrast, gill ultrastructure showed consistent deterioration following
exposure to 500 µg Cu Lˉ¹. Gill ultrastructure represents a reliable indicator of exposure to
copper at this concentration compared to both scaphognathite activity and metallothionein
concentrations.
Date of Award | 1997 |
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Original language | English |
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Awarding Institution | |
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EFFECTS OF COPPER ON GILL STRUCTURE AND PHYSIOLOGY IN CARCINUS MAENAS
HEBEL, D. K. (Author). 1997
Student thesis: PhD