Abstract
The literature covering river biology, biology of Gammarus pulex,river pollution and toxicity has been reviewed.
The Rivers Blythe, Cole, Rea, Tame and tributaries were surveyed
to enable distribution maps of Gammarus, Asellus, Chironomidae and
Oligochaeta to be drawn. The results of chemical analysis of 24
widespread stations over a 2 year period were used to determine field
threshold concentrations. Using the thresholds for copper, zinc,
chromium and nickel, a Toxicity Index was calculated, and related to
the occurrence of Gammarus. Application to additional sampling
stations supported the validity of the method. Analysis on a monthly
basis suggested that the Toxicity Index would need to be below 1.0 for
at least 70% of the time to allow Gammarus to exist.
Laboratory experiments with Gammarus were performed to determine
the toxicity of known chanical se These experiments lasted for either
48 hours, or were continued for periods of up to 600 hours, and were
used to obtain the 48hrLC50 or threshold values. The effects of water
hardness and dissolved oxygen concentration were investigated. Copper,
zine and chromium were found to be very toxic, while nickel was shown
to be a long-term toxic material. Mixtures of metals were studied
and it was confirmed that the toxicity could be predicted from the sum
of the toxicities of the components.
Application of the laboratory results to the field data gave a
field threshold sum of proportions of 0.05, above which Gammarus was
absent from the streams studied. This value was examined in relation
to literature on fish survival. When related to the laboratory results,
after allowing for factors such as water hardness and dissolved oxygen,
it would probably account for approximately 5% mortality.
The advantages of using Gammarus as a test animal in place of
fish are discussed.
Date of Award | 1972 |
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Original language | English |
Awarding Institution |
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Keywords
- Toxicity
- distribution
- gammorus pulex
- Midland rivers