Long-term physical, chemical and biological monitoring (May 1990 to November 1994)
was conducted in order to quantify water and sediment quality changes arising from the
impoundment of Sutton Harbour, Plymouth (UK). Spore tracer studies revealed that 95 %
water renewal times increased from 45 h to 72 h after impoundment. Semi-diurnal (tidal)
salinity variations of circa 5 x10ˉ³ were observed, revealing a mechanism which shunts
contaminated estuarine water into the harbour during flood tides. Salinity typically varied
from 17 x 10ˉ³ to 34 x 10ˉ³ seasonally, and exhibited strong inverse correlations with total
oxidised nitrogen and orthophosphate, demonstrating the riverine source of dissolved
nutrients. These varied seasonally in concentration by 2 to 3 orders of magnitude.
Impoundment restricted the flux of riverborne nutrients but greater retention of brackish
bottom waters produced a stronger concentration gradient, resulting in possible nutrient
storage by diffusion into the porewaters. Sewage outfalls and sediments were the main
sources of ammonium. Following impoundment, the evidence suggests that a balance
between nutrients from reduced external (riverine) fluxes and increased internal
(porewater) fluxes has developed. Phytoplankton blooms were regular but short-lived
features in summer, and continued after impoundment. Sewage contamination, with faecal
coliform bacteria occasionally exceeding 30,000 cfu 100 mtˉ¹, improved unequivocally
after impoundment, but stricter controls on internal sources are required. The permanently
anoxic harbour sediments, consisting mainly of silt, contained Cd (1.8 µg gˉ¹), Cu
(160 µg gˉ¹), Hg (1.2 µg gˉ¹), Pb (200 µg gˉ¹) and Zn (290 µg gˉ¹) in the <63 µm fraction.
Sedimentary Cu, Pb and Zn concentrations increased during the monitoring period. The
benthic macrofauna consists mainly of polychaete worms, with species diversity
decreasing during construction, and then attaining a new, impoverished equilibrium after
impoundment. Multivariate analysis revealed changes in community structure involving
loss of sensitive taxa and appearance of opportunists. The ecological impact of
impoundment was minimal, in that the harbour ecosystem was able to withstand the
imposed environmental stresses. The management strategy adopted will ensure that water
and sediment quality are maintained in Sutton Harbour; recommendations equally
applicable to future harbour impoundment projects.
Date of Award | 1995 |
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Original language | English |
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Awarding Institution | |
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Ecological Management Strategies for Impounded Harbours
Smith, J. (Author). 1995
Student thesis: PhD