Phosphorus dynamics and submerged aquatic macrophytes in hell kettles

A study was made of the phosphorus ecology of Hell Kettle ponds, a Site of Special Scientific Interest in County Durham, UK, in order to help establish the causes of the temporary "whitening" of Chara hispida in summer 1996. Chara hispida, the most abundant organism in Croft Kettle, one of...

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Bibliographic Details
Main Author: Giantzoudis, Dimitris
Format: Thesis
Language:unknown
Published: 2003
Subjects:
Online Access:http://etheses.dur.ac.uk/4079/
http://etheses.dur.ac.uk/4079/1/4079_1598.pdf
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Summary:A study was made of the phosphorus ecology of Hell Kettle ponds, a Site of Special Scientific Interest in County Durham, UK, in order to help establish the causes of the temporary "whitening" of Chara hispida in summer 1996. Chara hispida, the most abundant organism in Croft Kettle, one of the two small calcareous ponds comprising Hell Kettles, was first reported in 1777 and since then its presence has been accounted many times, perhaps being the longest continuous record for a freshwater algal species anywhere in the world. The aims were to assess the concentration and variability of aqueous N and P as well as a number of other physical and chemical variables on spatial and temporal scales and the response of Chara hispida to these changes. Studies focused on Croft Kettle and key aspects included analysis of water chemistry, P sequential fractionation of sediments, tissue N and P contents and surface phosphatase activities of Chara hispida. This involved monthly surveys of surface as well as depth profiles of water chemistry during 1999-2001 and many other visits. Data was also collected from Double Kettle and the farm-borehole (representing groundwater) for comparative means. Croft Kettle was stratified in summer (approximately May to October) with severe deoxygenation in the hypolimnion. Aqueous N and P concentrations were about 150 \ig L"' TN and 15 fig L"' TP respectively, but showed high within-year and intra-annual variability. Episodic events and autumnal turnover caused only short-term increase in aqueous P concentrations and co-precipitation with CaCO] was suspected. Depth profile studies of sediments (0-35 cm) for TN and TP content and N:P ratio suggest historical changes in N and P dynamics. Seasonal changes as well as a high range of tissue N and P contents were observed in C. hispida apical tips during this survey, possibly indicating that C. hispida is capable of rapid nutrient uptake and storage. Supportive evidence for this hypothesis arose from incubations of C. hispida under a series of ...