Martin Thomas scite author profile

Two Australian cladocerans, Moina australiensis Sars and a species oi Ceriodaphnia, were evaluated as possible biological indicator organisms to assess the toxicity of irrigation supply and drainage water of the Murrumbidgee and Coleambally Irrigation Areas, M. australiensis, being large (-2000 /um) and orange, was initially chosen to overcome visibility problems in highly turbid Australian inland waters. However, the organism responded erratically in culture. Mortality was high and neonate production was unpredictable when cultured under recommended United States Environmental Protection Agency protocols. Attempts to improve culture performance by optimizing food (quality and quantity), water (control source, hardness, volume) and temperature were only marginally successful. Similar difficulties were not evident when Ceriodaphnia sp, was used as the test organism. Although Ceriodaphnia sp, is small (-1000 /xm), grey and more difficult to see in turbid water its responses were more predictable and reliable than those of M. australiensis. Results of initial trials comparing the two organisms suggest that Ceriodaphnia sp, was a better test organism and more suited to local requirements.

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Application of immunoassays for the herbicides, molinate and diuron, to field water analysis

Guihot

Skerritt²,

Thomas³

et al. 1996

Food and Agricultural Immunology

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Immunoassays based on microwells (for laboratory assay) and polystyrene tubes (for field assay) have been applied to the analysis of the herbicides, molinate and diuron, in field water samples. Development of a new immunoassay format for molinate, with detection limits of 0.5-1 ppb, enabled, for the first time, the direct analysis of molinate in water samples across the full range of usual field residue levels, without need for pre-concentration. A highly sensitive field assay for urea herbicides (diuron limit of detection of 0.15 ppb) has also been developed, based on a double-layer coating with protein A and urea herbicide-specific antibody. Each assay was only slightly affected by ions and turbidity, which are often problems in subsurface and surface water matrices respectively. For both formats of the molinate and diuron immunoassays, close correlations were obtained between herbicide levels determined by the immunoassay and by instrumental analysis, using field water samples.

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An experimental study of feeding in Tenagomysis chiltoni (Crustacea, Mysidacea)

Chapman¹,

Thomas²

1998

fal

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Martin Thomas

Development and Application of Laboratory and Field Immunoassays for Chlorpyrifos in Water and Soil Matrixes

Quantification of the urea herbicide, diuron, in water by enzyme immunoassay

Selection of a suitable cladoceran species for toxicity testing in turbid waters

Application of immunoassays for the herbicides, molinate and diuron, to field water analysis

An experimental study of feeding in Tenagomysis chiltoni (Crustacea, Mysidacea)

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