J
Jennifer L. Stauber
Researcher at Commonwealth Scientific and Industrial Research Organisation
Publications - 81
Citations - 5356
Jennifer L. Stauber is an academic researcher from Commonwealth Scientific and Industrial Research Organisation. The author has contributed to research in topics: Copper toxicity & Copper. The author has an hindex of 37, co-authored 72 publications receiving 4897 citations. Previous affiliations of Jennifer L. Stauber include University of Queensland & City University of Hong Kong.
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Growth‐inhibiting effects of 12 antibacterial agents and their mixtures on the freshwater microalga Pseudokirchneriella subcapitata
TL;DR: Although present at low concentrations in the aquatic environment, mixtures of these antibacterial agents can potentially affect algal growth in freshwater systems due to their combined action.
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Mechanism of toxicity of ionic copper and copper complexes to algae
TL;DR: The mechanism of toxicity of ionic copper and copper complexes to growth, photosynthesis, respiration, ATP levels and mitochondrial electron-transport chain-activity in two marine diatoms, Nitzschia closterium and Asterionella glacialis Castracane, was investigated and copper-ethylxanthogenate was exceptional amongst the copper complexes.
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pH-dependent toxicity of copper and uranium to a tropical freshwater alga (Chlorella sp.).
TL;DR: The effect of pH on the toxicity of Cu and U to the green alga Chlorella sp.
Handbook for sediment quality assessment
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Sensitivity of marine microalgae to copper: The effect of biotic factors on copper adsorption and toxicity
Jacqueline L. Levy,Jacqueline L. Levy,Jennifer L. Stauber,Jennifer L. Stauber,Dianne F. Jolley +4 more
TL;DR: The relationship between metal-algal cell binding and copper sensitivity of marine microalgae was investigated using a series of 72-h growth-rate inhibition bioassays and short-term uptake studies, finding differences in sensitivity may be due to differences in uptake rates across the plasma membrane, in internal binding mechanisms and/or detoxification mechanisms between the different microalgal species.