Your search keyword '"Jordan, Mark A"' showing total 2 results

1. Influence of natural amphipod ( Victoriopisa australiensis) (Chilton, 1923) population densities on benthic metabolism, nutrient fluxes, denitrification and DNRA in sub-tropical estuarine sediment.

Author

Dunn, Ryan, Welsh, David, Jordan, Mark, Teasdale, Peter, and Lemckert, Charles

Subjects

AMPHIPODA, ANIMAL population density, DENITRIFICATION, ESTUARINE sediments, BIOTURBATION, ORGANIC compounds, BACTERIAL metabolism, BIOGEOCHEMISTRY, LAKES

Abstract

The influence of natural populations of the sub-surface deposit-feeding amphipod Victoriopisa australiensis on sediment biogeochemistry was assessed by randomly collecting 21 sediment cores in a zone of Coombabah Lake, southern Moreton Bay, Australia, where the benthic infauna was dominated by this species. Cores were incubated sequentially to determine sediment–water column fluxes of oxygen, dissolved inorganic carbon and inorganic N species, followed by incubations to determine rates of denitrification and dissimilatory nitrate reduction to ammonium (DNRA) using the isotope pairing technique. Finally, each core was sieved in order to determine the population and biomass of amphipods present. Whilst all measures of overall benthic metabolism (sediment oxygen demand, and effluxes of inorganic carbon and nitrogen) showed increased with amphipod density, with rates being stimulated 70–220% at the highest categorised density range of 2,500–3,500 ind m−2, only the correlation with dissolved inorganic carbon was statistically significant. In contrast, there were no discernable trends between amphipod densities and any of the N-cycle processes with the slopes of all correlations being very close to zero. These results highlight the differences in mesocosm simulations of fauna effects, which primarily relate to shifts in rates of organic matter turnover, compared to natural sediments where fauna effects relate more to induced changes in rates of organic matter deposition. Therefore, while mesocosms represent a powerful tool to investigate the mechanisms by which fauna influences microbial metabolism in the sediment, only studies of natural sediments can determine to what extent these mechanisms function in situ. [ABSTRACT FROM AUTHOR]

Published

2009

2. A sensitive ferricyanide-mediated biochemical oxygen demand assay for analysis of wastewater treatment plant influents and treated effluents.

Author

Jordan MA, Welsh DT, John R, Catterall K, and Teasdale PR

Subjects

Biocatalysis, Cities, Electrodes, Ferrocyanides analysis, Ferrocyanides metabolism, Gram-Negative Bacteria growth & development, Gram-Negative Bacteria metabolism, Gram-Positive Bacteria growth & development, Gram-Positive Bacteria metabolism, Limit of Detection, Local Government, Oxidation-Reduction, Oxygen metabolism, Queensland, Reproducibility of Results, Solid Waste analysis, Time Factors, Wastewater microbiology, Ferricyanides chemistry, Indicators and Reagents chemistry, Oxygen analysis, Wastewater chemistry, Water Purification, Water Quality

Abstract

Representative and fast monitoring of wastewater influent and effluent biochemical oxygen demand (BOD) is an elusive goal for the wastewater industry and regulatory bodies alike. The present study describes a suitable assay, which incorporates activated sludge as the biocatalyst and ferricyanide as the terminal electron acceptor for respiration. A number of different sludges and sludge treatments were investigated, primarily to improve the sensitivity of the assay. A limit of detection (LOD) (2.1 mg BOD₅ L⁻¹) very similar to that of the standard 5-day BOD₅ method was achieved in 4 h using raw influent sludge that had been cultured overnight as the biocatalyst. Reducing the microbial concentration was the most effective means to improve sensitivity and reduce the contribution of the sludge's endogenous respiration to total ferricyanide-mediated (FM) respiration. A strong and highly significant relationship was found (n = 33; R = 0.96; p < 0.001; slope = 0.94) between BOD₅ and FM-BOD equivalent values for a diverse range of samples including wastewater treatment plant (WWTP) influent and treated effluent, as well as several grey water samples. The activated sludge FM-BOD assay presented here is an exceptional surrogate method to the standard BOD₅ assay, providing representative, same-day BOD analysis of WWTP samples with a comparable detection limit, a 4-fold greater analytical range and much faster analysis time. The industry appeal of such an assay is tremendous given that ~90% of all BOD₅ analysis is dedicated to measurement of WWTP samples, for which this assay is specifically designed., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013