Your search keyword '"Crosbie, Nicholas D."' showing total 13 results

1. Organic carbon utilisation by the filamentous alga Tribonema.

Author

Liu, Jiajun, Crosbie, Nicholas D., Scales, Peter J., and Martin, Gregory J. O.

Abstract

Filamentous algae have potential application to wastewater treatment, in particular for efficient recovery of nutrients into biomass. However, supplying inorganic carbon is a major limiting factor. The utilisation of organic carbon present in wastewater may reduce the constraints in carbon supply, however there is little knowledge of mixotrophic growth amongst filamentous algae. This study investigated the utilisation of organic carbon sources relevant to wastewater by the filamentous xanthophyte alga Tribonema. Algae growth was compared in the absence of organic carbon (autotrophic) and in presence of 0.2 g-C L-1 glucose, ethanol or acetate under mixotrophic (presence of organic carbon and light) or heterotrophic (presence of organic carbon and absence of light) conditions. To investigate direct utilisation of organic carbon and indirect utilisation via bacterial CO2-genesis, cultivation was performed under both axenic and non-axenic conditions. Tribonema was found to directly utilise glucose, which increased mixotrophic productivity and maintained growth under heterotrophic conditions. In contrast, acetate was only indirectly utilised mixotrophically in the presence of bacteria, whereas ethanol was not utilised under any conditions. The underlying mechanisms of glucose utilisation by Tribonema were also investigated by analysing its photosynthetic rate and respiration rate under glucose concentrations ranging from 0 – 100 g L-1. Based on the results, enhancements to metabolic pathways and reduced CO2 requirements provided by glucose utilisation were proposed. Despite the positive results with respect to glucose utilisation, out competition for this resource by bacteria suggest that Tribonema is more suitable for treatment of wastewater with low organic carbon concentrations, such as secondary-treated wastewater effluent. [ABSTRACT FROM AUTHOR]

Published

2024

2. Genetic diversity and quantification of human mastadenoviruses in wastewater from Sydney and Melbourne, Australia.

Author

Lun, Jennifer H., Crosbie, Nicholas D., and White, Peter A.

Abstract

Human mastadenoviruses (HAdVs) are DNA viruses that can cause a wide range of clinical diseases, including gastroenteritis, respiratory illnesses, conjunctivitis, and in more severe cases hepatitis, pancreatitis and disseminated diseases. HAdV infections are generally asymptomatic or self-limiting, but can cause adverse outcomes within vulnerable populations. Since most HAdV serotypes replicate within the human gastrointestinal tract, high levels of HAdV DNA are excreted into wastewater systems. In this study, we identified the genetic diversity of HAdV at a population level using wastewater samples collected from Sydney and Melbourne from 2016 to 2017, with the use of next generation sequencing (NGS) technologies. In addition, HAdV DNA levels were quantified using quantitative polymerase chain reaction (qPCR) based methods to better understand the health risks involved if wastewater contamination occurs. An average of 1.8 × 107 genome copies of HAdV DNA was detected in one litre of wastewater collected in Sydney and Melbourne, over the two-year study period. A total of six major groups of HAdV were identified in wastewater samples using MiSeq, which included 19 different serotypes. Of those, the most prevalent was F41 (83.5%), followed by F40 (11.0%) and A31 (3.7%). In contrast, five groups of HAdV were identified in clinical samples with F41 as the most dominant serotype, (52.5% of gastroenteritis cases), followed by C1 and C2 (each responsible for 15.0%), and B3 was the fourth most common serotype (7.5%). This study demonstrated the practicability of using amplicon based NGS to identify HAdV diversity and quantify HAdV genome levels in environmental water samples, as well as broadening our current understanding of circulating HAdV in the Australian population. Unlabelled Image • Viral concentration method developed for virus detection in wastewater, using MS2 bacteriophage as a process control. • Quantification of total human mastadenovirus genome in wastewater • Identification of human mastadenovirus genetic diversity at a population level using wastewater and clinical samples. [ABSTRACT FROM AUTHOR]

Published

2019

3. Rapid establishment of clonal isolates of freshwater autotrophic picoplankton by single-cell and single-colony sorting

Author

Crosbie, Nicholas D., Pöckl, Matthias, and Weisse, Thomas

Subjects

*CYANOBACTERIA, *AUTOTROPHIC bacteria, *PLANKTON, *LAKES

Abstract

We describe single-cell and single-colony sorting protocols which allowed for rapid establishment of a diverse culture collection of clonal autotrophic picoplankton (APP) isolates originating from oligotrophic and oligo-mesotrophic subalpine lakes. Overall sort recoveries, expressed as the percentage of sorted microwells exhibiting APP growth, ranged from 5% to 17% depending on the type of APP, but the growth success varied greatly (from 0% to 68%) depending on the origin of the sorted sample. We applied two direct sequencing and two denaturing gradient gel electrophoresis (DGGE) protocols to identify and characterize the genetic purity of 21 of our picocyanobacteria cultures, namely, direct sequencing of the 16S rRNA gene and cpcBA-IGS region, and DGGE analyses involving a 194-bp fragment of the internal transcribed spacer (ITS) and a ca. 500-bp fragment of the phycocyanin (PC) operon (cpcBA-IGS, novel protocol described herein). Of those 21 picocyanobacteria cultures obtained by single-cell/single-colony sorting and subsequently characterized genetically/screened for genetic purity, only one culture was composed of multiple picocyanobacterial strains. [Copyright &y& Elsevier]

Published

2003

4. Dispersal and Phylogenetic Diversity of Nonmarine Picocyanobacteria, Inferred from 16S rRNA Gene and cpcBA-Intergenic Spacer Sequence Analyses.

Author

Crosbie, Nicholas D., Pöckl, Matthias, and Weisse, Thomas

Subjects

*CYANOBACTERIA, *NUCLEOTIDE sequence

Abstract

More than 20 Synechococcus and Cyanobiurn isolates were obtained from central European subalpine lakes and sequenced for their 16S rRNA gene and part of the phycocyanin operon (cpc), specifically the intergenic spacer (IGS) between cpcB and cpcA, and corresponding flanking regions (cpcBA-IGS). Maximum-likelihood analyses revealed the existence of at least six to seven clusters of nonmarine picocyanobacteria within the picophytoplankton clade and support the conjecture of global dispersal for some closely related picocyanobacterial genotypes. [ABSTRACT FROM AUTHOR]

Published

2003

5. The small, the big, and the beautiful: Emerging challenges and opportunities for waste stabilization ponds in Australia.

Author

Coggins, Liah X., Crosbie, Nicholas D., and Ghadouani, Anas

Subjects

*SEWAGE lagoons, *SEWAGE disposal plants, *SUSTAINABLE engineering, *CLIMATIC zones, *MICROBIAL ecology

Abstract

Waste stabilization ponds (WSPs) are used extensively for the treatment of wastewater in Australia, mostly in regional and remote areas. Wastewater treatment plants (WWTPs) using pond technologies are also distributed over the full geographical extent of Australia, encompassing many climatic zones. Predominantly used to service small to medium‐sized communities, WSPs are also used to service large metropolitan Australian populations, up to 2.5 million people. When well‐maintained, WSPs are a sustainable and resilient treatment option, and treatment is achieved at significantly lower cost when compared with conventional WWTPs. Increasing population, changing regulations, and climate variability are placing increasing pressure on Australian WSP systems. Sludge accumulation over time presents a significant challenge to pond maintenance, along with increasing occurrence of toxic cyanobacterial bloom events. These challenges are only enhanced by the wide geographical distribution and by increasing operational and maintenance costs. Increased demand for recycled water is placing further pressure on Australian WSP systems, as higher value treated water is expected from WSP infrastructure that is often overloaded or under‐designed. This increased demand for high‐quality treatment presents an opportunity for operators and researchers to develop a better understanding of the coupling between hydraulics and microbial ecology of these systems. With more stringent guidelines for greenhouse gas emissions (GHGs), a better understanding of biophysicochemical processes in WSPs will lead to better estimates of GHG fluxes and variability. This information will become critical for the future planning, maintenance and operation of WSPs, and will result in a better understanding of WSP systems overall. This article is categorized under: Engineering Water > Water, Health, and Sanitation Engineering Water > Sustainable Engineering of Water [ABSTRACT FROM AUTHOR]

Published

2019

6. A modified approach to recover and enumerate Ascaris ova in wastewater and sludge.

Author

Ravindran, Vivek B., Surapaneni, Aravind, Crosbie, Nicholas D., Schmidt, Jonathan, Shahsavari, Esmaeil, Haleyur, Nagalakshmi, Soni, Sarvesh K., and Ball, Andrew S.

Subjects

*SEWAGE sludge, *OVUM, *ASCARIS, *HELMINTHIASIS

Abstract

The article offers information on an approach to recover and enumerate the ova of human roundworm, Ascaris lumbricoides in wastewater and sludge which is responsible for causing health issues. Topics discussed include major cause of ascariasis that include poor sanitation, poor hygiene, and inadequate water supply; and the Tulane method given by United States Environmental Protection Agency (US EPA) for detection and enumeration of soil-transmitted helminth ova in wastewater and sludge.

Published

2019

7. Dietary Uptake and Depuration Kinetics of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Hexafluoropropylene Oxide Dimer Acid (GenX) in a Benthic Fish.

Author

Hassell, Kathryn L., Coggan, Timothy L., Cresswell, Tom, Kolobaric, Adam, Berry, Kathryn, Crosbie, Nicholas D., Blackbeard, Judy, Pettigrove, Vincent J., and Clarke, Bradley O.

Subjects

*PERFLUOROOCTANE sulfonate, *GROUNDFISHES, *PERFLUOROOCTANOIC acid, *FOOD contamination, *BIOACCUMULATION in fishes, *FEED contamination

Abstract

Per‐ and poly‐fluoroalkyl substances (PFAS) are ubiquitously distributed throughout aquatic environments and can bioaccumulate in organisms. We examined dietary uptake and depuration of a mixture of 3 PFAS: perfluorooctanoic acid (PFOA; C8HF15O2), perfluorooctane sulfonate (PFOS; C8HF17SO3), and hexafluoropropylene oxide dimer acid (HPFO‐DA; C6HF11O3; trade name GenX). Benthic fish (blue spot gobies, Pseudogobius sp.) were fed contaminated food (nominal dose 500 ng g–1) daily for a 21‐d uptake period, followed by a 42‐d depuration period. The compounds PFOA, linear‐PFOS (linear PFOS), and total PFOS (sum of linear and branched PFOS) were detected in freeze‐dried fish, whereas GenX was not, indicating either a lack of uptake or rapid elimination (<24 h). Depuration rates (d–1) were 0.150 (PFOA), 0.045 (linear‐PFOS), and 0.042 (linear+branched‐PFOS) with corresponding biological half‐lives of 5.9, 15, and 16 d, respectively. The PFOS isomers were eliminated differently, resulting in enrichment of linear‐PFOS (70–90%) throughout the depuration period. The present study is the first reported study of GenX dietary bioaccumulation potential in fish, and the first dietary study to investigate uptake and depuration of multiple PFASs simultaneously, allowing us to determine that whereas PFOA and PFOS accumulated as expected, GenX, administered in the same way, did not appear to bioaccumulate. Environ Toxicol Chem 2020;39:595–603. © 2019 SETAC [ABSTRACT FROM AUTHOR]

Published

2020

8. Wastewater-based epidemiology biomarkers: Past, present and future.

Author

Choi, Phil M., Tscharke, Ben J., Donner, Erica, O'brien, Jake W., Grant, Sharon C., Kaserzon, Sarit L., Mackie, Rachel, O'malley, Elissa, Crosbie, Nicholas D., Thomas, Kevin V., and Mueller, Jochen F.

Subjects

*EPIDEMIOLOGY, *WASTEWATER treatment, *BIOLOGICAL tags, *WATER pollution, *QUANTITATIVE research

Abstract

Wastewater is a complex matrix containing a wide range of chemical and biological markers of human activity. Relating concentrations of these “waste” materials in wastewater influent streams to population-scale use, consumption, or rates of exposure, can provide important qualitative or quantitative information on the activity of inhabitants within a given wastewater catchment. Many publications in this field of study have focussed on the usage of pharmaceuticals, illicit drugs, tobacco and alcohol. However, many other potential applications are emerging which can contribute useful knowledge on human health, exposure to industrial chemicals, infectious diseases or pathogens and antibiotic resistance. This review summarises the established wastewater based epidemiology (WBE) biomarkers, and presents a critical review of the current capabilities of WBE. We further discuss possible future strategies and challenges anticipated in analysing wastewater to measure chemical markers of population health as well as biological markers of microbial exposure and disease. [ABSTRACT FROM AUTHOR]

Published

2018

9. An improved method for PCR-based detection and routine monitoring of geosmin-producing cyanobacterial blooms.

Author

John, Nijoy, Koehler, Anson V., Ansell, Brendan R.E., Baker, Louise, Crosbie, Nicholas D., and Jex, Aaron R.

Subjects

*GEOSMIN, *DNA primers, *CYANOBACTERIA, *CYANOBACTERIAL blooms, *POLYMERASE chain reaction

Abstract

Production of taste and odour (T/O) compounds, principally geosmin, by complex cyanobacterial blooms is a major water quality issue globally. Control of these cyanobacteria imposes a significant cost on water producing and dependent industries, and requires routine monitoring and management. Classic monitoring methods, including microscopy and direct chemical analysis, lack sensitivity, are laborious, expensive or cannot reliably identify the source of geosmin production. Polymerase Chain Reaction (PCR) based tools targeting the geosmin synthase gene ( geo A) provide a novel tool for routine monitoring. However, geo A is variable at the nucleotide level and potential geosmin producers represent a broad taxonomic distribution, such that multiple PCR primers with distinct amplification protocols are needed to target all potential sources of this important T/O compound. Development of novel primers is hindered by a lack of sequence data and limited field and laboratory data on geosmin producers prevents prioritizing taxa for PCR testing. Here we performed a genetic screen of 253 bloom samples from Victoria, Australia using each existing PCR protocol targeting geo A. We detected Dolichospermum ucrainicum as the major geosmin producer (87% of sequenced samples) along with 3 unknown geo A sequence types. Using these data, we designed a novel, short amplicon, PCR protocol utilising a single standardised primer pair, capable of amplifying all geo A positive samples in our study, as well as a Nostoc punctiforme positive control. This single protocol geo A PCR can further be tested on other geosmin producers and will simplify routine monitoring of T/O producing cyanobacteria. [ABSTRACT FROM AUTHOR]

Published

2018

10. Management of biogenic taste and odour: From source water, through treatment processes and distribution systems, to consumers.

Author

Zhu, Jin, Stuetz, Richard M., Hamilton, Lisa, Power, Kaye, Crosbie, Nicholas D., and Tamburic, Bojan

Subjects

*WATER treatment plants, *WATER distribution, *ODORS, *WATER quality, *WATER utilities, *DRINKING water, *CONSUMERS, *ALGAL blooms

Abstract

Biogenic taste and odour (T&O) have become a global concern for water utilities, due to the increasing frequency of algal blooms and other microbial events arising from the combined effects of climate change and eutrophication. Microbially-produced T&O compounds impact source waters, drinking water treatment plants, and drinking water distribution systems. It is important to manage across the entire biogenic T&O pathway to identify key risk factors and devise strategies that will safeguard the quality of drinking water in a changing world, since the presence of T&O impacts consumer confidence in drinking water safety. This study provides a critical review of current knowledge on T&O-causing microbes and compounds for proactive management, including the identification of abiotic risk factors in source waters, a discussion on the effectiveness of existing T&O barriers in drinking water treatment plants, an analysis of risk factors for biofilm growth in water distribution systems, and an assessment of the impacts of T&O on consumers. The fate of biogenic T&O in drinking water systems is tracked from microbial production pathways, through the release of intracellular T&O by cell lysis, to the treatment of microbial cells and dissolved T&O. Based on current knowledge, five impactful research and management directions across the T&O pathway are recommended. [Display omitted] • Critical review of biogenic taste and odour in drinking water from source to tap. • Improved detection and analysis of odorants beyond geosmin and MIB is required. • Better understanding of microbes in source water can inform early warning systems. • Flexible and responsive treatment solutions are needed for emerging odorants. • Operationalised consumer data and better communication would benefit water managers. [ABSTRACT FROM AUTHOR]

Published

2022

11. Nitrogen contamination and bioremediation in groundwater and the environment: A review.

Author

Morrissy, Justin G., Currell, Matthew J., Reichman, Suzie M., Surapaneni, Aravind, Megharaj, Mallavarapu, Crosbie, Nicholas D., Hirth, Daniel, Aquilina, Simon, Rajendram, William, and Ball, Andrew S.

Subjects

*GROUNDWATER, *BIOREMEDIATION, *IN situ bioremediation, *POLLUTION, *WATER quality, *GROUNDWATER monitoring, *HUMAN ecology

Abstract

Nitrogen contamination of groundwater and the environment is an increasing problem in today's society. Since the invention of the Haber-Bosh process in 1913, the impacts of N on human health and the environment have become increasingly widespread due to the industrial scale production of reactive N (N r). As a result, government organisations and the scientific community continue to make advances towards tackling this ongoing problem. The inherent difficulties of accessing, observing and monitoring groundwater, combined with the complexity of interactions between groundwater chemistry, hydrogeology and ecology have resulted in gaps in fundamental knowledge, specifically regarding the understanding and remediation of N contaminated groundwater. As these knowledge gaps are addressed with ongoing research, current and future remediation targets are being consistently updated; this has resulted in past remediation strategies that may no longer be consistent in meeting new regulatory guidelines for water quality. As such, the search for more technically and economically feasible remediation strategies continues. Recent advances in bioremediation technologies have opened up promising avenues for research in the remediation of N contaminated groundwater. This literature review outlines the past, present and future of N r -contamination and remediation in N r -contaminated groundwater within the broader context of the larger environment. The literature cited in this review is critically evaluated to determine significant knowledge gaps. [ABSTRACT FROM AUTHOR]

Published

2021

12. Epidemiological evaluation of sewage surveillance as a tool to detect the presence of COVID-19 cases in a low case load setting.

Author

Black, Jim, Aung, Phyo, Nolan, Monica, Roney, Emma, Poon, Rachael, Hennessy, Daneeta, Crosbie, Nicholas D., Deere, Dan, Jex, Aaron R., John, Nijoy, Baker, Louise, Scales, Peter J., Usher, Shane P., McCarthy, David T., Schang, Christelle, Schmidt, Jonathan, Myers, Steven, Begue, Natacha, Kaucner, Christine, and Thorley, Bruce

Published

2021

13. First report of anatoxin-a producing cyanobacteria in Australia illustrates need to regularly up-date monitoring strategies in a shifting global distribution.

Author

John, Nijoy, Baker, Louise, Ansell, Brendan R. E., Newham, Steven, Crosbie, Nicholas D., and Jex, Aaron R.

Abstract

Routine monitoring of toxic cyanobacteria depends on up-to-date epidemiological information about their distribution. In Australia, anatoxin producing cyanobacteria are not regularly tested for and thought to be rare if not absent from the continent. Our study investigated the presence of anatoxin-a (ATX-a) producing cyanobacteria in surface water samples (n = 226 from 67 sampling locations) collected from 2010 to 2017 across the state of Victoria, Australia. We (1) detected the presence and distribution of anaC (anatoxin-a synthetase C) gene sequences previously associated with various cyanobacteria, including Cuspidothrix issatschenkoi, Aphanizomenon sp., D. circinale, Anabaena sp., and Oscillatoria sp., from 31 sampling locations, and (2) determined the concentration of ATX-a in samples tested using ELISA, in two instances detected at >4 µg · L−1. These data present the first confirmation of ATX-a producers in Australia. Our study indicates that ATX-a should be included in regular testing of cyanobacterial blooms in Australia and highlights the importance of regular investigation of the distributions of toxic cyanobacteria worldwide, particularly amid the known expanding distribution of many cyanobacterial taxa in a period of increased eutrophication and rising surface water temperatures. [ABSTRACT FROM AUTHOR]

Published

2019