Your search keyword '"Russell J. Davenport"' showing total 3 results

1. Improving the biodegradability in seawater test (OECD 306)

Author

Malyka Galay-Burgos, Timothy J. Martin, Amelie Ott, Russell J. Davenport, Graham Whale, Bob Rowles, and Jason Snape

Subjects

education.field_of_study, Environmental Engineering, 010504 meteorology & atmospheric sciences, Screening test, Population, Guidelines as Topic, Congresses as Topic, 010501 environmental sciences, Environmental economics, Research findings, 01 natural sciences, Pollution, Test (assessment), Biodegradation, Environmental, Fresh water, Environmental Chemistry, Environmental science, Seawater, education, Organisation for Economic Co-Operation and Development, Waste Management and Disposal, Water Pollutants, Chemical, 0105 earth and related environmental sciences, Environmental risk assessment

Abstract

Growth and extensive urbanisation of the human population has been accompanied by increased manufacture and use of chemical compounds. To classify the fate and behaviour of these compounds in the environment, a series of international standardised biodegradation screening tests (BSTs) were developed over 30 years ago. In recent years, regulatory emphasis (e.g. REACH) has shifted from measuring biodegradation towards prioritisations based on chemical persistence. In their current guise, BSTs are ineffective as screens for persistence. The marine BST OECD 306 in particular is prone to high levels of variation and produces a large number of fails, many of which can be considered false negatives. An ECETOC funded two-day workshop of academia, industry and regulatory bodies was held in 2015 to discuss improvements to the marine BSTs based on previous research findings from the Cefic LRI ECO11 project and other foregoing studies. During this workshop, methodological improvements to the OECD 306 test were discussed, in addition to clarifying guidance on testing and interpretation of results obtained from marine BSTs (such as pass criteria, lag phases, freshwater read across and complex substances). Methodologically: (i) increasing bacterial cell concentrations to better represent the bacterial diversity inherent in the sampled environments; and (ii) increasing test durations to investigate extended lag phases observed in marine assessments, were recommended to be validated in a multi-institutional ring test.

Published

2019

2. Increased cell numbers improve marine biodegradation tests for persistence assessment

Author

Timothy J. Martin, Amelie Ott, Jason Snape, and Russell J. Davenport

Subjects

Pentachlorophenol, Environmental Engineering, 010504 meteorology & atmospheric sciences, Microbial diversity, Coefficient of variation, Reproducibility of Results, Negative control, Cell Count, Chemical fate, 010501 environmental sciences, Biodegradation, Pulp and paper industry, 01 natural sciences, Pollution, Persistence (computer science), chemistry.chemical_compound, Biodegradation, Environmental, chemistry, Environmental Chemistry, Environmental science, Seawater, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

Currently available OECD biodegradation screening tests (BSTs) are not particularly suited for persistence screening. Their duration can be much less than international half-life thresholds for persistence and they are variable and stringent, therefore prone to false negatives. The present study extended test durations beyond 28 days and increased biomass concentrations for marine BSTs to better represent the microbial diversity inherent in the sampled environment. For this so-called environmentally relevant BST (erBST) marine cell concentrations were nominally increased 100-fold by tangential flow filtration. The marine erBST was validated against a standard BST using five 14C labeled reference compounds with a range of biodegradation potentials (aniline, 4-fluorophenol, 4-nitrophenol, 4-chloroaniline and pentachlorophenol) in a modified OECD 301B test. A full mass balance was collated to follow chemical fate in the tests. The erBST was more accurate and less variable than the comparator BST in assigning the reference compounds to their expected biodegradation classifications (non-persistent or potentially persistent). According to the REACH non-persistence criterion of ≥60% biodegradation over 60 days, the erBST correctly classified 60% of chemical replicates according to their expected biodegradation classification and had a coefficient of variation of 21% between replicates. In contrast, the BST correctly assessed 40% of reference chemicals in regards to their expected biodegradation classification with a coefficient of variation of 36%. All non-persistent chemicals showed increased degradation in the erBST, except for 4-chloroaniline, which did not degrade in either BST or erBST. Both tests showed no false positive results, correctly classifying the negative control pentachlorophenol as potentially persistent. Next, it is recommended to further validate the marine erBST in an inter-laboratory study incorporating different seawater sources to fully assess its variability and reliability.

Published

2020

3. The food-water quality nexus in periurban aquacultures downstream of Bangkok, Thailand

Author

Charles Hazlerigg, Nipapun Pansuk, Marcos Quintela Baluja, Russell J. Davenport, Aidan Robson, David Werner, Kishor Acharya, Parinda Thayanukul, Thunchanok Thongsamer, Wojciech Mrozik, Soydoa Vinitnantharat, and Pavinee Pattanachan

Subjects

Environmental Engineering, 010504 meteorology & atmospheric sciences, Population, Aquaculture, 010501 environmental sciences, 01 natural sciences, Article, 12. Responsible consumption, Antibiotic resistance genes, Environmental protection, Environmental Chemistry, Faecal source tracking, 14. Life underwater, Pesticides, Cities, Water pollution, education, Waste Management and Disposal, 0105 earth and related environmental sciences, 2. Zero hunger, education.field_of_study, business.industry, Urbanization, Water Pollution, Eutrophication, 15. Life on land, Thailand, Pollution, 6. Clean water, Fecal coliform, 13. Climate action, Agriculture, Nutrient pollution, Environmental science, Water quality, business, Environmental Monitoring

Abstract

Peri-urban aquacultures produce nutritious food in proximity to markets, but poor surface water quality in rapidly expanding megacities threatens their success in emerging economies. Our study compared, for a wide range of parameters, water quality downstream of Bangkok with aquaculture regulations and standards. For parameters not meeting those requirements, we sought to establish whether aquaculture practice or external factors were responsible. We applied conventional and advanced methods, including micropollutant analysis, genetic markers, and 16S rRNA amplicon sequencing, to investigate three family-owned aquacultures spanning extensive, semi-intensive and intensive practices. Canals draining the city of Bangkok did not meet quality standards for water to be used in aquaculture, and were sources for faecal coliforms, Bacteriodes, Prevotella, Human E. coli, tetracycline resistance genes, and nitrogen into the aquaculture ponds. Because of these inputs, aquacultures suffered algae blooms, with and without fertilizer and feed addition to the ponds. The aquacultures were sources of salinity and the herbicide diuron into the canals. Diuron was detectable in shrimp, but not at a level of concern to human health. Given the extent and nature of pollution, peri-urban water policy should prioritize charging for urban wastewater treatment over water fees for small-scale agricultural users. The extensive aquaculture attenuated per year an estimated twenty population equivalents of nitrogen pollution and trillions of faecal coliform bacteria inputs from the canal. Extensive aquacultures could thus contribute to peri-urban blue-green infrastructures providing ecosystem services to the urban population such as flood risk management, food production and water pollution attenuation., Graphical abstract Unlabelled Image, Highlights • Extensive, semi-intensive and intensive aquacultures near Bangkok were investigated. • Aquaculture water quality was severely affected by urban pollution in the canals. • Aquacultures released herbicides/algaecides into canals. • Extensive aquacultures attenuated faecal pollution inputs from the canals. • Extensive aquaculture could be integrated in blue-green infrastructures.

Published

2019