Your search keyword '"Woodall, Lucy C."' showing total 7 results

1. Plastics treaty text must center ecosystems.

Author

Tessnow-von Wysocki I, Wang M, Morales-Caselles C, Woodall LC, Syberg K, Carney Almroth B, Fernandez M, Monclús L, Wilson SP, Warren M, Knoblauch D, and Helm RR

Subjects

Biodiversity, Environmental Pollution, International Cooperation, Plastics

Published

2023

2. Plastic pollution on the world's coral reefs.

Author

Pinheiro HT, MacDonald C, Santos RG, Ali R, Bobat A, Cresswell BJ, Francini-Filho R, Freitas R, Galbraith GF, Musembi P, Phelps TA, Quimbayo JP, Quiros TEAL, Shepherd B, Stefanoudis PV, Talma S, Teixeira JB, Woodall LC, and Rocha LA

Subjects

Food Chain, Pacific Ocean, Atlantic Ocean, Indian Ocean, Particle Size, Human Activities, Hunting, Coral Reefs, Plastics adverse effects, Plastics analysis

Abstract

Coral reefs are losing the capacity to sustain their biological functions 1 . In addition to other well-known stressors, such as climatic change and overfishing 1 , plastic pollution is an emerging threat to coral reefs, spreading throughout reef food webs 2 , and increasing disease transmission and structural damage to reef organisms 3 . Although recognized as a global concern 4 , the distribution and quantity of plastics trapped in the world's coral reefs remains uncertain 3 . Here we survey 84 shallow and deep coral ecosystems at 25 locations across the Pacific, Atlantic and Indian ocean basins for anthropogenic macrodebris (pollution by human-generated objects larger than 5 centimetres, including plastics), performing 1,231 transects. Our results show anthropogenic debris in 77 out of the 84 reefs surveyed, including in some of Earth's most remote and near-pristine reefs, such as in uninhabited central Pacific atolls. Macroplastics represent 88% of the anthropogenic debris, and, like other debris types, peak in deeper reefs (mesophotic zones at 30-150 metres depth), with fishing activities as the main source of plastics in most areas. These findings contrast with the global pattern observed in other nearshore marine ecosystems, where macroplastic densities decrease with depth and are dominated by consumer items 5 . As the world moves towards a global treaty to tackle plastic pollution 6 , understanding its distribution and drivers provides key information to help to design the strategies needed to address this ubiquitous threat., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

3. Quantification is more than counting: Actions required to accurately quantify and report isolated marine microplastics.

Author

Rivers ML, Gwinnett C, and Woodall LC

Subjects

Atlantic Ocean, Environmental Monitoring standards, Environmental Monitoring statistics & numerical data, Particle Size, Environmental Monitoring methods, Plastics analysis, Seawater chemistry, Water Pollutants, Chemical analysis

Abstract

Research on marine microplastics continues to increase in popularity, with a large number of studies being published every year. However, with this plethora of research comes the need for a standardised approach to quantification and analysis procedures in order to produce comparative assessments. Using data collected from neuston nets in 2016, parameters for quantifying microplastics were compared. Surface area was the most accurate parameter to describe plastic size and should be used to describe plastic quantity (per km 2 or m 3 ), alongside abundance. Of the two most commonly used methods for calculating plastic concentration (flowmeter and ship's log), ship's log provided consistently smaller abundances, with the exception of one sample, calling for a standardisation in the techniques and measurements used to quantify floating microplastics., (Copyright © 2018 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2019

4. Using a forensic science approach to minimize environmental contamination and to identify microfibres in marine sediments.

Author

Woodall LC, Gwinnett C, Packer M, Thompson RC, Robinson LF, and Paterson GL

Subjects

Forensic Sciences, Geologic Sediments chemistry, Water, Environmental Monitoring methods, Environmental Pollution prevention & control, Plastics analysis, Water Pollutants, Chemical analysis

Abstract

There is growing evidence of extensive pollution of the environment by microplastic, with microfibres representing a large proportion of the microplastics seen in marine sediments. Since microfibres are ubiquitous in the environment, present in the laboratory air and water, evaluating microplastic pollution is difficult. Incidental contamination is highly likely unless strict control measures are employed. Here we describe methods developed to minimize the amount of incidental post-sampling contamination when quantifying marine microfibre pollution. We show that our protocol, adapted from the field of forensic fibre examination, reduces fibre abundance by 90% and enables the quick screening of fibre populations. These methods therefore allow an accurate estimate of microplastics polluting marine sediments. In a case study from a series of samples collected on a research vessel, we use these methods to highlight the prevalence of microfibres as marine microplastics., (Copyright © 2015 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2015

5. Deep-sea anthropogenic macrodebris harbours rich and diverse communities of bacteria and archaea.

Author

Woodall, Lucy C., Jungblut, Anna D., Hopkins, Kevin, Hall, Andie, Robinson, Laura F., Gwinnett, Claire, and Paterson, Gordon L. J.

Subjects

*ARCHAEBACTERIA genetics, *BACTERIAL communities, *BIOMASS energy, *RIBOSOMAL RNA, *NUCLEOTIDE sequencing

Abstract

The deep sea is the largest biome on earth, and microbes dominate in biomass and abundance. Anthropogenic litter is now almost ubiquitous in this biome, and its deposition creates new habitats and environments, including for microbial assemblages. With the ever increasing accumulation of this debris, it is timely to identify and describe the bacterial and archaeal communities that are able to form biofilms on macrodebris in the deep sea. Using 16S rRNA gene high throughput sequencing, we show for the first time the composition of bacteria and archaea on macrodebris collected from the deep sea. Our data suggest differences in the microbial assemblage composition across litter of different materials including metal, rubber, glass, fabric and plastic. These results imply that anthropogenic macrodebris provide diverse habitats for bacterial and archaeal biofilms and each may harbour distinct microbial communities. [ABSTRACT FROM AUTHOR]

Published

2018

6. Plastic Drawdown: A rapid assessment tool for developing national responses to plastic pollution when data availability is limited, as demonstrated in the Maldives.

Author

Royle, Jo, Jack, Ben, Parris, Hannah, Elliott, Tim, Castillo, Arturo Castillo, Kalawana, Shenali, Nashfa, Hawwa, and Woodall, Lucy C.

Subjects

PLASTIC scrap recycling, RAPID tooling, WASTE minimization, PLASTIC scrap, PLASTIC bag laws, PLASTICS, POLLUTION

Abstract

• A rapid-assessment tool to support plastic pollution policy is presented. • Provides plastic waste flow analysis and visualization of policy instrument impacts. • Suitable for use in countries where data, technical and human capacity is limited. • Motivated Maldives Government to announce ambitious plastic phase out strategy. • Collaborative approach identified policies to achieve 85% less plastic pollution. Governments are increasingly supporting initiatives to address plastic pollution, but efforts are largely opportunistic or driven by national socio-political priorities. There is an urgent need to move away from piecemeal single product instruments (e.g. single use plastic bag taxes or plastic straw bans) to deliver system-wide strategies that minimise the most pervasive sources of plastic pollution. Developing a common understanding of a jurisdiction's plastic waste stream and the solutions available to decision-makers is vital to build consensus across stakeholders and to align on an evidence-based portfolio of priority instruments. This paper presents the Plastic Drawdown framework as a boundary-spanning tool to quickly create a coherent, relevant, and credible analysis and visualisation for stakeholders of plastic waste, leakage hotspots and minimisation opportunities. Using a new plastic waste modelling framework with a consultative structure, Plastic Drawdown explores plastic waste and leakage over a ten-year period and assesses impacts of policy instruments on this projection. Plastic Drawdown is adaptable to the data poor environment typical of many countries and designed as a rapid assessment tool to support the decision making of governments operating in a highly resource-constrained context. The Maldives is used as a case study to show the utility of the tool, where it highlighted strategies with the potential to reduce leakage of plastic waste into the marine environment by up to 85% by 2030. Plastic Drawdown built the case for phasing out single-use plastic waste across the Maldives and supported the Government's decision to set ambitious targets, as announced at the United Nations General Assembly in 2019. [ABSTRACT FROM AUTHOR]

Published

2022

7. Plastics treaty text must center ecosystems.

Author

Wysocki, Ina Tessnow-von, Mengjiao Wang, Morales-Caselles, Carmen, Woodall, Lucy C., Syberg, Kristian, Almroth, Bethanie Carney, Fernandez, Marina, Monclús, Laura, Wilson, Scott P., Warren, Matt, Knoblauch, Doris, and Helm, Rebecca R.

Subjects

*PLASTICS, *MARINE pollution, *ECOSYSTEMS, *FOSSIL fuel subsidies, *EMERGING contaminants, *MARINE biodiversity, *PLASTIC marine debris

Abstract

The article offers information on the ubiquity of plastics pollution and its effects on ecosystems throughout the plastics life cycle. Topics include the environmental impact of plastic manufacturing; the entanglement and choking of wildlife; and the concentration of pollutants in plastic industry.

Published

2023