TY - JOUR
T1 - Quantitative photography for rapid, reliable measurement of marine macro-plastic pollution
AU - Razzell Hollis, Joseph
AU - Henderson, Gabrielle
AU - Lavers, Jennifer L.
AU - Rea, Edward
AU - Komyakova, Valeriya
AU - Bond, Alexander L.
N1 - Funding Information:
We acknowledge the Tasmanian Aboriginal people as the traditional owners and first scientists of the land where this research was conducted. J.R.H. was funded by the European Union's Horizon 2020 research and innovation programme under Marie Skłodowska‐Curie grant agreement no. 101030480. We thank Dr Natalie Cooper at the NHM for helpful discussion of statistical methods and Dr Arianna Salili‐James at the NHM for helpful discussion of shape analysis methods. This research was approved by the Charles Sturt University Animal Ethics Committee (A22382), New South Wales Office of Environment and Heritage (SL100169), Lord Howe Island Board (LHIB 07/18) and the University of Tasmania Human Ethics Panel (H0028598).
Funding Information:
We acknowledge the Tasmanian Aboriginal people as the traditional owners and first scientists of the land where this research was conducted. J.R.H. was funded by the European Union's Horizon 2020 research and innovation programme under Marie Skłodowska-Curie grant agreement no. 101030480. We thank Dr Natalie Cooper at the NHM for helpful discussion of statistical methods and Dr Arianna Salili-James at the NHM for helpful discussion of shape analysis methods. This research was approved by the Charles Sturt University Animal Ethics Committee (A22382), New South Wales Office of Environment and Heritage (SL100169), Lord Howe Island Board (LHIB 07/18) and the University of Tasmania Human Ethics Panel (H0028598).
Publisher Copyright:
© 2023 The Authors. Methods in Ecology and Evolution published by John Wiley & Sons Ltd on behalf of British Ecological Society.
PY - 2023/12/8
Y1 - 2023/12/8
N2 - Plastics are now ubiquitous in the environment and have been studied in wildlife and in ecosystems for more than 50 years. Measurement of size, shape and colour data for individual fragments of plastic is labour-intensive, unreliable and prone to observer bias, particularly when it comes to assessment of colour, which relies on arbitrary and inconsistently defined colour categorisations. There is a clear need for a standard method for data collection on plastic pollution, particularly one that can be readily automated given the number of samples involved. This study describes a new method for standardised photography of marine plastics in the 1–100 mm size range (meso- and macro-plastics), including colour correction to account for any image-to-image variation in lighting that may impact colour reproduction or apparent brightness. Automated image analysis is then applied to detect individual fragments of plastic for quantitative measurement of size, shape, and colour. The method was tested on 3793 fragments of debris ingested by Flesh-footed Shearwaters (Ardenna carneipes) on Lord Howe Island, Australia, and compare results from photos taken in two separate locations using different equipment. Photos were acquired of up to 250 fragments at a time with a spatial resolution of 70 μm/pixel and were colour-corrected using a reference chart to ensure accurate reproduction of colour. The automated image analysis pipeline was found to have a 98% success rate at detecting fragments, and the different size and shape parameters that can be outputted by the pipeline were compared in terms of usefulness. The evidence shown in this study should strongly encourage the uptake of this method for cataloguing macro-scale plastic pollution, as it provides substantially higher quality data with accurate, reliable measurements of size, shape and colour for individual plastics that can be readily compared between disparate datasets.
AB - Plastics are now ubiquitous in the environment and have been studied in wildlife and in ecosystems for more than 50 years. Measurement of size, shape and colour data for individual fragments of plastic is labour-intensive, unreliable and prone to observer bias, particularly when it comes to assessment of colour, which relies on arbitrary and inconsistently defined colour categorisations. There is a clear need for a standard method for data collection on plastic pollution, particularly one that can be readily automated given the number of samples involved. This study describes a new method for standardised photography of marine plastics in the 1–100 mm size range (meso- and macro-plastics), including colour correction to account for any image-to-image variation in lighting that may impact colour reproduction or apparent brightness. Automated image analysis is then applied to detect individual fragments of plastic for quantitative measurement of size, shape, and colour. The method was tested on 3793 fragments of debris ingested by Flesh-footed Shearwaters (Ardenna carneipes) on Lord Howe Island, Australia, and compare results from photos taken in two separate locations using different equipment. Photos were acquired of up to 250 fragments at a time with a spatial resolution of 70 μm/pixel and were colour-corrected using a reference chart to ensure accurate reproduction of colour. The automated image analysis pipeline was found to have a 98% success rate at detecting fragments, and the different size and shape parameters that can be outputted by the pipeline were compared in terms of usefulness. The evidence shown in this study should strongly encourage the uptake of this method for cataloguing macro-scale plastic pollution, as it provides substantially higher quality data with accurate, reliable measurements of size, shape and colour for individual plastics that can be readily compared between disparate datasets.
KW - automated image analysis
KW - plastic colour
KW - plastic pollution
KW - plastic size
KW - quantitative photography
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U2 - 10.1111/2041-210X.14267
DO - 10.1111/2041-210X.14267
M3 - Article
AN - SCOPUS:85179330506
SN - 2041-210X
VL - 15
SP - 227
EP - 243
JO - Methods in Ecology and Evolution
JF - Methods in Ecology and Evolution
IS - 1
ER -