TY - JOUR
T1 - Temporal trends and interannual variation in plastic ingestion by Flesh-footed Shearwaters (Ardenna carneipes) using different sampling strategies
AU - Lavers, Jennifer L.
AU - Hutton, Ian
AU - Bond, Alexander L.
N1 - Funding Information:
Special thanks to Detached Cultural Organization , Sea World Research & Rescue Foundation ( SWR/4/2015 ), Sydney Sea Life Foundation , Natural History Museum , Trading Consultants Ltd (V. Wellington), L. Brice, L. Mortensen, C. Noone, and the W.V. Scott Charitable Trust for providing funding for this project. Samples were collected with the permission of the Lord Howe Island Board (permit no. LHIB 07/12, 02/14, and 07/18) under the approval of the University of Tasmania Animal Ethics Committee (permit no. A10874, A11586, A13836, A16357, and A18480) and New South Wales Office of Environment & Heritage (licence no. SL100619 and SL102382). Logistical support was provided by the Australian Bird and Bat Banding Service and Lord Howe Island community, especially T. Adams, L. Brice, and J. & C. Shick. Assistance in the field was provided by generous volunteers, particularly P. Clive, the Two Hands Project (S. Stuckenbrock & P. Sharp) and members of the Adrift Lab team. Comments from three anonymous reviewers improved earlier drafts.
Funding Information:
Special thanks to Detached Cultural Organization, Sea World Research & Rescue Foundation (SWR/4/2015), Sydney Sea Life Foundation, Natural History Museum, Trading Consultants Ltd (V. Wellington), L. Brice, L. Mortensen, C. Noone, and the W.V. Scott Charitable Trust for providing funding for this project. Samples were collected with the permission of the Lord Howe Island Board (permit no. LHIB 07/12, 02/14, and 07/18) under the approval of the University of Tasmania Animal Ethics Committee (permit no. A10874, A11586, A13836, A16357, and A18480) and New South Wales Office of Environment & Heritage (licence no. SL100619 and SL102382). Logistical support was provided by the Australian Bird and Bat Banding Service and Lord Howe Island community, especially T. Adams, L. Brice, and J. & C. Shick. Assistance in the field was provided by generous volunteers, particularly P. Clive, the Two Hands Project (S. Stuckenbrock & P. Sharp) and members of the Adrift Lab team. Comments from three anonymous reviewers improved earlier drafts.
Publisher Copyright:
© 2021 Elsevier Ltd
PY - 2021/12/1
Y1 - 2021/12/1
N2 - The world's oceans are under increasing pressure from anthropogenic activities, including significant and rapidly increasing inputs of plastic pollution. Seabirds have long been considered sentinels of ocean health, providing data on physical and chemical pollutants in their marine habitats. However, long-term data that can elucidate important patterns and changes in seabird exposure to marine pollutants are relatively limited but are urgently needed to identify and support effective policy measures to reduce plastic waste. Using up to 12 years of data, we examined the benefits and challenges of different approaches to monitoring plastic in seabirds, and the relationship between plastic and body size parameters. We found the mass and number of ingested plastics per bird varied by sample type, with lavage and road-kill birds containing less plastic (9.17–9.33 pieces/bird) than beach-washed or otherwise dead birds (27.62–32.22 pieces/bird). Beached birds therefore provide data for only a particular subset of the population, mostly individuals in poorer body condition, including those severely impacted by plastics. In addition, the mass and number of plastics in beached birds were more variable, therefore the sample sizes required to detect a change in plastic over time were significantly larger than for lavaged birds. The use of lavaged birds is rare in studies of plastic ingestion due to ethical and methodological implications, and we recommend future work on ingested plastics should focus on sampling this group to ensure data are more representative of a population's overall exposure to plastics.
AB - The world's oceans are under increasing pressure from anthropogenic activities, including significant and rapidly increasing inputs of plastic pollution. Seabirds have long been considered sentinels of ocean health, providing data on physical and chemical pollutants in their marine habitats. However, long-term data that can elucidate important patterns and changes in seabird exposure to marine pollutants are relatively limited but are urgently needed to identify and support effective policy measures to reduce plastic waste. Using up to 12 years of data, we examined the benefits and challenges of different approaches to monitoring plastic in seabirds, and the relationship between plastic and body size parameters. We found the mass and number of ingested plastics per bird varied by sample type, with lavage and road-kill birds containing less plastic (9.17–9.33 pieces/bird) than beach-washed or otherwise dead birds (27.62–32.22 pieces/bird). Beached birds therefore provide data for only a particular subset of the population, mostly individuals in poorer body condition, including those severely impacted by plastics. In addition, the mass and number of plastics in beached birds were more variable, therefore the sample sizes required to detect a change in plastic over time were significantly larger than for lavaged birds. The use of lavaged birds is rare in studies of plastic ingestion due to ethical and methodological implications, and we recommend future work on ingested plastics should focus on sampling this group to ensure data are more representative of a population's overall exposure to plastics.
KW - Body condition
KW - Long-term trends
KW - Marine debris
KW - Monitoring program
KW - Tasman Sea
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U2 - 10.1016/j.envpol.2021.118086
DO - 10.1016/j.envpol.2021.118086
M3 - Article
C2 - 34482247
AN - SCOPUS:85114151942
SN - 0269-7491
VL - 290
JO - Environmental Pollution
JF - Environmental Pollution
M1 - 118086
ER -