Applied Filters
- Review
- Provencher, Jennifer FRemove filter
Journal Title
Topics
Publication Date
Author
- Mallory, Mark L2
- Alexander, Steven M1
- Avery-Gomm, Stephanie1
- Baak, Julia E1
- Barry, Tom1
- Bond, Alexander L1
- Borrelle, Stephanie B1
- Cooke, Steven J1
- Gavrilo, Maria V1
- Hammer, Sjúrður1
- Henri, Dominique A1
- Johnson, Lydia R1
- Kühn, Susanne1
- Lavers, Jennifer L1
- Linnebjerg, Jannie F1
- Merkel, Flemming R1
- Price, Courtney1
- Strand, Jakob1
- Taylor, Jessica J1
- Thomas, Philippe J1
- van Franeker, Jan A1
- Walker, Tony R1
- Wilcox, Alana A E1
Access Type
1 - 3of3
Save this search
Please login to be able to save your searches and receive alerts for new content matching your search criteria.
Filters
You do not have any saved searches
- OPEN ACCESS
- Jennifer F. Provencher,
- Stephanie B. Borrelle,
- Alexander L. Bond,
- Jennifer L. Lavers,
- Jan A. van Franeker,
- Susanne Kühn,
- Sjúrður Hammer,
- Stephanie Avery-Gomm, and
- Mark L. Mallory
Marine plastic pollution is an environmental contaminant of significant concern. There is a lack of consistency in sample collection and processing that continues to impede meta-analyses and large-scale comparisons across time and space. This is true for most taxa, including seabirds, which are the most studied megafauna group with regards to plastic ingestion research. Consequently, it is difficult to evaluate the impacts and extent of plastic contamination in seabirds fully and accurately, and to make inferences about species for which we have little or no data. We provide a synthesized set of recommendations specific for seabirds and plastic ingestion studies that include best practices in relation to sample collection, processing, and reporting, as well as highlighting some “cross-cutting” methods. We include guidance for how carcasses, regurgitations, and pellets should be handled and treated to prevent cross-contamination, and a discussion of what size class of microplastics can be assessed in each sample type. Although we focus on marine bird samples, we also include standardized techniques to remove sediment and biological material that are generalizable to other taxa. Lastly, metrics and data presentation of ingested plastics are briefly reviewed in the context of seabird studies. - OPEN ACCESS
- Jannie F. Linnebjerg,
- Julia E. Baak,
- Tom Barry,
- Maria V. Gavrilo,
- Mark L. Mallory,
- Flemming R. Merkel,
- Courtney Price,
- Jakob Strand,
- Tony R. Walker, and
- Jennifer F. Provencher
Marine plastic is a ubiquitous environmental problem that can have an impact on a variety of marine biota, such as seabirds, making it an important concern for scientists and policy makers. Although research on plastic ingestion by seabirds is increasing, few studies have examined policies and long-term monitoring programs to reduce marine plastic in the Arctic. This paper provides a review of international, national, and regional policies and long-term monitoring programs that address marine plastic in relation to seabirds in the Arctic countries: Canada, the Kingdom of Denmark (Greenland and the Faroe Islands), Finland, Iceland, Norway, the Russian Federation, Sweden, and the United States of America. Results show that a broad range of international, national, regional and local policies address marine debris, specifically through waste management and the prevention of pollution from ships. However, few policies directly address seabirds and other marine biota. Further, policies are implemented inconsistently across regions, making it difficult to enforce and monitor the efficacy of these policies given the long-range transport of plastic pollution globally. To reduce marine plastic pollution in the Arctic environment, pan-Arctic and international collaboration is needed to implement standardized policies and long-term monitoring programs for marine plastic in the Arctic and worldwide. - OPEN ACCESS
- Alana A. E. Wilcox,
- Jennifer F. Provencher,
- Dominique A. Henri,
- Steven M. Alexander,
- Jessica J. Taylor,
- Steven J. Cooke,
- Philippe J. Thomas, and
- Lydia R. Johnson
The braiding of Indigenous knowledge systems and Western-based sciences offers insights into ecology and has emerged as a way to help address complex environmental issues. We reviewed the publicly available ecological research involving the braiding of Indigenous knowledge systems and Western-based sciences to support collaborative work in the Alberta oil sands region of Canada. We conducted a systematic review, coding for 78 questions in six categories: (1) literature search and bibliographic information; (2) research themes; (3) study setting and design; (4) knowledge systems; (5) power relationships, colonization, and ethical considerations in research; and (6) benefits and challenges of braiding. We identified six articles that braided knowledge, with those articles focusing on environmental management and monitoring for impacts of industrial activity in northern Alberta. Researchers used a broad range of approaches to gather Indigenous knowledge and scientific data and identified multiple challenges (e.g., asymmetries of power, resource availability, and funding) to research. Our findings show that more support is needed to foster, promote, and disseminate interdisciplinary collaborative work involving braiding. Additional support is also required to address Indigenous community research needs related to the assessment of environmental impact and reclamation, as well as the understanding of ecological threats across the region.