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Network analysis of sea turtle movements and connectivity: A tool for conservation prioritization

Publication ,  Journal Article
Kot, CY; Åkesson, S; Alfaro-Shigueto, J; Amorocho Llanos, DF; Antonopoulou, M; Balazs, GH; Baverstock, WR; Blumenthal, JM; Broderick, AC ...
Published in: Diversity and Distributions
April 1, 2022

Aim: Understanding the spatial ecology of animal movements is a critical element in conserving long-lived, highly mobile marine species. Analyzing networks developed from movements of six sea turtle species reveals marine connectivity and can help prioritize conservation efforts. Location: Global. Methods: We collated telemetry data from 1235 individuals and reviewed the literature to determine our dataset's representativeness. We used the telemetry data to develop spatial networks at different scales to examine areas, connections, and their geographic arrangement. We used graph theory metrics to compare networks across regions and species and to identify the role of important areas and connections. Results: Relevant literature and citations for data used in this study had very little overlap. Network analysis showed that sampling effort influenced network structure, and the arrangement of areas and connections for most networks was complex. However, important areas and connections identified by graph theory metrics can be different than areas of high data density. For the global network, marine regions in the Mediterranean had high closeness, while links with high betweenness among marine regions in the South Atlantic were critical for maintaining connectivity. Comparisons among species-specific networks showed that functional connectivity was related to movement ecology, resulting in networks composed of different areas and links. Main conclusions: Network analysis identified the structure and functional connectivity of the sea turtles in our sample at multiple scales. These network characteristics could help guide the coordination of management strategies for wide-ranging animals throughout their geographic extent. Most networks had complex structures that can contribute to greater robustness but may be more difficult to manage changes when compared to simpler forms. Area-based conservation measures would benefit sea turtle populations when directed toward areas with high closeness dominating network function. Promoting seascape connectivity of links with high betweenness would decrease network vulnerability.

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Published In

Diversity and Distributions

DOI

EISSN

1472-4642

ISSN

1366-9516

Publication Date

April 1, 2022

Volume

28

Issue

4

Start / End Page

810 / 829

Related Subject Headings

  • Ecology
  • 41 Environmental sciences
  • 31 Biological sciences
  • 06 Biological Sciences
  • 05 Environmental Sciences
 

Citation

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Kot, C. Y., Åkesson, S., Alfaro-Shigueto, J., Amorocho Llanos, D. F., Antonopoulou, M., Balazs, G. H., … Halpin, P. N. (2022). Network analysis of sea turtle movements and connectivity: A tool for conservation prioritization. Diversity and Distributions, 28(4), 810–829. https://doi.org/10.1111/ddi.13485
Kot, C. Y., S. Åkesson, J. Alfaro-Shigueto, D. F. Amorocho Llanos, M. Antonopoulou, G. H. Balazs, W. R. Baverstock, et al. “Network analysis of sea turtle movements and connectivity: A tool for conservation prioritization.” Diversity and Distributions 28, no. 4 (April 1, 2022): 810–29. https://doi.org/10.1111/ddi.13485.
Kot CY, Åkesson S, Alfaro-Shigueto J, Amorocho Llanos DF, Antonopoulou M, Balazs GH, et al. Network analysis of sea turtle movements and connectivity: A tool for conservation prioritization. Diversity and Distributions. 2022 Apr 1;28(4):810–29.
Kot, C. Y., et al. “Network analysis of sea turtle movements and connectivity: A tool for conservation prioritization.” Diversity and Distributions, vol. 28, no. 4, Apr. 2022, pp. 810–29. Scopus, doi:10.1111/ddi.13485.
Kot CY, Åkesson S, Alfaro-Shigueto J, Amorocho Llanos DF, Antonopoulou M, Balazs GH, Baverstock WR, Blumenthal JM, Broderick AC, Bruno I, Canbolat AF, Casale P, Cejudo D, Coyne MS, Curtice C, DeLand S, DiMatteo A, Dodge K, Dunn DC, Esteban N, Formia A, Fuentes MMPB, Fujioka E, Garnier J, Godfrey MH, Godley BJ, González Carman V, Harrison AL, Hart CE, Hawkes LA, Hays GC, Hill N, Hochscheid S, Kaska Y, Levy Y, Ley-Quiñónez CP, Lockhart GG, López-Mendilaharsu M, Luschi P, Mangel JC, Margaritoulis D, Maxwell SM, McClellan CM, Metcalfe K, Mingozzi A, Moncada FG, Nichols WJ, Parker DM, Patel SH, Pilcher NJ, Poulin S, Read AJ, Rees AF, Robinson DP, Robinson NJ, Sandoval-Lugo AG, Schofield G, Seminoff JA, Seney EE, Snape RTE, Sözbilen D, Tomás J, Varo-Cruz N, Wallace BP, Wildermann NE, Witt MJ, Zavala-Norzagaray AA, Halpin PN. Network analysis of sea turtle movements and connectivity: A tool for conservation prioritization. Diversity and Distributions. 2022 Apr 1;28(4):810–829.
Journal cover image

Published In

Diversity and Distributions

DOI

EISSN

1472-4642

ISSN

1366-9516

Publication Date

April 1, 2022

Volume

28

Issue

4

Start / End Page

810 / 829

Related Subject Headings

  • Ecology
  • 41 Environmental sciences
  • 31 Biological sciences
  • 06 Biological Sciences
  • 05 Environmental Sciences