Overhauling ocean spatial planning to improve marine megafauna conservation

Ana M. M. Sequeira; Graeme C. Hays; David W. Sims; Victor M. Eguiluz; Jorge P. Rodriguez; Michelle R. Heupel; Robert G. Harcourt; Hannah J. Calich; Nuno Queiroz; Daniel P. Costa; Juan Fernandez-Gracia; Luciana C. Ferreira; Simon D. Goldsworthy; Mark Hindell; Mary-Anne Lea; Mark G. Meekan; Anthony M. Pagano; Scott A. Shaffer; Julia Reisser; Michele Thums; Michael J Weise; Carlos M. Duarte

doi:10.3389/fmars.2019.00639

Overhauling ocean spatial planning to improve marine megafauna conservation

Frontiers in Marine Science

By: Ana M. M. Sequeira, Graeme C. Hays, David W. Sims, Victor M. Eguiluz, Jorge P. Rodriguez, Michelle R. Heupel, Robert G. Harcourt, Hannah J. Calich, Nuno Queiroz, Daniel P. Costa, Juan Fernandez-Gracia, Luciana C. Ferreira, Simon D. Goldsworthy, Mark Hindell, Mary-Anne Lea, Mark G. Meekan, Anthony M. Pagano, Scott A. Shaffer, Julia Reisser, Michele Thums, Michael J Weise, and Carlos M. Duarte

https://doi.org/10.3389/fmars.2019.00639

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Abstract

Tracking data have led to evidence-based conservation of marine megafauna, but a disconnect remains between the many thousands of individual animals that have been tracked and the use of these data in conservation and management actions. Furthermore, the focus of most conservation efforts is within Exclusive Economic Zones despite the ability of these species to move thousands of kilometres across multiple national jurisdictions. To assist the goal of the United Nations General Assembly’s recent effort to negotiate a global treaty to conserve biodiversity on the high seas, we propose the development of a new frontier in dynamic marine spatial management. We argue that a global approach combining tracked movements of marine megafauna and human activities at-sea, and using existing and emerging technologies (e.g., through new tracking devices and big data approaches) can be applied to deliver near real-time diagnostics on existing risks and threats to mitigate global risks for marine megafauna. With technology developments over the next decade expected to catalyse the potential to survey marine animals and human activities in ever more detail and at global scales, the development of dynamic predictive tools based on near real-time tracking and environmental data will become crucial to address increasing risks. Such global tools for dynamic spatial and temporal management will, however, require extensive synoptic data updates and will be dependent on a shift to a culture of data sharing and open access. We propose a global mechanism to store and make such data available in near real-time, enabling a holistic view of space use by marine megafauna and humans that would significantly accelerate efforts to mitigate impacts and improve conservation and management of marine megafauna.

Suggested Citation

Sequeira, A.M., Hays, G.C., Sims, D.W., Eguiluz, V.M., Rodriguez, J.P., Heupel, M.R., Harcourt, R.G., Calich, H.J., Queiroz, N., Costa, D.P., Fernandez-Gracia, J., Ferreira, L.C., Goldsworthy, S.D., Hindell, M., Lea, M., Meekan, M.G., Pagano, A.M., Shaffer, S.A., Reisser, J., Thums, M., Weise, M., Duarte, C.M., 2019, Overhauling ocean spatial planning to improve marine megafauna conservation: Frontiers in Marine Science, v. 6, no. 639, 12 p., https://doi.org/10.3389/fmars.2019.00639.

ISSN: 2296-7745 (online)

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Overhauling ocean spatial planning to improve marine megafauna conservation
Series title	Frontiers in Marine Science
DOI	10.3389/fmars.2019.00639
Volume	6
Issue	639
Publication Date	November 01, 2019
Year Published	2019
Language	English
Publisher	Frontiers
Contributing office(s)	Alaska Science Center Biology MFEB
Description	12 p.