Steven T. Kessel scite author profile

BACKGROUND:Global aquatic environments are changing profoundly as a result of human actions; consequently, so too are the ways in which organisms are distributing themselves through space and time. Our ability to predict organism and community responses to these alterations will be dependent on knowledge of animal movements, interactions, and how the physiological and environmental processes underlying them shape species distributions. These patterns and processes ultimately structure aquatic ecosystems and provide the wealth of ecosystem services upon which humans depend. Until recently, the vast size, opacity, and dynamic nature of the aquatic realm have impeded our efforts to understand these ecosystems. With rapid technological advancement over the past several decades, a suite of electronic tracking devices (e.g., acoustic and satellite transmitters) that can remotely monitor animals in these challenging environments are now available. Aquatic telemetry technology is rapidly accelerating our ability to observe animal behavior and distribution and, as a consequence, is fundamentally altering our understanding of the structure and function of global aquatic ecosystems. These advances provide the toolbox to define how future global aquatic management practices must evolve.

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Global catches, exploitation rates, and rebuilding options for sharks

Worm

et al. 2013

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A review of detection range testing in aquatic passive acoustic telemetry studies

Kessel

Cooke

Heupel

et al. 2013

Rev Fish Biol Fisheries

304

352

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Global status and conservation potential of reef sharks

MacNeil¹,

Chapman²,

Heupel³

et al. 2020

Nature

221

198

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Two decades of genetic profiling yields first evidence of natal philopatry and long‐term fidelity to parturition sites in sharks

Gruber²,

et al. 2013

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Sharks are a globally threatened group of marine fishes that often breed in their natal region of origin. There has even been speculation that female sharks return to their exact birthplace to breed ('natal philopatry'), which would have important conservation implications. Genetic profiling of lemon sharks (Negaprion brevirostris) from 20 consecutive cohorts (1993-2012) at Bimini, Bahamas, showed that certain females faithfully gave birth at this site for nearly two decades. At least six females born in the 1993-1997 cohorts returned to give birth 14-17 years later, providing the first direct evidence of natal philopatry in the chondrichthyans. Long-term fidelity to specific nursery sites coupled with natal philopatry highlights the merits of emerging spatial and local conservation efforts for these threatened predators.

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Steven T. Kessel

Aquatic animal telemetry: A panoramic window into the underwater world

Global catches, exploitation rates, and rebuilding options for sharks

A review of detection range testing in aquatic passive acoustic telemetry studies

Global status and conservation potential of reef sharks

Two decades of genetic profiling yields first evidence of natal philopatry and long‐term fidelity to parturition sites in sharks

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