Abstract
Pelagic predators must contend with low prey densities that are irregularly distributed and dynamic in space and time. Based on satellite imagery and telemetry data, many pelagic predators will concentrate horizontal movements on ephemeral surface fronts—gradients between water masses—because of enhanced local productivity and increased forage fish densities.
Vertical fronts (e.g. thermoclines, oxyclines) can be spatially and temporally persistent, and aggregate lower trophic level and diel vertically migrating organisms due to sharp changes in temperature, water density or available oxygen. Thus, vertical fronts represent a stable and potentially energy rich habitat feature for diving pelagic predators but remain little explored in their capacity to enhance foraging opportunities.
Here, we use a novel suite of high-resolution biologging data, including in situ derived oxygen saturation and video, to document how two top predators in the pelagic ecosystem exploit the vertical fronts created by the oxygen minimum zone of the eastern tropical Pacific.
Prey search behaviour was dependent on dive shape, and significantly increased near the thermocline and hypoxic boundary for blue marlin Makaira nigricans and sailfish Istiophorus platypterus , respectively. Further, we identify a behaviour not yet reported for pelagic predators, whereby the predator repeatedly dives below the thermocline and hypoxic boundary (and by extension, below the prey). We hypothesize this behaviour is used to ambush prey concentrated at the boundaries from below.
We describe how habitat fronts created by low oxygen environments can influence pelagic ecosystems, which will become increasingly important to understand in the context of global change and expanding oxygen minimum zones. We anticipate that our findings are shared among many pelagic predators where strong vertical fronts occur, and additional high-resolution tagging is warranted to confirm this.
| Original language | American English |
|---|---|
| Pages (from-to) | 1658-1671 |
| Number of pages | 14 |
| Journal | Journal of Animal Ecology |
| Volume | 92 |
| Issue number | 8 |
| DOIs | |
| State | Published - Aug 1 2023 |
Bibliographical note
© 2023 The Authors. Journal of Animal Ecology © 2023 British Ecological Society.Funding
We thank T. Plum, R. White, R. Andrews and the Compass Rose crew, and the staff, captains, and mates of Tropic Star Lodge for their support during fieldwork. Work was supported by the Guy Harvey Ocean Foundation, the Guardians of the Eastern Tropical Pacific Seascape donor group, R. Vergnolle, Nova Southeastern University Halmos College of Arts & Sciences, the Gallo-Dubois Scholarship, Fish Florida Scholarship, and Batchelor Foundation Scholarship to RL. In-kind logistical support in the field was provided by Tropic Star Lodge. We thank T. Plum, R. White, R. Andrews and the Compass Rose crew, and the staff, captains, and mates of Tropic Star Lodge for their support during fieldwork. Work was supported by the Guy Harvey Ocean Foundation, the Guardians of the Eastern Tropical Pacific Seascape donor group, R. Vergnolle, Nova Southeastern University Halmos College of Arts & Sciences, the Gallo‐Dubois Scholarship, Fish Florida Scholarship, and Batchelor Foundation Scholarship to RL. In‐kind logistical support in the field was provided by Tropic Star Lodge.
| Funders |
|---|
| Compass Rose crew |
| Guardians of the Eastern Tropical Pacific Seascape donor group |
| Nova Southeastern University Halmos College of Arts & Sciences |
| Tropic Star Lodge |
| Guy Harvey Ocean Foundation |
| Batchelor Foundation |
ASJC Scopus Subject Areas
- Ecology, Evolution, Behavior and Systematics
- Animal Science and Zoology
Keywords
- biologging
- hunting behaviour
- marlin
- oceanic front
- oxygen minimum zone
- pelagic predator
- sailfish
- Water
- Predatory Behavior
- Oxygen
- Feeding Behavior
- Animals
- Ecosystem
- Fishes
Disciplines
- Biology
- Life Sciences