Utilizing sound and movement biologging tags to investigate predictors of foraging behavior in two at-risk populations of fish-eating killer whales

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Presentation Abstract

The Salish Sea is home to two at-risk populations of fish-eating killer whales with divergent population trajectories. Over the past two decades, the threatened Northern Resident population (NRKW) has been growing steadily while the endangered Southern Resident population has exhibited no net growth. One of the primary risk factors threatening recovery of these populations is the availability and accessibility of preferred salmonid prey, yet the factors that interfere with killer whale foraging success are poorly understood due to the challenges of quantifying foraging behavior that typically occurs out of sight. We addressed this challenge by leveraging fine-scale behavioral data from high-resolution sound and movement biologging tags suction cup-attached to 52 individuals from the NRKW and SRKW populations during August and September in 2009-2014. Specifically, we explored the relationships between predictors including sex, population, demography and noise level, and several foraging-related response variables including prey capture rates and efficiency, number of prey captured, and likelihood of occurrence of sounds and movements associated with foraging behavior and success. We found that prey capture and foraging efficiency rates were affected by an interaction between population and sex: whereas female SRKW exhibited less foraging activity than their male counterparts, the converse was true for NRKW. Additionally, number of prey captured was predicted by a negative effect of calf presence in adult females, and an interaction between population and whether a mother was alive in adult males. Finally, we found significant effects of ambient noise level, measured between 15-45 kHz within a dive, on the likelihood of clicking (searching), buzzing (chasing prey), prey capture, and dive duration. We discuss these results in the context of differing levels of human disturbance, unbalanced demographic structure and different growth trajectories on recovery of these at-risk populations of killer whales in the Salish Sea.

Session Title

Southern Resident Killer Whales Vessel Impacts & Foraging Success

Conference Track

SSE5: Southern Resident Killer Whales and Vessel Impacts

Conference Name

Salish Sea Ecosystem Conference (2022 : Online)

Document Type

Event

SSEC Identifier

SSE-traditionals-343

Start Date

27-4-2022 11:30 AM

End Date

27-4-2022 1:00 PM

Type of Presentation

Oral

Genre/Form

conference proceedings; presentations (communicative events)

Subjects – Topical (LCSH)

Killer whale--Food--Salish Sea (B.C. and Wash.); Killer whale--Behavior--Salish Sea (B.C. and Wash.); Killer whale--Effect of noise on--Salish Sea (B.C. and Wash.); Whale watching--Salish Sea (B.C. and Wash.); Noise--Measurement

Geographic Coverage

Salish Sea (B.C. and Wash.)

Rights

Copying of this document in whole or in part is allowable only for scholarly purposes. It is understood, however, that any copying or publication of this document for commercial purposes, or for financial gain, shall not be allowed without the author's written permission.

Type

Text

Language

English

Format

application/pdf

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Apr 27th, 11:30 AM Apr 27th, 1:00 PM

Utilizing sound and movement biologging tags to investigate predictors of foraging behavior in two at-risk populations of fish-eating killer whales

The Salish Sea is home to two at-risk populations of fish-eating killer whales with divergent population trajectories. Over the past two decades, the threatened Northern Resident population (NRKW) has been growing steadily while the endangered Southern Resident population has exhibited no net growth. One of the primary risk factors threatening recovery of these populations is the availability and accessibility of preferred salmonid prey, yet the factors that interfere with killer whale foraging success are poorly understood due to the challenges of quantifying foraging behavior that typically occurs out of sight. We addressed this challenge by leveraging fine-scale behavioral data from high-resolution sound and movement biologging tags suction cup-attached to 52 individuals from the NRKW and SRKW populations during August and September in 2009-2014. Specifically, we explored the relationships between predictors including sex, population, demography and noise level, and several foraging-related response variables including prey capture rates and efficiency, number of prey captured, and likelihood of occurrence of sounds and movements associated with foraging behavior and success. We found that prey capture and foraging efficiency rates were affected by an interaction between population and sex: whereas female SRKW exhibited less foraging activity than their male counterparts, the converse was true for NRKW. Additionally, number of prey captured was predicted by a negative effect of calf presence in adult females, and an interaction between population and whether a mother was alive in adult males. Finally, we found significant effects of ambient noise level, measured between 15-45 kHz within a dive, on the likelihood of clicking (searching), buzzing (chasing prey), prey capture, and dive duration. We discuss these results in the context of differing levels of human disturbance, unbalanced demographic structure and different growth trajectories on recovery of these at-risk populations of killer whales in the Salish Sea.