Integrating Information on Displacement Caused by Mid-Frequency Active Sonar and Measurements of Prey Field into a Population Consequences of Disturbance Model for Beaked Whales

Abstract

The objective of this project is to provide realistic predictions of the long-term effect of disturbance caused by mid-frequency active sonar (MFAS) on beaked whale populations at AUTEC and SCORE using tools developed as part of ONR Award N000141612858. In addition, we will use novel passive acoustic methods to quantify the distribution and abundance of beaked whale prey on AUTEC and SCORE in order to assess the potential role of this ecological driver in determining the populations responses to disturbance. The project has been divided into tasks. Task 1 is quantification of beaked whale response to MFAS exposure: passive acoustic data from AUTEC and SOCRE will provide start and stop times for MFAS use on both ranges, information on the location of beaked whale foraging groups, and a direct measure of sonar received level for these groups. This information will be combined with existing telemetry data to estimate risk functions for Cuvier s and Blainville s beaked whales, the number of foraging dives lost as a result of MFAS disturbance, and the extent of any MFAS-induced displacement. Task 2 is development of bioenergetics-based PCoD models for beaked whales: we will develop dynamic energy budget (DEB) models for both beaked whale species and incorporate these into population models that account for the effect of individual energy intake on resource availability. These models will be used to investigate the likely effects of MFAS exposure on beaked whale health, life history and population structure. Task 3 is quantification of beaked whale abundance and exposure as a function of MFAS operations on AUTEC and SCORE: daily estimates of beaked whale abundance within the hydrophone arrays at AUTEC and SCORE will be combined with information on the number, duration and timing of MFAS operations from operational logs and passive acoustic data to quantify levels of MFAS exposure on both ranges. Task 4 is quantification of beaked whale prey distribution at AUTEC and SCORE: data previously collected by an autonomous undersea vehicle will be used to estimate the distribution of potential beaked whale prey on both ranges. Observed prey densities will be related to associated measures of habitat characteristics to estimate prey distributions outside the hydrophone arrays and assess the potential effects of displacement on beaked whale energy intake. Task 5 is integration of model results for impact assessment: results from the other tasks will be incorporated into the DEB models and used to predict beaked whale population trajectories and population size structure under different disturbance scenarios and with different prey fields. Work at MBARI will focus on Tasks 4 and 5.

Document Details

Document Type

DoD Grant Award

Publication Date

Dec 16, 2019

Source ID

N000142012045

Entities

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