Investment Area: Data to Support Risk Threshold Criteria |
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Masking parameters for pinnipeds: The Effects of Noise Bandwidth and Level on Signal Detection
(Project #LMR-71) ACTIVE
Principal Investigators: Colleen Reichmuth, Jillian Sills
This project will provide quantitative auditory masking data for individuals from three pinniped families: odobenid, otariid and phocid carnivores. It will include collecting direct critical bandwidth measurements and testing the effects of noise level on masking at a range of frequencies.
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Behavioral Observations of Marine Mammals Around Impulsive Noise (BOOMIN)
(Project#LMR-70) ACTIVE
Principal Investigator: Erin Falcone, Stephanie Watwood
The goal of this project is to describe the behavioral response of cetaceans to anthropogenic impulsive noise sources and to verify the explosive propagation modeling for NAEMO.
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Effect of Signal Duration on Perceived Loudness in Bottlenose Dolphins and California Sea Lions (Project #LMR-69) ACTIVE
Principal Investigator: Alyssa Accomando
This project will evaluate how the duration of individual sounds might influence how marine mammals perceive the sound’s loudness, which could affect the animal’s response.
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Measuring Behavioral Responses of Cuvier’s Beaked Whales to Continuous Active Sonar in the Atlantic (Project #LMR-67) ACTIVE
Principal Investigators: Douglas Nowacek, Brandon Southall, Andy Read
This project is designed to test and quantify the behavioral responses of the Cuvier’s beaked whale (Ziphius cavirostris) to Navy mid-frequency active sonar activities employing continuous active sonar signals using controlled exposure experiments off Cape Hatteras, North Carolina.
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3S4 - Effect of Continuous Active Sonar and Longer Duration Sonar Exposures (Project #LMR-64) ACTIVE
Principal Investigator: Frans-Peter Lam
This project is the fourth phase of the 3S (Sea mammals, Sonar, Safety) effort, part of an international research consortium that has been conducting behavioral response studies on different cetacean species in North Atlantic waters since 2006. During this phase, the project will continue studying behavioral responses to continuous active sonar versus pulsed active (intermittent) sonar and will investigate if responses from short duration experiments predict responses from longer duration exposures.
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Auditory Masking in Odobenid and Otariid Carnivores (Project #LMR-61) COMPLETED
Principal Investigators: Colleen Reichmuth, Jillian Sills
This project will provide auditory data for odobenid and otariid carnivores (Pacific walruses and California sea lions, respectively) needed to compare the acoustic sensitivity between these marine mammal taxa and support environmental compliance efforts.
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Dolphin Conditioned Hearing Attenuation (Project #LMR-55) COMPLETED
Principal Investigator: James Finneran
This work, co-funded by the LMR program and the Naval Innovative Science and Engineering (NISE) program, is assessing conditioned hearing attenuation in bottlenose dolphins. The project will measure how quickly dolphins can learn to suppress (i.e., attenuate) their hearing in anticipation of an impending intense sound, determine how long they can maintain the attenuation and assess the role of outer hair cells in the conditioned hearing change.
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Studying Marine Mammal Behavioral Response to Surveillance Towed Array Sensor System Low Frequency Active (SURTASS LFA) Sonar (Projects #LMR-52,53,54) COMPLETED
Principal Investigators: (#52) Adam Frankel, (#53) John Calambokidis, (#54) Stephanie Watwood
The overall goal of this two-phase effort is to update previous studies done with LFA sources during the 1990s, based on lessons learned and best practices from controlled and observational behavioral response studies using other sonar sources conducted over the last 10 years. As part of the Phase I feasibility study, these projects are investigating the best approach to designing a scientific study to assess behavioral response to LFA sonar.
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Dependence of TTS on Exposure Duration During Simulated Continuously Active Sonar (Project #LMR-51) ACTIVE
Principal Investigator: Jason Mulsow
This project is measuring temporary threshold shift (TTS) in the bottlenose dolphin using auditory evoked potential (AEP) and behavioral threshold measurements for longer duration signal exposure with signal qualities simulating continuously active sonar (CAS). The focus is to determine if equal energy exposures result in equal TTS, independent of exposure duration.
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Loudness Perception in Killer Whales (Orcinus orca); Effects of Temporal and Frequency Summation (Project #LMR-50) ACTIVE
Principal Investigator: Brian Branstetter
This project is investigating perceived loudness in killer whales by determining the effect of signal duration on both response latency and detection thresholds, as well as determining the subjective loudness of short duration signals compared to long-duration signals.
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Standardizing Auditory Evoked Potential Hearing Thresholds with Behavioral Hearing Thresholds (Project #LMR-47) ACTIVE
Principal Investigator: Dorian Houser
By measuring behavioral and AEP hearing thresholds in the same individual bottlenose dolphins across the range of hearing, this project’s team will determine the frequency-dependent relationship between behavioral and AEP thresholds. The results of behaviorally equivalent AEP audiograms could substantially increase the data available for developing auditory weighting functions.
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Frequency-dependent, Underwater Temporary Threshold Shift in California Sea Lions (Project #LMR-45) ACTIVE
Principal Investigator: Ron Kastelein
This project focuses on measuring TTS and hearing recovery in California sea lions (Zalophus californianus) for deriving auditory weighting functions.
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Temporary Threshold Shifts in Underwater Hearing Sensitivity in Freshwater and Marine Turtles (Project #LMR-40) COMPLETED
Principal Investigators: Aran Mooney, Wendy Dow Piniak
This project is examining TTS in aquatic turtles and will potentially provide the initial sound exposure levels that induce these temporary threshold shifts. Resulting data could improve estimates of noise impacts to both freshwater and sea turtles and guide the development of a TTS study with sea turtles.
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Use of 'Chirp' Stimuli for Non-invasive, Low-frequency Measurement of Marine Mammal Auditory Evoked Potentials (Project #LMR-39) COMPLETED
Principal Investigator: James Finneran
This project seeks to contribute to developing tools needed to advance AEP measurements below 1 kHz by examining the potential for frequency-modulated, upward sweeping “chirp” stimuli to enhance marine mammal auditory brainstem response (ABR) amplitudes across a broad range of frequencies, including frequencies below 1 kHz.
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Towards a mysticete audiogram using humpback whales’ behavioral response thresholds (Project #LMR-38) ACTIVE
Principal Investigator: Rebecca Dunlop and Michael Noad (The University of Queensland)
The objective of this project is to use behavioral response experiments as a proxy for audiometric measurements to estimate hearing sensitivity in humpback whales. The researchers will play a range of tones to migrating humpback whales at frequencies across their expected hearing range and will observe their behavioral response to develop an audiogram.
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Collection of auditory evoked potential hearing thresholds in minke whales (Balaenoptera acutorostrata)(Project #LMR-37) ACTIVE
Principal Investigator: Dorian Houser (National Marine Mammal Foundation)
The objective of this project is to collect auditory evoked potential (AEP) hearing thresholds for one mysticete species, the minke whale (Balaenoptera acutorostrata). This method involves measuring small voltages that the brain and auditory nervous system generate in response to sound. The minke AEP hearing thresholds will provide the first direct measurement of hearing in a mysticete, which will contribute to the development of a mysticete audiogram.
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TTS in Harbor Seals Due to Fatiguing Sound of Several Frequencies (Project #LMR-33) COMPLETED
Principal Investigator: Ron Kastelein
This project focuses on measuring TTS and hearing recovery in harbor seals for deriving auditory weighting functions for seals.
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Behavioral Assessment of Auditory Sensitivity in Hawaiian Monk Seals (Project #LMR-32) ACTIVE
Principal Investigator: Colleen Reichmuth
Researchers are working with a specially trained adult male Hawaiian monk seal to obtain reliable measures of underwater auditory sensitivity thresholds across the full frequency range of hearing. The resulting data will be used to generate an underwater audiogram that will help to support impact assessments of the Hawaiian monk seal’s sensitivity to sound.
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Measuring the Effect of Range on the Behavioral Response of Marine Mammals Through the Use of Navy Sonar (Project #LMR-30) COMPLETED
Principal Investigator: Stephanie Watwood
To assess the effect of sonar source sources and distance (range), researchers are conducting controlled exposure experiments (CEE) with sonar from two different platforms. Each will be deployed at multiple, pre-defined distances from tagged animals to collect data on responses.
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3S3: Behavioral Responses of Cetaceans to Naval Sonar (Project #LMR-29) COMPLETED
Principal Investigators: Frans-Peter Lam, Petter Kvadsheim, Patrick Miller
The 3S (Sea mammals, Sonar, Safety) project, an international cooperative project now in its third phase, is evaluating whether exposure to continuously active sonar leads to different types or severity of behavioral responses than exposure to pulsed active (also called intermittent) sonar signals. In addition, the project is evaluating how the distance to the source affects behavioral responses.
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The Effects of Underwater Explosions on Fish (Project #LMR-26) COMPLETED
Principal Investigator: Peter Dahl
The results from this project will help to predict potential effects to fish that may occur during Navy explosives training activities.
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A Blainville’s Beaked Whale Behavioral Risk Function for Hawaiian Populations (Project #LMR-25) COMPLETED
Principal Investigators: David Moretti, Len Thomas
This effort will result in the publication of the first behavioral risk function for the Blainville’s beaked whale at the Pacific Missile Range Facility.
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Frequency-dependent Growth and Recovery of TTS in Bottlenose Dolphins (Project #LMR-24) COMPLETED
Principal Investigator: James Finneran
The data that results from this effort will help to define weighting functions and Temporary Threshold Shift/Permanent Threshold Shift values for mid-frequency cetaceans.
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Cuvier’s Beaked Whale and Fin Whale Behavior During Military Sonar Operations: Using Medium-term Tag Technology to Develop Empirical Risk Functions (Project #LMR-23) COMPLETED
Principal Investigators: Greg Schorr, Erin Falcone
The effort will generate significantly larger samples of high-resolution behavioral data, particularly for beaked whales, to support development of risk functions.
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Hearing and Estimated Acoustic Impacts in Three Species of Auk: Implications for the Marbled Murrelet (Project #LMR-22) COMPLETED
Principal Investigator: Aran Mooney
This project is measuring the hearing of up to three Auk species to provide key hearing data needed to define acoustic criteria for the marbled murrelet.
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Behavioral Dose-Response Relationship and TTS in Harbor Porpoises (Project #LMR-20) COMPLETED
Principal Investigator: Ron Kastelein
This project is working to establish a behavioral dose–response relationship for sonar signals around 3 kHz in harbor porpoises.
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Behavioral Audiometry in Multiple Killer Whales (Project #LMR-14) COMPLETED
Principal Investigator: Brian Branstetter
The study provided the first demographic hearing data from killer whales by measuring behavioral audiograms for animals of multiple ages.
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Audiograms of Hearing in Baleen Whales: A Model System for Mitigating Sound Impacts (Project #LMR-11) COMPLETED
Principal Investigator: Darlene Ketten
This project predicted a range of best hearing for the humpback whale based on a finite element model (FEM) of the middle ear.
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Electrophysiological Correlates of Subjective Loudness in Marine Mammals (Project #LMR-9) COMPLETED
Principal Investigator: Jim Finneran
This project investigated potential reasons why hearing data obtained by measuring auditory evoked potentials (AEPs) were not reliable for use in determining marine mammal weighting functions. Research found that low frequency stimuli produced both low and high frequency AEPs, and therefore the AEP measurements were not reliable at predicting perceived loudness in marine mammals at low frequencies.
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SOCAL Behavioral Response Study (Project #LMR-2) COMPLETED
Principal Investigator: John Calambokidis and Brandon Southall
This project increased our understanding of marine mammal reactions to sound and provided a robust scientific basis for estimating the effect of Navy mid-frequency active sonar (MFAS) on marine mammal behavior. Project was co-funded by ONR and SERDP.
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Marine Mammal Monitoring on Ranges (Project #LMR-1) COMPLETED
Principal Investigator: David Moretti
This project finalized hardware/infrastructure for the Marine Mammal Monitoring on Ranges (M3R) system which automated passive acoustic marine mammal detection, localization, classification, and display tools using the Navy’s existing undersea hydrophone ranges. The M3R system aids visual and tagging methods, and enables comprehensive marine mammal monitoring to investigate long-term abundance and behavioral changes in the presence of sonar.
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