Project CS-1082, Information and Technology Tools for Assessment and Prediction of the Potential Effects of Military Noise on Marine Mammals

CS-1082 was a FY98 New Start. Our broad objective is to transition information about effects of DoD sound types on marine mammal auditory anatomy and acoustic ecology to predictive models and mitigation tools. Currently, the DoD lacks scientifically defensible information concerning the safe operati...

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Bibliographic Details
Main Author: Helweg, David A.
Other Authors: SPACE AND NAVAL WARFARE SYSTEMS CENTER SAN DIEGO CA
Format: Text
Language:English
Published: 1998
Subjects:
Biology
Acoustics
*MAMMALS
*ACOUSTICS
*ECOLOGY
MATHEMATICAL MODELS
ALGORITHMS
LOW FREQUENCY
HEARING
EAR
NOISE(SOUND)
AQUATIC ANIMALS
WHALES
BIOMIMETICS
ACOUSTIC ECOLOGY
MARINE MAMMALS
NATIONAL ENVIRONMENTAL POLICY ACT
IUSS(INTEGRATED UNDERSEA SURVEILLANCE SYSTEM)
SERDP COLLECTION
SERDP(STRATEGIC ENVIRONMENTAL RESEARCH AND DEVELOPMENT PROGRAM)
baleen whale
Online Access:http://www.dtic.mil/docs/citations/ADA363354
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA363354
Description
Summary:CS-1082 was a FY98 New Start. Our broad objective is to transition information about effects of DoD sound types on marine mammal auditory anatomy and acoustic ecology to predictive models and mitigation tools. Currently, the DoD lacks scientifically defensible information concerning the safe operation of many of their training and testing systems in the presence of marine mammals. There is only very little direct information about what sound frequency-intensity combinations may damage the hearing of marine mammals. This effort responds directly to the DoD capability to comply with the National Environmental Policy Act requirements and will contribute directly to answering the National Research Council's Research Needs related to the effect of low-frequency sound on marine mammals (1994). This project consists of three inter-related tasks. Task 1 consists of otopathological analyses of marine mammal ears. Task 2 consists of otopathological analyses of baleen whale ears, the results of which will motivate development of a biomimetic model of baleen whale hearing and responsiveness to DoD sound types. Task 3 utilizes predictions about sensitivity generated in Task 2, plus statistical sampling models and acoustical classification algorithms, to develop a capability to automate the use of the U.S. Navy's Integrated Undersea Surveillance System (IUSS) for mapping the distribution of whales.

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