Cumulative and Synergistic Effects of Physical, biological, and Acoustic Signals on Marine Mammal Habitat Use

The long-term goal of this research effort was to enhance the understanding of how variability in physical, biological, and acoustic signals impact marine mammal prey and resulting marine mammal habitat use. This is especially critical in areas like the Bering Sea where global climate change can lea...

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Bibliographic Details
Main Author: Miksis-Olds, Jennifier L
Other Authors: WASHINGTON UNIV SEATTLE APPLIED PHYSICS LAB
Format: Text
Language:English
Published: 2013
Subjects:
Biology
Acoustics
*ACOUSTIC SIGNALS
*AQUATIC ANIMALS
BERING SEA
ECOSYSTEMS
ENVIRONMENTAL ASSESSMENT
HABITATS
ICE FORMATION
MAMMALS
OCEANOGRAPHY
SUBARCTIC REGIONS
SYNERGISM
ZOOPLANKTON
Arctic
Bering Sea
Climate change
Subarctic
Zooplankton
Online Access:http://www.dtic.mil/docs/citations/ADA576394
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA576394
id ftdtic:ADA576394
record_format openpolar
spelling ftdtic:ADA576394 2023-05-15T15:04:44+02:00 Cumulative and Synergistic Effects of Physical, biological, and Acoustic Signals on Marine Mammal Habitat Use Miksis-Olds, Jennifier L WASHINGTON UNIV SEATTLE APPLIED PHYSICS LAB 2013-04 text/html http://www.dtic.mil/docs/citations/ADA576394 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA576394 en eng http://www.dtic.mil/docs/citations/ADA576394 Approved for public release; distribution is unlimited. DTIC Biology Acoustics *ACOUSTIC SIGNALS *AQUATIC ANIMALS BERING SEA ECOSYSTEMS ENVIRONMENTAL ASSESSMENT HABITATS ICE FORMATION MAMMALS OCEANOGRAPHY SUBARCTIC REGIONS SYNERGISM ZOOPLANKTON Text 2013 ftdtic 2016-02-24T10:48:25Z The long-term goal of this research effort was to enhance the understanding of how variability in physical, biological, and acoustic signals impact marine mammal prey and resulting marine mammal habitat use. This is especially critical in areas like the Bering Sea where global climate change can lead to rapid changes of the entire ecosystem. Synoptic measurements of marine mammal vocal presence, prey concentrations, physical oceanographic processes, and sound levels were made to better understand the relationship between environmental sound levels, ice cover and zooplankton community structure in different regions of the Bering Sea. These combined datasets provide information for predicting upper-level trophic dynamics, including marine mammal distribution and range, as sub-Arctic conditions continue to change. Baseline measurements are playing an important role in mitigation efforts and environmental assessments as commercial, recreation, and military activity increase in the region. The original document contains color images. Text Arctic Bering Sea Climate change Subarctic Zooplankton Defense Technical Information Center: DTIC Technical Reports database Arctic Bering Sea
institution Open Polar
collection Defense Technical Information Center: DTIC Technical Reports database
op_collection_id ftdtic
language English
topic Biology
Acoustics
*ACOUSTIC SIGNALS
*AQUATIC ANIMALS
BERING SEA
ECOSYSTEMS
ENVIRONMENTAL ASSESSMENT
HABITATS
ICE FORMATION
MAMMALS
OCEANOGRAPHY
SUBARCTIC REGIONS
SYNERGISM
ZOOPLANKTON
spellingShingle Biology
Acoustics
*ACOUSTIC SIGNALS
*AQUATIC ANIMALS
BERING SEA
ECOSYSTEMS
ENVIRONMENTAL ASSESSMENT
HABITATS
ICE FORMATION
MAMMALS
OCEANOGRAPHY
SUBARCTIC REGIONS
SYNERGISM
ZOOPLANKTON
Miksis-Olds, Jennifier L
Cumulative and Synergistic Effects of Physical, biological, and Acoustic Signals on Marine Mammal Habitat Use
topic_facet Biology
Acoustics
*ACOUSTIC SIGNALS
*AQUATIC ANIMALS
BERING SEA
ECOSYSTEMS
ENVIRONMENTAL ASSESSMENT
HABITATS
ICE FORMATION
MAMMALS
OCEANOGRAPHY
SUBARCTIC REGIONS
SYNERGISM
ZOOPLANKTON
description The long-term goal of this research effort was to enhance the understanding of how variability in physical, biological, and acoustic signals impact marine mammal prey and resulting marine mammal habitat use. This is especially critical in areas like the Bering Sea where global climate change can lead to rapid changes of the entire ecosystem. Synoptic measurements of marine mammal vocal presence, prey concentrations, physical oceanographic processes, and sound levels were made to better understand the relationship between environmental sound levels, ice cover and zooplankton community structure in different regions of the Bering Sea. These combined datasets provide information for predicting upper-level trophic dynamics, including marine mammal distribution and range, as sub-Arctic conditions continue to change. Baseline measurements are playing an important role in mitigation efforts and environmental assessments as commercial, recreation, and military activity increase in the region. The original document contains color images.
author2 WASHINGTON UNIV SEATTLE APPLIED PHYSICS LAB
format Text
author Miksis-Olds, Jennifier L
author_facet Miksis-Olds, Jennifier L
author_sort Miksis-Olds, Jennifier L
title Cumulative and Synergistic Effects of Physical, biological, and Acoustic Signals on Marine Mammal Habitat Use
title_short Cumulative and Synergistic Effects of Physical, biological, and Acoustic Signals on Marine Mammal Habitat Use
title_full Cumulative and Synergistic Effects of Physical, biological, and Acoustic Signals on Marine Mammal Habitat Use
title_fullStr Cumulative and Synergistic Effects of Physical, biological, and Acoustic Signals on Marine Mammal Habitat Use
title_full_unstemmed Cumulative and Synergistic Effects of Physical, biological, and Acoustic Signals on Marine Mammal Habitat Use
title_sort cumulative and synergistic effects of physical, biological, and acoustic signals on marine mammal habitat use
publishDate 2013
url http://www.dtic.mil/docs/citations/ADA576394
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA576394
geographic Arctic
Bering Sea
geographic_facet Arctic
Bering Sea
genre Arctic
Bering Sea
Climate change
Subarctic
Zooplankton
genre_facet Arctic
Bering Sea
Climate change
Subarctic
Zooplankton
op_source DTIC
op_relation http://www.dtic.mil/docs/citations/ADA576394
op_rights Approved for public release; distribution is unlimited.
_version_ 1766336472549425152

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