Energy Transfer to Upper Trophic Levels on a Small Offshore Bank

We propose to combine field observations and laboratory experiments to understand the coupling of physical and biological processes that transfer energy from lower to higher trophic levels on a small offshore bank. We focus this study on Platts Bank, in the western Gulf of Maine, and on the relation...

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Bibliographic Details
Main Authors: Incze, Lewis S., Kraus, Scott, Fields, David
Other Authors: UNIVERSITY OF SOUTHERN MAINE PORTLAND
Format: Text
Language:English
Published: 2008
Subjects:
Biological Oceanography
Physical and Dynamic Oceanography
Marine Engineering
Naval Surface Warfare
Undersea and Antisubmarine Warfare
*MARINE BIOLOGY
*ENERGY TRANSFER
*OCEAN ENVIRONMENTS
*FEEDING
*MAINE GULF
*WHALES
*HOT SPOTS
HYPOTHESES
INTERNAL WAVES
AQUATIC ANIMALS
OCEANOGRAPHY
CETACEA
PLANKTON
AQUATIC PLANTS
MALNUTRITION
CRUSTACEA
PATTERNS
DOCUMENTS
OCEANOGRAPHIC DATA
SURFACES
SITES
BIOLOGY
POSITION(LOCATION)
SCATTERING
*PLATTS BANK
*EUPHAUSIIDS
*MEGANYCTIPHANES NORVEGICA
*BALEEN WHALES
*HUMPBACK WHALES
PREDATORS
PREY
PREDATION
MEGAPTERA NOVAEANGLIAE
FORAGING
SURFACE PATCHES
TROPHIC FEEDING
*TROPHIC LEVELS
baleen whales
Meganyctiphanes norvegica
Megaptera novaeangliae
Online Access:http://www.dtic.mil/docs/citations/ADA505245
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA505245
Description
Summary:We propose to combine field observations and laboratory experiments to understand the coupling of physical and biological processes that transfer energy from lower to higher trophic levels on a small offshore bank. We focus this study on Platts Bank, in the western Gulf of Maine, and on the relationship between internal waves, patchiness of planktonic organisms (especially euphausiids, Meganyctiphanes norvegica), and feeding and residence times of upper trophic level predators (marine and avian, but especially baleen whales, and particularly the abundant humpback whales, Megaptera novaeangliae). Observations from Platts Bank and other feeding hotspots in the Gulf of Maine show that they are ephemeral - sometimes very active, often not. Our goals are to understand the factors that drive the "on" and "off" patterns of feeding at features such as Platts Bank, and to gain insights into the foraging strategies and mechanisms employed by highly mobile predators to exploit ephemeral and scattered feeding locations. 1. Quantify patterns of upper trophic level use of Platts Bank over multiple years, extending observations from the original two years of observation that preceded this award. 2. Describe behaviors adapted to feeding on Platts Bank and foraging on networks of scattered feeding sites such as Platts. 3. Measure and describe the internal wave field, associated velocities, and euphausiid distribution and abundance patterns. 4. Use field and laboratory studies to document and quantify the behavior of euphausiids and the coupled bio-physical processes that affect surface patch formation, in particular testing the hypothesis that internal waves help drive surface aggregations and upper trophic level feeding.

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