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Featured researches published by D. G. Foley.


Ecosphere | 2011

Large‐scale movements and high‐use areas of western Pacific leatherback turtles, Dermochelys coriacea

Scott R. Benson; Tomoharu Eguchi; D. G. Foley; Karin A. Forney; Helen Bailey; Creusa Hitipeuw; Betuel Samber; Ricardo F. Tapilatu; Vagi Rei; Peter Ramohia; John Pita; Peter H. Dutton

The western Pacific leatherback turtle (Dermochelys coriacea), one of three genetically distinct stocks in the Indo-Pacific region, has declined markedly during past decades. This metapopulation nests year-round at beaches of several western Pacific island nations and has been documented through genetic analysis and telemetry studies to occur in multiple regions of the Pacific Ocean. To provide a large-scale perspective of their movements, high-use areas, and habitat associations, we report and synthesize results of 126 satellite telemetry deployments conducted on leatherbacks at western Pacific nesting beaches and at one eastern Pacific foraging ground during 2000-2007. A Bayesian switching state-space model was applied to raw Argos-acquired surface locations to estimate daily positions and behavioral mode (either transiting or area-restricted search) for each turtle. Monthly areas of high use were identified for post- nesting periods using kernel density estimation. There was a clear separation of migratory destinations for boreal summer vs. boreal winter nesters. Leatherbacks that nested during boreal summer moved into Large Marine Ecosystems (LMEs) of the temperate North Pacific Ocean or into tropical waters of the South China Sea. Turtles that nested during boreal winter moved into temperate and tropical LMEs of the southern hemisphere. Area-restricted search occurred in temperate and tropical waters at diverse pelagic and coastal regions exhibiting a wide range of oceanographic features, including mesoscale eddies, coastal retention areas, current boundaries, or stationary fronts, all of which are known mechanisms for aggregating leatherback prey. Use of the most distant and temperate foraging ground, the California Current LME, required a 10-12 month trans-Pacific migration and commonly involved multiple years of migrating between high-latitude summer foraging grounds and low-latitude eastern tropical Pacific wintering areas without returning to western Pacific nesting beaches. In contrast, tropical foraging destinations were reached within 5-7 months and appeared to support year-round foraging, potentially allowing a more rapid return to nesting beaches. Based on these observations, we hypothesize that demographic differences are likely among nesting females using different LMEs of the Indo-Pacific. The differences in movements and foraging strategies underscore the importance of and the need for ecosystem-based management and coordinated Pacific-wide conservation efforts.


Progress in Oceanography | 2011

The Regional Ocean Modeling System (ROMS) 4-dimensional variational data assimilation systems Part II - Performance and application to the California Current System

Andrew M. Moore; Hernan G. Arango; Gregoire Broquet; Christopher A. Edwards; Milena Veneziani; Brian S. Powell; D. G. Foley; James D. Doyle; Daniel P. Costa; Patrick W. Robinson


Ocean Modelling | 2008

4DVAR data assimilation in the Intra-Americas Sea with the Regional Ocean Modeling System (ROMS)

Brian S. Powell; Hernan G. Arango; A.M. Moore; E. Di Lorenzo; Ralph F. Milliff; D. G. Foley


Progress in Oceanography | 2011

The Regional Ocean Modeling System (ROMS) 4-dimensional variational data assimilation systems: Part III – Observation impact and observation sensitivity in the California Current System

Andrew M. Moore; Hernan G. Arango; Gregoire Broquet; Christopher A. Edwards; Milena Veneziani; Brian S. Powell; D. G. Foley; James D. Doyle; Daniel P. Costa; Patrick W. Robinson


Journal of Geophysical Research | 2009

A central California coastal ocean modeling study: 1. Forward model and the influence of realistic versus climatological forcing

Milena Veneziani; Christopher A. Edwards; J. D. Doyle; D. G. Foley


Journal of Geophysical Research | 2011

Variational assimilation of satellite observations in a coastal ocean model off Oregon

Alexander L. Kurapov; D. G. Foley; P. T. Strub; Gary D. Egbert; J. S. Allen


Endangered Species Research | 2012

Forecasting cetacean abundance patterns to enhance management decisions

Elizabeth A. Becker; D. G. Foley; Karin A. Forney; Jay Barlow; Jessica V. Redfern; C. L. Gentemann


Journal of Geophysical Research | 2012

Satellite‐based detection and monitoring of phytoplankton blooms along the Oregon coast

S. M. McKibben; Peter G. Strutton; D. G. Foley; Tawnya D. Peterson; Angelicque E. White


Endangered Species Research | 2015

Habitat-based models of cetacean density and distribution in the central North Pacific

Karin A. Forney; Elizabeth A. Becker; D. G. Foley; Jay Barlow; Erin M. Oleson


Journal of Geophysical Research | 2013

Erratum: Satellite-based detection and monitoring of phytoplankton blooms along the Oregon coast (Journal of Geophysical Research C: Oceans (2013) 118 (1048-1049) DOI: 10.1002/jgrc.20064)

S. M. McKibben; Peter G. Strutton; D. G. Foley; Tawnya D. Peterson; Angelicque E. White

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Karin A. Forney

National Oceanic and Atmospheric Administration

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