D
Daniel R. Lynch
Researcher at Dartmouth College
Publications - 109
Citations - 5643
Daniel R. Lynch is an academic researcher from Dartmouth College. The author has contributed to research in topics: Finite element method & Boundary value problem. The author has an hindex of 42, co-authored 109 publications receiving 5513 citations.
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A wave equation model for finite element tidal computations
Daniel R. Lynch,William G. Gray +1 more
TL;DR: In this article, a shallow water wave equation is developed from the primitive two-dimensional shallow water equation, and a finite element model based on this equation and the primitive momentum equation are developed.
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Comprehensive coastal circulation model with application to the Gulf of Maine
TL;DR: In this paper, a finite element model for the Gulf of Maine is described and applications are shown for the model is applied to several isolated nonlinear processes, including a general cyclonic central Gulf circulation, a coastal current with several branch points and anticyclonic circulation around Georges Bank.
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Seasonal mean circulation in the Yellow Sea } a model-generated climatology
TL;DR: In this article, the authors computed the three-dimensional cyclonic circulation for the Yellow and Bohai Seas in a series of six bimonthly realizations, including seasonal hydrography, seasonal mean wind and river input, and oceanic tides.
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Influences of mean advection and simple behavior on the distribution of cod and haddock early life stages on Georges Bank
Francisco E. Werner,F. Page,Daniel R. Lynch,John W. Loder,R. Gregory Lough,R. Ian Perry,David A. Greenberg,Michael Sinclair +7 more
TL;DR: In this paper, the authors explore the influence of physical advection and certain biological mechanisms on the distribution of cod and haddock larva spawning on Georges Bank in a 3D circulation field.
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Mechanisms regulating large-scale seasonal fluctuations in Alexandrium fundyense populations in the Gulf of Maine: Results from a physical–biological model
TL;DR: In this paper, the authors investigated the mechanisms underlying these aspects using coupled physical-biological simulations that represent the population dynamics of Alexandrium fundyense within the seasonal mean flow.