Warning:
JavaScript is turned OFF. None of the links on this page will work until it is reactivated.
If you need help turning JavaScript On, click here.
The Concept Map you are trying to access has information related to:
state-of-the-art? three lines of research prototype tank work, state-of-the-art? three lines of research data collection, state-of-the-art? three lines of research numerical modeling, A Geomorphic Model of Puget Sound Beaches we are modeling complex physical environment, A Geomorphic Model of Puget Sound Beaches what are geomorphic models?, glacial geology creates complex topography (beach geometry), glacial geology creates complex beach stratigraphy, glacial geology creates large variation in sediment types, future research needs? #1 priority map topography of nearshore!, A Geomorphic Model of Puget Sound Beaches What is state-of-the-art?, glacial geology strong interaction and feedbacks between estuarine oceanography, glacial geology strong interaction and feedbacks between abundant biological communities, A Geomorphic Model of Puget Sound Beaches are there future research needs?, future research needs? Important sediment budgets, future research needs? Important nearshore geologic maps, future research needs? Important nearshore Currents, complex physical environment includes glacial geology, complex physical environment includes estuarine oceanography, complex physical environment includes abundant biological communities, large tide ranges (3.5 to 4.5 m) distributes elevation of wave attack on foreshore, geomorphic models? major limitations associated with time and spatial scale of models, geomorphic models? try to understand morphodynamics, large tide ranges (3.5 to 4.5 m) drives nearshore currents, large tide ranges (3.5 to 4.5 m) drives beach ground water system (seepage), estuarine oceanography key features (for nearshore) large tide ranges (3.5 to 4.5 m), estuarine oceanography key features (for nearshore) small waves (< 1m) in storm-driven wave climate