Handbook of Beach and Shoreface Morphodynamics
Coordonnateur : Short Andrew D.
The beach and adjacent shoreface are the most dynamic part of theEarth's surface. They represent a narrow zone where waves, tidesand winds continously interact, producing, wherever sediment isavailable, hundreds of thousands of kilometres of beach systems.Beaches are also the focus of intense pressure from users anddevelopers, and for these reasons alone a knowledge of beachsystems and their morphodynamics is critical to their sustainablemanagement.
This book is the first to:
* provide an in-depth and holistic view of beach systems, lookingboth in detail at the different beach zones and globally at rangeof parameters influencing regional variation
* examine the relationship between beaches and ancillary dunesystems and includes chapters on beach ecology, safety,stratification and barrier evolution.
The book is designed for use in the classroom and the office, beingaimed at university level students and coastal professioanls.
Beaches (A. Short).
Global Variation in Beach Systems (A. Short).
BEACH MORPHODYNAMICS.
The Shoreface (P. Cowell, et al.).
The Surf Zone (T. Aagaard & G. Masselink).
The Beachface (M. Hughes & I. Turner)
The Beach Backshore and Beyond (P. Hesp).
BEACH TYPES AND APPLICATIONS.
Wave-Dominated Beaches (A. Short).
The Effect of Tides on Beach Morphodynamics (G. Masselink & I.Turner).
Embayed and Structurally Controlled Beaches (A. Short & G.Masselink).
BEACH SYSTEMS AND IMPACTS.
Beach Modification: Natural Impacts on Beach Morphodynamics (A.Short).
Beach Ecology (A. Short & P. Hesp).
Beach and Dune Stratification (A. Short & P. Hesp).
Beach Hazards and Safety (A. Short).
LARGE SCALE BEACH BEHAVIOUR.
Barrier Morphodynamics (P. Hesp & A. Short).
References.
Indexes.
Date de parution : 01-2000
Ouvrage de 392 p.
19.8x25.1 cm
Thème de Handbook of Beach and Shoreface Morphodynamics :
Mots-clés :
beach; earth; dynamic part; adjacent; zone; narrow; waves; continuously; sediment; wherever; available; thousands; kilometres; hundreds; systems; users; intense pressure; focus; beaches; reasons; sustainable; critical; morphodynamics