Engineering Geomorphology: Theory and PracticeThis volume covers the topic of engineering geomorphology as a distinct discipline. It includes basic concepts that underpin efforts to explain the causes, mechanisms and consequences of landform change. It then considers how the land surface works in the context of wetland, flatland, hills, mountains, rivers and coasts. |
Contents
Landform Change 1 Geomorphology and Engineering | 1 |
Energy Inputs and Geomorphological Activity | 6 |
Stress Strain and Strength | 15 |
Copyright | |
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Engineering Geomorphology: Theory and Practice P. G. Fookes,E. Mark Lee,Dr. James S. Griffiths No preview available - 2007 |
Common terms and phrases
alluvial alluvium annual assessment associated barrier beach behaviour boulder catchment changes channel Chapter clay cliff recession climate coast coastal colluvium debris flows delta density deposits depth discharge drainage dunes duricrust earthquake Engineering Geology engineering geomorphology environments erosion estimated estuary example failure Figure flood floodplain fluvial Geomorphology Geomorphology for Engineers glacial gradient ground hazard Holocene impact increase inputs intertidal karst land landforms landslide longshore longshore drift longshore transport loss maps material meander ment morphology movement mudflat occur particles periglacial pipeline potential probability rainfall range relict result risk river rock saltmarsh sea-level rise sediment supply sediment transport shear strength shear stress shingle shoreline silt sinkhole slide slope soil solifluction storm stream surface processes Table terrain models Thomas Telford tidal tion triggered tropical valley variable vegetation velocity wave energy weathering Whittles Publishing wind zone