1. Coastal Geology: Part I Forces Affecting Shoreline Development Nick Warner

2. Objective To analyze the dynamic nature of shorelines…. Relating to the forces modify our shorelines How do shoreline processes affect us? How do we affect shoreline processes?

3. Introduction Coastal areas vary greatly in character. Most are dynamic (constantly changing). They change due to erosional forces. Erosional forces? water and wind They change due to tidal forces. They change due to tectonic forces. Tectonic forces? uplift and subsidence

4. Forces that Shape our Coastline: Erosional Forces Erosional forces What is the main agent of erosion at a coastline? Water, specifically wave movement. What causes a wave to form? Wind

5. Waves Waves you see are just the surface expression of actual wave motion.

6. The Waveform a. b.

7. Wave Terminology Wave Crest: Top of the wave Wave Trough: Low part between two crests Wavelength: Horizontal distance from top of one crest to the top of another crest Wave Height (amplitude): Vertical distance from trough to crest

8. Waves Continued How do breaker waves form? Do you ever see a breaker far offshore? Breakers form when waves approach the shore. Why?

9. Breaker Waves Friction between wave bottom and seafloor causes the top of the wave to topple over.

10. Shoreline erosion and sediment movement Moving water (waves) is the primary agent of shoreline erosion and sediment movement. Energy from the waves picks sediment up from one area and deposits it in another area along a shoreline. When waves break at the coast they move sediment along the beach front.

11. Beach Profile

12. Swash and Backwash This process creates a gentle beach profile

13. Beach Erosion Beach erosion cuts into vegetated area Vegetation reduces rate of beach erosion

14. Shoreline Erosion Points or protrusions along a coast are particularly susceptible to erosion. Wave Refraction: Bending of waves as they interact with the coastline

15. Wave Refraction

16. Longshore Currents Do waves always hit perpendicular to the shore? Waves often approach the shore at oblique angles.

17. Longshore Currents Swash and backwash moves sediment along the shore. Littoral Drift: The movement of sediment along the shore, parallel to the shoreface. Longshore Current: Current of water parallel to the beach front. Created when waves hit the shore at an oblique angle

18. Shoreline Features Created by Sediment Movement Spit: Continuation of a beach created by movement of sand parallel to the shore. Spit

19. Shoreline Features Spit Cape Cod, Mass.

20. Shoreline Features Baymouth Bar: Thin beach that blocks the entrance to a bay.

21. Shoreline Features Barrier Island: long, narrow, offshore deposits of sand or sediments that parallel the coast line. Some barrier islands can extend for 100 miles (160 km) or more. Example: The Outer Banks: NC

24. Barrier Island Profile

25. Shoreline Features How do barrier islands form? Current Theory: Barrier islands formed right after the last ice age. (~18000 ya) As glaciers melted ocean levels rose submerging the regions behind the higher beach front. Today, rivers that carry sediment to the ocean have built up the barrier islands.

26. Affect of Humans on Shorelines Why do we care about the processes that shape the coast? The coast is dynamic, houses and hotels and human structures are for the most part static. How do we attempt to control the coast?

27. Man-Made Coastal Structures

28. Man-Made Structures Shoreline reinforcement (Jersey Shore)

29. Man-Made Structures Jetty

30. Man-Made Structures Sand Fences

31. Next Time: Other Forces?? Tidal Forces & Tectonic High Tide and Low Tide Passive Continental Margins (Atlantic Coast) Active Continental Margins (Pacific Coast)