Title: Barrier Island Evolution
1Barrier Island Evolution
2Beach Diagram
3Introduction
- Three main theories of barrier island formation
- Other theories-plate tectonics
- Barrier island migration and long shore current
- Overwash and inlets
- Man-made attempts to stabilize beaches
4Multiple Theories of Barrier Island Formation
- Three original theories were developed between
1845-1890. - Since that time, the theories have been
re-examined and it has been determined that all
three theories explain the formation of different
types of barrier islands - No one theory is correct and new studies have
shown that other factors such as plate tectonics,
sea level, and tidal ranges also have an effect
on the formation of barrier islands
5Three main hypotheses for the formation of
barrier islands
- 1845-deBeaumont-Johnson concept of the emergence
of submarine bars - 1885-Gilbert-Fisher idea of spit growth and later
breaching by inlets - 1890-McGee-Hoyt hypothesis of beach ridge
submergence
6Emergence of submarine bars
- 1845-deBeaumont suggested that islands such as
those found in the North Sea and the Gulf of
Mexico were formed by what is known as bar
emergence. - Submarine bars are located offshore. When waves
come into the shore, they sweep across the
shallow bottom and pick up loose sand and deposit
it on these bars. The bars grow in size and rise
above sea level to become barrier islands.
7Emergence Theory
- Waves break over a submerged bar
- Bar emerges above sea level due to deposited
sediment - Bar develops into barrier island and lagoon
8Support of deBeaumont
- 1919-Douglas Johnson reviewed deBeaumonts study
and supported his hypothesis - Johnson tested emergence and spit formation by
drawing profiles across a series of barrier
islands. He determined that islands were formed
from submerged bars because there was an area of
depression in front of the islands. This area of
depression provided the sediment needed to build
up the bars.
9Support of deBeaumont, cont
- He claims that islands formed by submarine bars
are common on shorelines with a low slope. A low
slope causes the waves to break away from the
shoreline and permits the buildup of submerged
bars off the coast
10Tests of bar emergence and spit formation
- Island formed by a spit, profile intersection at
coast - Island formed from emerged bar, profile
intersection is on the mainland
11Against deBeaumont
- If barrier islands were formed from the buildup
of submerged bars, there should be examples of
islands in various stages. This is not the case.
- Studies by John Hoyt in 1967 of the sediments of
barrier islands in Texas show no beach or open
marine sediments on the back side of the island.
Barrier islands that were formed from bars should
show evidence of marine fossils.
12Spit Growth
- 1885-Gilbert proposed that barrier islands were
formed from spits by currents flowing parallel to
the coast-the longshore current. Individual
islands were created when the spits were breached
by waves during storms, creating inlets.
13Spit Formation
- Spit starts to grow from point of land
- Spit is extended along the coast by longshore
currents - Spit is breached during a storm, forming a tidal
inlet and barrier island
14Support of Spit Formation
- 1968-John Fisher agreed with Hoyt that the lack
of fossils argues against bar emergence. He
studied the lagoons behind barrier islands and
concluded if the island was formed from a
submerged ridge, there should be evidence of
soils or forests that grew behind the ridge. He
found no sediments and determined islands must be
formed from breached spits.
15Refute of spit formation
- Hoyt agrees that spit formation is on a limited
scale, in small segments of the coast where there
is enough sediment supply. He does not believe
that this theory supports the growth of large
barrier islands. - If an island was formed from a spit, the original
marine beach should be preserved along the
mainland coast. Hoyt studied the mainland side
of lagoons and found no evidence of beach
sediment.
16Dune-Ridge Submergence
- 1890-W.D. McGee suggested that barrier islands
were produced by drowning of the coastal area
during a rise in sea level
17Beach Ridge Formation
- Dune ridge along the coast
- Rise in sea level starts to submerge dune
- Barrier island and lagoon formed from ridge
18Support of Submergence
- 1967-Hoyt determined from his studies of
sediments that islands must be formed by
submergence of coastal dune fields or beach
ridges. Once the island was formed, waves and the
longshore current determined their present-day
shape
19Other Theories
- 1971-Maurice Schwartz published a compilation to
draw the theories together to show that there are
multiple origins for barrier islands. He stated
that there are basically two types of islands - Primary-islands that were formed on land that is
later flooded by the sea - Submergence
- Secondary-islands that developed seaward of the
primary coast on the continental shelf - Spits and emergence
20Role of Tectonics in Formation
- Three types of tectonic settings throughout the
world - Trailing Margins
- Collision Margins
- Marginal Seas
21- Collision Coast Trailing Edge Coast
- Blue-Continental Yellow-Neo-trailing
- Red-Island Arc Pink-Afro-trailing
- Green-Amero-trailing
- Ligt Blue-Marginal Sea Coast
22Percentages of Islands along Coastlines
- Trailing Margins 49
- Atlantic Seaboard
- Collision Margins 24
- Western Central America
- Marginal Sea Coasts 27
- Baja California
23Additional Factors
- Three additional factors contributing to
formation of barrier islands - Continental shelf width
- Sediment supply
- Tectonic setting
- Majority of islands are found on trailing margins
because all three factors are favorable - However, islands are found on collision and
marginal sea coasts because they have a wide
coastal plain even though they do not have a
wide, flat continental shelf or a history of
sediment supply
24Coastal Zone
25Barrier Island Migration
- The beach system includes the area from the dunes
to 30 feet deep offshore. The sand in this
system is constantly moving. - Evolution of barrier islands includes
- Sand bars moving up to the beach
- Beaches flattening and sand moving offshore
- Islands retreating toward the mainland
- Islands migrating along the coast
- Islands prograding toward the ocean
- Inlets opening, closing, or migrating
26Movement on the Beaches
- Sand is constantly moving due to wind, waves and
currents - During fair weather, gentle waves cause a gradual
movement of sand bars toward the mainland. - Net movement of sand is onshore
- During storms, powerful wind and waves erode the
shorelines - Storm surges and waves may pass through breaks in
dunes and deposit sand in washover fans behind
the dunes - Storms can pull the sand offshore and flatten out
the beach - Net movement of sand is offshore
27Longshore Current
- Waves typically strike a beach at an angle,
causing a current to run parallel to the coast - In NC, the longshore current runs from North to
South - Longshore current allows sediment to be carried
down the beach.
28Longshore Current
29Movement landward
- Transgression is the movement of islands landward
- Rate of sea level rise overcomes the amount
sediment supply - Transgression is caused by waves carrying
sediment from the beaches and dunes to the back
of the barrier island and depositing it in
washover fans. - The natural movement of a barrier island is to
migrate landward as sea level rises. - Front side of the island is eroded by wave action
- Back side must grows from the buildup of washover
30Coastline Moving Landward
31Evidence of Transgression
- Studies of sediment on barrier islands show peat,
tree stumps, oyster shells and layers of mud on
the beach side - Once were part of the marsh, now found on the
beach - Marsh has a floor of thick, black mud from the
ocean side - As the island rolls back, the beach moves back
over the old marsh. Todays beach is where the
marsh used to be. - Island rolls over on itself like a conveyor belt
32Movement Seaward
- Progradation is the movement of islands seaward
- Process is different from transgression because
the island itself does not move - Sediment is pushed on shore, building up the
ocean side of the island - The addition of sediment causes the development
of multiple beach-dune systems - Shoreline on the ocean side moves seaward while
the landward back side stays stationary - Brought about by an excess of sediment that can
not be carried away by the longshore current
33Coastline Moving Seaward
34Barrier Island Changes
- Barrier islands can experience both transgression
and progradation at the same time or change back
and forth over time - Barrier islands may change the shape of the
shoreline, but generally maintain their position
35Shoreline Changes
36Coastline Changes
37Hog Island Changes
38Changes to Hog Island Over the Past 350 Years
39Movement Parallel to the Coast
- Barrier islands may experience erosion on one end
and a build-up of sediment on the other end - Migration of inlets can contribute to changes in
shape and size of barrier islands
40Effects of Inlets
- Inlets are important because the are a site of
storage and transportation of sand - Sand being carried by the longshore current gets
carried into tidal inlets - Inlets move in three general ways
41Shifting Inlets
- Breathing Inlets expand and contract
- Migrating inlets form in one place and migrate
with the longshore current - Returning inlets migrate, but may return to their
original position
42Masons Inlet
43Shell Island
- October 1989 Â May 1990 Average Distance
Change180ft/0.6 yr
44Shell Island
- November 1993 November1995
- Average Distance Change Average Distance
Change - 670 ft/3.6 yrs
440 ft/1.9 yrs
45Shell Island 1994-1998
46Inlet after Hurricane Hugo-SC
47Tidal Deltas
- There are two types of deltas
- Ebb tidal delta develops on the ocean side of the
island - Flood tidal delta develops on the lagoon side of
the island protected from effects of waves - Built by the sediment deposition that accumulates
when a current suddenly slows at the mouth of a
channel, losing its carrying capacity
48Deltas, Inlets, Islands
49On-line References
- http//books.nap.edu/books/030904806/html/70.html
pagetop - http//coastal.er.usgs.gov/hurricanes/dennis/buxto
n/ - http//members.nbci.com/igorz/MIWO.html
- http//www.beachbrowser.com/Archives/Environment/A
/Barrier-Islands-Always-changing.ht - http//www.csc.noaa.gov/products/nchaz/htm/lidtopo
.htmhttp//www.lacoast.gov/Programs/CWPPRA/Waterma
rks/Fall99/barrier.fa99.htm
50References
- http//www.ncsu.edu/coast/shell/migration/migratio
n.html - http//www.ncsu.edu/coast/shell/terms.html
- http//www.salem.mass.edu/lhanson/gls214/gls214_t
ec_clas.htm - http//www.seafriends.org.nz/oceano/beacheng.htms
ea20walls - http//www.seashell.com/kbphotos.htm
- http//www.vcrlter.virginia.edu/bph/NSFTalk/NSFTa
lk.html
51References
- Davis, Richard, 1994, The Evolving Coast W.H.
Freeman and Company, New York, pp 166-183. - Fox, William, 1983. At the Seas Edge,
Prentice-Hall, Inc., pp. 151-175. - Pilkey, Orrin, 1990. The Beaches are moving
(videorecording). - Schwartz, Maurice, 1973, Benchmark Papers in
Geology Barrier Islands Dowden, Hutchinson and
Ross, Inc., Stroudsburg, Pa.