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The Shaping of Shark Bay

Shark Bay is one of the most dynamic landscapes in Australia. Its peninsulas, prongs, islands, sea cliffs, bays, claypans, dunes and beaches are the result of winds, waves, sea level changes and even earthquakes. The region’s exceptional scenery contributed to its World Heritage listing. Shark Bay’s seascape is no less complex, with seagrass meadows creating channels, banks and areas of super-saline seawater. This ongoing and interlinked geological process is also of World Heritage significance.


Landscape: shaped by ice ages and floods

The shaping of Shark Bay began in the last two million years (the Quaternary period). This period has been characterised by cold (glacial) phases and two warm (interglacial) phases. The glacial phases are commonly referred to as ‘ice ages’. It was during the most recent ‘ice age’ that much of Shark Bay’s surface geology was formed. Learn more about Shark Bay’s rocks here.

About 125,000 years ago, much of the Earth’s water was locked up in ice sheets. The sea level was much lower than it is today, and the Shark Bay coastline was further west. Then about 10,000–8,000 years ago the Earth entered its most recent interglacial period. Melting ice caused sea levels to rise rapidly, flooding the coastline. Shark Bay’s many islands, peninsulas and prongs were formed.

• The rising waters flooded the depressions on either side of Peron Peninsula, and filled the valleys between Edel Land’s giant, wind-shaped sand dunes.
• Dirk Hartog, Bernier and Dorre Islands became isolated from the mainland.
• Bernier and Dorre Islands separated from each other 3,000–6,000 years ago.
• Shark Bay’s coastline is more than 1,500 km long – greater than the distance between Brisbane and Melbourne, or London and Rome!

Shark Bay 10 000 years ago
10 000 Years Ago
Shark Bay as it appeared some 10,000 years ago. The
coastline was up to 100km further west than it is today. Orange areas are land, white is the approximate coastline at the time and blue is ocean.
Shark Bay today
Today
About 8,000 years ago rising sea levels flooded the region, creating Shark Bay's characteristic double-basin shape we see today.


Seascape: shaped by plants and animals

Shark Bay’s modern-day seascape owes much to seagrass. The plants thrive in the shallow, sun-warmed waters of the flooded bays, forming huge underwater meadows.

Seagrasses provide an abundance of food and shelter, attracting myriad marine life – and entraping its shells, skeletons and other debris. Seagrasses also trap and bind other sediments moving on tides and currents.

• Over the past 5,000 years, these accumulated sediments have transformed Shark Bay’s double basin structure into a maze of channels, sills and banks.
• One such bank is the Fauré Sill, near Fauré Island southeast of Monkey Mia. This sill has turned Hamelin Pool into a partially landlocked basin separated from the rest of Shark Bay.
 
Download a fact sheet on seagrass or visit our seagrass pages here.

Shark Bay’s warm and windy climate means evaporation rates are high. This, combined with the seagrass banks, has created an unusually high salt content of the seawater.
Faure Sill from the air
Faure Sill is a shallow sand bank formed over thousands of years
by seagrass trapping sediment and other organic material.
The sill restricts water flow into Hamelin Pool and as a result has
greatly affected the environment in the semi-landlocked embayment .

For a printable fact sheet on
Shark Bay's hypersaline
waters click here!

Super salty water

The seawater in much of Shark Bay is highly saline. Seagrass banks maintain the high salt concentrations by restricting tidal flows that would otherwise flush out the Bay and dilute the water.

• Different parts of Shark Bay have distinct salt concentrations.
• Most of Shark Bay’s waters are metahaline, or up to 1.5 times as salty as the open ocean.
• Water in L’haridon Bight and Hamelin Pool are hypersaline, or twice as salty as the open ocean. Shark Bay has one of the few hypersaline marine environments in the world.

 
Map of Shark Bay's salinity gradient and location of sills
These diagrams show how Shark Bay’s seagrass banks correspond with the different salinity gradients. The salt concentrations in turn affect
marine life. The influence of seagrass on the geology, chemistry and biology of Shark Bay is a World Heritage value.

Living fossils and washed-up shells

The hypersaline waters of Hamelin Pool are critical for the survival of stromatolites. These rock-like structures are built by microbes. Few predators and competitors can survive the super-salty conditions, allowing the microbes to flourish and form stromatolites much as they did billions of years ago.

Shark Bay’s stromatolites are the most diverse and abundant in the world and are a World Heritage value. But what on Earth is a stromatolite? Find out here!

Hamelin Cockle
Hamelin cockle (Fragum erugatum)
Other salt-tolerant life forms also flourish in Hamelin Pool and L’haridon Bight, such as the Hamelin cockle ( Fragum erugatum).
Millions of its shells have accumulated on the sea floor and shore. Over the years the shells have built up to form spectacular white beaches which stretch for 60 km along the east coast of the Peron Peninsula. Experience a beach like no other with a visit to Shell Beach!

Further inland, compacted shell deposits have cemented together to form a rock called coquina. Thus modern-day animals have contributed to Shark Bay’s geology much as their ancestors did, thousands of years ago.
 
 





   
 
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