Coastal Ecosystems of the World (Edexcel IGCSE Geography)
Revision Note
Written by: Jacque Cartwright
Reviewed by: Bridgette Barrett
Distribution & Features of Coral Reefs
Distribution of Coral Reefs
Coral reefs are large deposits of calcium carbonate built entirely of living organisms called coral polyps
Corals are scattered throughout the tropical and subtropical Western Atlantic and Indo-Pacific oceans, generally within 30°N and 30°S latitudes
Western Atlantic reefs include these areas: Bermuda, the Bahamas, the Caribbean Islands, Belize, Florida, and the Gulf of Mexico
The Indo-Pacific ocean region extends from the Red Sea and the Persian Gulf through the Indian and Pacific Oceans to the western coast of Panama
Corals grow on rocky outcrops in some areas of the Gulf of California
The Great Barrier Reef in northern Australia is renowned for its great biodiversity and size and can be seen from space
Their distribution is controlled by four factors:
Temperature
Light
Water depth
Salinity
What are the features of Coral Reefs?
Main Features of Coral Reefs
| Global Features |
---|---|
Temperature | Corals cannot tolerate water temperatures below 18°C but grow best at 23°C – 29°C. Some can stand temperatures as high as 40° C for short periods. This is why coral reefs normally grow between the Tropic of Capricorn and the Tropic of Cancer |
Light | Corals need light for photosynthesis due to the algae, called zooxanthellae, that live in their tissue |
Water | Corals are generally found at depths of less than 25m where sunlight can penetrate. The water must also be clear and clean to allow for optimum photosynthesis to occur |
Salinity | Since corals are marine animals they need salty water to survive, ranging from 32-42% saltwater |
At a local level, other factors will affect development:
Wave action - corals need well-oxygenated, clean water and wave action provides this
Exposure to air - although corals need oxygenated water, they cannot be exposed to air for too long or they will die
Sediment - all corals need clear, clean water. Any sediment in the water will block normal feeding patterns by reducing the availability of light affecting the photosynthesis of the microscopic algae 'zooxanthellae' living in polyp tissue. The corals provide algae with a home and compounds for photosynthesis. In return, the algae produce food, and oxygen and help remove wastes
Types of Coral Reefs
Fringing Reefs - these are reefs that form around a land mass
Barrier Reefs - these are found parallel to the shore but are separated by a channel of water:
The Great Barrier Reef in the Coral Sea, off the coast of Queensland, Australia is a good example of a barrier reef.
It is the world's largest coral reef system with over 2,900 individual reefs and 600 islands that stretch for over 2,300 kilometres and can be seen from space
Atolls - horseshoe-shaped rings, consisting of a coral rim that encircles a lagoon
Distribution & Features of Mangroves
Distribution of Mangroves
Both mangroves and coral reefs are found in warm tropical waters, however, unlike the sensitive coral reefs, mangroves are highly adapted to changing conditions
This has made them the most successful ecosystems on Earth
Originate from Southeast Asia and spread across the globe
Mainly found in warm tropical waters and coastal swamps within 30° N and S of the equator
Some have adapted to more temperate conditions and have colonized as far south as New Zealand's North Island
They grow in the intertidal zone of the coast
South-East Asia has mangroves with the highest biodiversity in the world
Characteristics of Mangroves
Mangroves are trees that live on the coastline
They sit in water between 0.5 to 2.5 metres high
They range in size from small shrubs to trees over 60m high
They have numerous tangled roots that grow above ground and form dense thickets
They need high levels of humidity (75 - 80%) and rainfall per annum (1500 - 3000 mm)
The ideal temperature is around 27° C but are adapting to more temperate climates
The mangrove root system is complex, with a filtration system to keep salt out
Some have snorkel-like roots that stick out of the mud to help them take in air
Others use 'prop' roots or 'buttresses' to keep their trunks upright in the soft sediment at the tidal edge
Prop Roots Mangrove Root Systems Snorkel Roots
It is the roots that trap mud, sand and silt which eventually builds up the intertidal zone into the new land
At the same time, the mangrove is colonizing new intertidal areas
The fruits and seedlings of mangroves can float and can travel many kilometres on ocean currents
As they drift with the incoming tide, they become lodged in the mud and begin to grow, colonizing new areas
Distribution & Features of Sand Dunes
Distribution of Sand Dunes
Coastal sand dunes are found all over the world
They are the accumulation of sand, shaped into mounds and ridges by the wind
Found at the back of a beach, above the maximum reach of the tide
Coastal sand dunes develop best when:
There is a wide beach and large quantities of sand
The prevailing wind is onshore
There is a large tidal range to allow time for the sand to dry
There are suitable locations for the sand to accumulate
Characteristics of Sand Dunes
Sand dunes can be small ridges or large hills usually found at the back of a beach
They can extend backwards for many miles as well as along the beach
They are an important ecosystem supporting unique flora and fauna that have adapted to live within the dune system
Dunes are vulnerable to erosion by natural processes and human activity:
It is common to see vulnerable sections of dunes fenced off to prevent public access, or for paths to be laid to prevent people from eroding the dunes further
Formation of a Sand Dune
Wind-blown sand is deposited against an obstruction - pebble or driftwood
As more sand particles are caught, the dunes grow in size, forming rows at right angles to the prevailing wind
Over time, the ridges of the dunes will be colonized and fixed by vegetation in a process called succession
The first plants (pioneer species) have to deal with:
Salinity
Lack of moisture as sand drains quickly (highly permeable)
Wind
Temporary submergence by wind-blown sand
Rising sea levels
Embryo Dunes
Wind-blown dried sand is trapped by debris and deposition begins
Pioneer species such as Lyme Grass and Sea Couch Grass begin to colonise
There is little soil content and high pH levels (alkaline)
Embryo dunes are very fragile and reach a maximum height of 1 metre
Fore Dunes
The embryo dunes bring some protection against the prevailing wind
This allows other species of plant to grow such as Marram Grass
Marram grass begins to stabilise the dune with its root system
These plants add organic matter to the dunes making the dunes more hospitable for plants that later grow
A microclimate forms in the dune slack
Maximum height is 5 metres
Yellow Dunes
These are initially yellow but darken as organic material adds humus to the soil
Marram grass still dominates the vegetation, but more delicate flowering plants and insects are found in the dune slacks
20% of the dune is exposed, down from 80%
Height does not exceed 8 metres
Grey Dunes
Grey dunes are more stable, with less than 10% of exposed sand and have a good range of biodiversity
Soil acidity and water content increase as more humus is added
Shrubs and bushes begin to appear
Height is between 8 - 10 metres
Mature Dunes
As the name suggests, these are the oldest and most stable of the dunes
They are found several hundred metres or more from the shoreline
The soil can support a variety of flora and fauna such as oak trees and alders (climax vegetation)
This is the final stage in succession which is known as the climax community stage
Distribution & Features of Salt Marshes
Distribution of Salt Marshes
Salt marshes are found all over the world and are not temperature dependant
Like mangroves, they are an ecosystem of the intertidal zone
They are typically very flat, with numerous channels running through them
They form in:
Coastal areas that are well sheltered, such as inlets and estuaries where fine sediments can be deposited
Areas behind spits and artificial sea defences where tidal waters can flow gently and deposit fine sediments
They form in brackish water
Features of Salt Marshes
Salt marshes are communities of nonwoody, salt-tolerant plants
They begin as tidal mud flats, gaining height as more sediment is deposited
This builds up to and above the level, and frequency of tidal flooding ensuring that the soil never dries out and remains muddy and sticky
Pioneer species of halophyte plants begin to colonise
As these plants die and add nutrients to the soil, sediment builds up. This makes the conditions more favourable and other species start to develop.
The process of the development of vegetation, over time is known as succession. In a salt marsh, this is known as a halosere
The lower marshes are flooded daily by the rising tide.
They are good coastal defences in some areas, acting as a natural buffer against coastal erosion and flooding
However, in many areas they have been reclaimed for agriculture or development, and are threatened by human activities
Examiner Tips and Tricks
Make sure you can explain factors that influence the distribution of these four ecosystems. They are a popular exam question.
Worked Example
Explain one physical factor that influences the distribution of mangrove ecosystems
(3 Marks)
You would gain 1 mark for identifying a way:
Temperature, light, water depth, salinity, wind direction, level of shelter
Then 2 marks for development and further explanation
Answer
Coastal mangroves need a high temperature of around 27° C otherwise they will not grow, although some mangroves have adapted to more temperate conditions such as New Zealand
Mangroves need shallow water between 0.5 to 2.5 metres in depth, but can survive where the tidal ranges go slightly above or below this level
Mangroves need high levels of humidity between 75 and 80% to enable them to grow
Coastal mangroves need a high level of rainfall between 1500 and 3000 mm per annum, this can be gained from rainfall or moisture in the air making tropical climates ideal
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