Wildlife - Indicator Species
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- Created by: Becky_Berry
- Created on: 07-03-21 11:00
Indicator Species Part 1
- Can be used to indicate how healthy an environment is.
- A species whose presence, absence or abundance reflects a specific environmental condition, habitat, or community.
- Indicator species may:
- Provide information on the overall health of an ecosystem.
- Reflect a particular environment condition, such as pollution.
- Be indicative of a particular habitat type.
- Why do we use indicator species?
- Can provide an early warning of environmental change.
- They can be used to assess the health of an environment or ecosystem – they are often termed ‘bioindicators’.
- Can be a useful management tool.
- How might indicator species show changes in the environment.
- Increase or decrease in abundance.
- Presence or absence
- Changes in behaviour
- Change in physiology or chemically.
- Could be a slight change in their colouration or the presence of sores.
- Could take samples from animals that have shown a physiological change.
- Indicator species may be used passively
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Indicator Species Part 2
- Considerations
- Care must be taken when using indicator species as there are some potential pitfalls.
- Might not be enough to assess the overall area.
- Need to be sure any correlation shown is real or is a coincidence.
- Must be liked to the environmental condition and must be studied in a scientifically sound manner to justify its use.
- Care must be taken when using indicator species as there are some potential pitfalls.
- May be difficult or time consuming to survey.
- May be hard work to identify a suitable indicator species.
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Air Pollution
- Lichens
- Farmed from a symbiotic relationship between a fungus and an algae
- They often grow on exposed rocks and trees, and need to be efficient at absorbing water
- Air pollutants dissolved in rainwater, especially sulphur dioxide, can damage lichens and prevent their growth
- Different lichens show different levels of tolerance to pollution
- Shrubby and bushy lichens are usually the most sensitive to pollution and are often absent from polluted areas
- Crusty lichens are usually more tolerant of pollution and can grow in more polluted areas
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Water Pollution Part 1
- Many aquatic animals cannot survive in polluted water, so their presence or absence can indicate the level of pollution in water body.
- Types of water pollution can include:
- Nitrates (e.g., from fertilisers)
- Acid rain
- Heavy metals
- Pesticides
- Oil
- Other chemicals
- Source of water pollution
- Urban streets
- Rural homes
- Suburban development
- Cropland
- Animal feedlot
- Factories
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Water Pollution Part 2
- Invertebrates
- Different invertebrate species can tolerate different levels of water pollution.
- The composition of species within a study area can indicate the level of water pollution.
- Mayfly and stonefly larvae prefer clean water.
- Freshwater shrimp can tolerate low levels of pollution.
- The water louse can tolerate high levels of pollution.
- Species such as the rat-tailed maggot and sludge worm can tolerate very high levels of pollution.
- Mussels are suspension feeders and accumulate heavy metals and toxins in their tissues.
- Mussels are often used as an indicator species for monitoring the health of coastal environments.
- Algae
- Run off from agricultural farms = eutrophication in rivers and lakes
- The composition and total amount of algae species can indicate the amount of organic pollution.
- Algae blocks out sunlight so plants cannot survive underneath it.
- Takes up oxygen from the water.
- More fish will start dying as oxygen is taken from the water.
- Amphibians
- Susceptible to changes in water quality given that they breathe through their skin.
- Chemicals can cause physical abnormalities and malformations.
- Amphibians live in water and on land, therefore they are particularly useful for assessing the overall health of an area.
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Climate Change
- Montane species
- Live in the mountains and can be good indicators of climate change.
- Have a specific habitat.
- American Pika
- Lives in a very specific habitat.
- Very low reproductive rate
- Shows very limited dispersal ability.
- Extremely sensitive to warm temperatures.
- As temperatures rise the American Pika is forced to seek higher elevations to seek a higher and cooler and moister habitat
- However, this species already occupies high elevations.
- Climate change may already be factor in the extinction of local pika populations.
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Other Examples
- Top predators – food chains
- If the predators are decreasing it could be because the prey may be decreasing which would lead to you looking at their food source.
- Predators are more easily spotted.
- Plants – soil conditions
- Most like neutral or alkaline pH
- Bioaccumulation/biomagnification of toxins
- DDT – pesticide, insects take in small amount of the pesticide which kills them, this accumulates inside their predators, now banned.
- African Land Snails have been banned from America due to their destructiveness.
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