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2816901
Interdependence and Adaptation
Description
Mind Map on Interdependence and Adaptation, created by stella watkins on 26/05/2015.
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b1.4
Mind Map by
stella watkins
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Created by
stella watkins
over 9 years ago
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Resource summary
Interdependence and Adaptation
Survival
• To survive, organisms require a supply of materials from their surroundings and from the other living organisms there.
• Organisms live, grow and reproduce in places where, and at times when, conditions are suitable.
Competition
Animals often compete with each other for:
• Food
• Mates
• Territory
Plants often compete with each other for:
• Light
• Water from the soil
• Nutrients from the soil
Adaptation
• Organisms have features (adaptations) which enable them to survive in the conditions in which they normally live
• The organisms that are best adapted to make use of their resources in a habitat are more likely to survive and increase in numbers
• For example:
o To be able to obtain a certain food better.
o To make it more difficult for predators to catch them.
o To survive in extreme climates, eg arctic or deserts
• Plants lose water vapour from the surface of their leaves
• It is essential that they have adaptations which minimise this.
Extreme adaptations:
• Extremophiles are organisms that live in extreme environments.
• Some may be tolerant to high levels of salt, high temperatures or high pressures.
• Animals and plants may be adapted to cope with specific features of their environment eg thorns, poisons and warning colours to deter predators.
Extreme Animals
• Animals may be adapted for survival in dry and arctic environments by means of:
o changes to surface area
o thickness of insulating coat
o amount of body fat
o camouflage.
• Examples:
o Camel
• The camel can go without food and water for 3 to 4 days.
• Fat stored in their humps provides long term food reserve, and a supply of metabolic water.
The fat is not distributed around the body; this reduces insulation, allowing more heat loss.
• They are tall and thin, increasing their surface area to volume ration, increasing heat loss by radiation.
o Polar Bear
• Polar bear has thick fur and fat beneath its skin to insulate it.
• Their large, furry feet help to distribute their weight as they walk on a thin ice.
• They are white which camouflages them against the snow. This helps them to hunt.
• They are compact in shape, reducing their surface area to volume ratio; this reduces heat loss by radiation
Extreme Plants
• Plants may be adapted to survive in dry environments by means of:
o changes to surface area, particularly of the leaves
o water-storage tissues
o extensive root systems.
• Desert plants
• Eg the cactus, require very little water to survive
• Leaves are spines.
• Spines guard against most browsing herbivorous animals.
• Spines also reduce their surface area, reducing water loss by evaporation
• A thick waxy coating surrounds the plant to reduce evaporation.
• Fewer 'stomata', reducing water loss
• Roots tend to spread sideways to catch rain water.
• Arctic plants
• Many of the plants are small, growing close to the ground and very close together to avoid the wind and conserve heat.
• Some possess a light, fuzzy covering to insulate the buds so they can grow.
• Many are dark colors of blue and purple to absorb the heat from the sunlight even during the winter months.
• Because of the cold and short growing seasons, arctic plants grow very slowly.
Microorganisms
• Microorganisms have adaptations that enable them to survive in different environments.
• Some microorganisms have flagella which enable them to move around quickly.
• Bacteria undergo rapid reproduction when conditions are favourable.
Environmental change
• Changes in the environment affect the distribution of living organisms.
• For example, the changing distribution of some bird species and the disappearance of pollinating insects including bees.
Non-living (abiotic) factors:
• Light
• Oxygen
• Water
• Temperature
Living (biotic) factors:
• Food
• Predation
• Grazing
• Disease
• Competition – for: food, light, water, space.
Living organisms can be used as indicators of pollution:
• Lichens are sensitive to changes in air quality.
• They are very sensitive to sulphur dioxide (SO2) pollution in the air.
• Some species only grow in non-polluted air. Some species grow in polluted air. These lichens can be used as air pollution indicators.
• Invertebrate animals are sensitive to changes in the concentration of dissolved oxygen in water.
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