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In every habitat, resources run short. Only so much light falls on a patch of woodland floor, only so much water lies in the soil, only so much food grows in a meadow. Because organisms need these resources to survive and reproduce, they compete for them — both with members of their own species and with members of other species. Over very long stretches of time, the organisms best suited to their surroundings tend to survive and breed, so populations become adapted: they develop features that fit them to their way of life. In this lesson of Topic B4 you will examine what plants and animals compete for, the difference between competing within and between species, and the three kinds of adaptation — structural, behavioural and functional — before finishing with the remarkable extremophiles that survive where almost nothing else can.
By the end of this lesson you should be able to list what plants and animals compete for, tell intraspecific from interspecific competition, classify and give examples of structural, behavioural and functional adaptations, and describe how extremophiles are adapted to extreme conditions.
This lesson mainly develops AO1 (recalling the types of competition and adaptation), with AO2 when you apply those categories to classify and explain the adaptations of an unfamiliar organism.
Competition happens when two or more organisms need the same limited resource. The one that obtains more of the resource is more likely to survive and reproduce; the one that loses out may grow poorly, fail to breed, or die. Crucially, plants and animals compete for different things, because they live in different ways.
Plants compete for:
Animals compete for:
| Resource | Competed for by plants? | Competed for by animals? |
|---|---|---|
| Light | Yes | No |
| Water | Yes | Yes |
| Space | Yes | (as territory) |
| Mineral ions | Yes | No |
| Food | No (they make their own) | Yes |
| Mates | No | Yes |
| Territory | No | Yes |
Exam Tip: A frequent slip is to say plants compete for "food". Plants make their own food by photosynthesis, so they compete for the raw materials and conditions for photosynthesis and growth — light, water, space and mineral ions — never for food itself. Animals, which cannot make food, compete for food, water, mates and territory.
Competition comes in two forms, depending on who is doing the competing.
| Type | Between whom | Memory hook | Example |
|---|---|---|---|
| Intraspecific | Same species | intra = within | Two stags competing for the same mate |
| Interspecific | Different species | inter = between | Red and grey squirrels competing for food |
When two different species compete for very similar resources, one is often better adapted and gradually out-competes the other, whose population then declines. That is exactly what has happened across much of Britain, where the introduced grey squirrel competes with — and largely displaces — the native red squirrel.
Exam Tip: Keep the prefixes straight: intraspecific = within one species; interspecific = between different species. If you get stuck, remember "international" means between nations — so interspecific is between species.
An adaptation is a feature that helps an organism survive and reproduce in its environment. Adaptations arise over many generations by natural selection: individuals with helpful features are more likely to survive, breed and pass those features on. OCR groups adaptations into three types, and you should be able to sort any example into one of them.
| Type of adaptation | What it is | Examples |
|---|---|---|
| Structural | A feature of the body's structure — its shape, size or parts | A polar bear's thick fur and fat for insulation; a cactus's spines (reduced leaves) to cut water loss; a camel's large feet to spread its weight on sand |
| Behavioural | The way an organism behaves | Migration of birds to warmer regions in winter; animals basking in the Sun to warm up; nocturnal desert animals being active in the cool night |
| Functional | A feature of the internal workings / biochemistry of the body (how it functions) | Producing small, concentrated urine to conserve water (camel, kangaroo rat); a bear's slowed metabolism during hibernation; venom or antifreeze chemicals in the blood |
The boundaries can overlap, but a reliable test is: structural = something you could point to in the body; behavioural = something the animal does; functional = something happening inside the body (its chemistry or physiology).
A desert kangaroo rat (1) has very long back feet, (2) is active only at night, and (3) produces extremely concentrated urine. Classify each adaptation.
Step 1 — feature (1), long back feet. A feature of the body's structure you could point to, so it is structural (it helps the rat move quickly across sand to escape predators).
Step 2 — feature (2), active only at night. Something the animal does, so it is behavioural (being active in the cool night reduces water loss and avoids the daytime heat).
Step 3 — feature (3), concentrated urine. An internal, physiological process, so it is functional (it conserves water in the dry desert).
Answer: (1) structural, (2) behavioural, (3) functional.
Two environments crop up so often that it is worth knowing a worked set of adaptations for each.
Adaptations to cold (e.g. a polar bear in the Arctic):
Adaptations to dry, hot conditions (e.g. a cactus in a desert):
Exam Tip: When asked to explain an adaptation, always link the feature to the benefit: not just "the cactus has spines" but "the cactus has spines, which have a small surface area to reduce water loss". The mark is for the reason, not just the feature.
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