Biomes (DP IB Biology)
Revision Note
Biomes
Biomes
The term biome can be defined as follows:
A large community of plants and animals that has developed as a result of environmental factors
Abiotic environmental factors, such as rainfall and temperature patterns determine which biome develops in a particular location
Regions of the world that experience similar abiotic factors will contain the same biome, e.g. desert occurs in parts of Africa, North and South America, and Australia
Biomes map
Regions of the world that experience similar abiotic factors will contain the same biome
Biomes contain many ecosystems
The ecosystems found in equivalent biomes in different parts of the world contain similar communities, even if the species are not exactly the same
E.g. the ecosystems in the deserts of South America will contain similar communities to those in the deserts of Africa
These similarities exist due to shared abiotic factors and resultant convergent evolution
Species face similar selection pressures, so similar features provide a survival advantage
These advantageous features become more common in the population due to natural selection
This means that these communities are similar not because they have all evolved from a recent common ancestor, but because they have independently adapted to have similar features
Species that are adapted to survive in the deserts of South America will not be close genetic relatives of those found in the deserts of Africa, though they may have similar morphology
 CC BY-SA 3.0, via Wikimedia Commons |  CC BY-SA 3.0, via Wikimedia Commons |
The cacti of the South American deserts (left) and the euphorbias of the African deserts (right) share spines and succulent stems as adaptations to their desert biome environments, but the two plant groups are not closely related
Climate conditions of major biomes table
Biome | Climate conditions | Community features |
|---|---|---|
Tropical forest | Annual rainfall 2000 - 10 000 mm Temperatures consistently between 20 - 25 °C Nutrient poor soil due to lack of seasonal leaf fall | Layers of vegetation, e.g. canopy and undercanopy Highly productive, i.e. high levels of photosynthesis Very high levels of biodiversity |
Temperate forest | Annual rainfall 750 - 1500 mm Seasonal, but no extremes temperatures Fertile soil due to leaf fall each autumn | Dominant deciduous trees Productive during part of the year High levels of biodiversity |
Taiga (conifer forest) | Annual rainfall 300 - 900 mm but high snow fall Very short summer growing period Temperatures between -40 - 20 °C | Dominant coniferous (evergreen) trees Low productivity A small number of well-adapted species |
Grassland | Annual rainfall 500-950 mm Dry and wet seasons Temperatures between -20 - 30 °C (differs depending on region) | Dominant grasses Not enough water for significant tree growth; low productivity Grazing animals and a small number of top predators |
Tundra | Annual rainfall 150-250 mm Dark winter periods and frozen soil Temperatures between -50 - 18 °C | Not enough water, light, or warmth for tree growth; low productivity Hibernating or migrating animal species |
Hot desert | Annual rainfall less than 250 mm Hot days (up to 49 °C) and cold nights (down to 0 °C) | Productivity very low due to lack of water A small number of well-adapted species |
 CC BY-SA 4.0, via Wikimedia Commons |  CC BY 2.0, via Wikimedia Commons |
 Public domain, via Pix4free |  CC BY-SA 3.0, via Wikimedia Commons |
 CC BY-SA 2.5, via Wikimedia Commons |  CC BY-SA 2.5, via Wikimedia Commons |
Tropical forest (top left), temperate forest (top right), taiga (middle left), grassland (middle right), tundra (bottom left) and hot desert (bottom right) are all examples of biomes
Adaptations to biomes
Adaptations
Adaptations are traits, or characteristics, that increase survival chances in a specific environment
Adaptations come about by the process of natural selection
Species are adapted to the abiotic and biotic features of the biome in which they live, e.g.
Species living in hot desert biomes have adaptations to hot, dry conditions
Species living in tropic rainforests are adapted to deal with competition and predation
Hot desert adaptations
Saguaro cactus
The saguaro cactus (Carnegia gigantea) is native to the hot deserts of North America, and is adapted for survival in dry conditions
Its stem has a thick waxy cuticle to reduce water loss by evaporation
It has spines instead of leaves; this reduces the surface area from which water can be lost by transpiration, and reduces grazing
Cells in the stem can expand to take on and store water
A deep tap root enables access to water deep under the ground, and shallow surface roots allow fast absorption of any water from rainfall
CC BY-SA 3.0, via Wikimedia Commons
Kangaroo rat
Kangaroo rats (Dipodomys sp.) are small rodents found in the hot deserts of North America
They spend daylight hours in underground burrows, a behavioural adaptation that allows them to avoid the high daytime temperatures
Kangaroo rats are able to extract enough water to survive from their diet, and can produce highly concentrated urine, so can go without drinking water for extended periods
CC BY-SA 2.0, via Wikimedia Commons
Tropical rainforest adaptations
Kapok tree
Kapok trees (Ceiba pentandra) form parts of the upper canopy in the tropical rainforests of Central and South America
Rapid growth allows Kapok trees to outcompete other species by growing tall very quickly; this height allows them to absorb enough sunlight in a densely forested habitat
Wide buttress roots provide a sturdy base to support the trees during their rapid growth
CC BY-SA 4.0, via Wikimedia Commons
Kapok trees have wide buttress roots to provide stability
Orchid mantis
The orchid mantis (Hymenopus coronatus) is an insect found in the tropical rainforests of southeast Asia
The adult female mantis looks very similar to an orchid flower, enabling it to attract insect pollinators which then become its prey; this is an example of mimicry
Scientists believe that orchid mantis are 'aggressive mimics', meaning that they are more attractive to insects than the surrounding orchid flowers
The male orchid mantis is much smaller and plainer in appearance, allowing it to camouflage in amongst the stems and branches of plants
CC BY-SA 3.0, via Wikimedia Commons
The orchid mantis is camouflaged on the surface of the orchid
You've read 0 of your 5 free revision notes this week
Sign up now. It’s free!
Did this page help you?