Ecology

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Created by
Molly

Cards (61)

  • Ecosystem
    all the organisms living in a habitat and the non-living parts of the habitat.
  • Habitat
    the area or natural environment in which an organism or population normally lives.
  • Community
    made up of many populations living together
  • Population
    groups of individuals of the same species
  • Competition
    the contest between organisms for resources such as food and shelter
  • Interdependence
    all the organisms in a community depend upon each other and, because of this, changes to them or their environment can cause unforeseen damage.
  • Invasive species
    an organism that is not native and causes negative effects.
  • Abiotic factors

    Non-living conditions that affect the distribution of an organism.
  • Biotic factors
    caused by living organisms affecting their environment.
  • Abiotic
    the non-living parts of the environment.
  • Biotic
    the living parts of the environment.
  • Extreme environment
    a location in which it is challenging for most organisms to live.
  • Extremophile
    an organism that can survive in a very extreme environment, including:
    • very high or low temperatures
    • high salt concentrations
    • high pressures
  • Structural adaptations
    an advantage to an organism as a result of the way it is formed, like gills in fish.
  • Physiological adaptation/Functional adaptation
    an advantage to an organism as a result of a process, such as the production of poisonous venom or camels not sweating.
  • Behavioural adaptations
    an advantage to an organism as a result of behaviour, such as a mating ritual or hibernation.
  • Examples of abiotic factors:
    • Temperature
    • Light intensity
    • carbon dioxide levels for plants
    • oxygen levels for animals that live in water
    • moisture levels
    • wind intensity and direction
    • soil pH and content for plants.
  • Examples of biotic factors:
    • Food availability
    • new pathogens
    • new predators
    • competition between species
  • Surface area to volume ratio:
    • The smaller the sa:vol, the less efficient it is at losing heat.
    • The larger the sa:vol, the more efficient it is at losing heat.
  • Animal adaptations-camel:
    • Thick fur to keep the sun's heat away during the day and provide warmth at night.
    • Hump to store fat as food to provide energy for long periods of time.
  • Animal adaptations-camel:
    • Very long intestines to reabsorb as much water from foods eaten as possible.
    • Long, muscular legs to allow them to walk for miles across the desert.
  • Animal adaptations-camel:
    • Long eyelashes to keep sand out of eyes.
    • Thin nostrils that can be closed to prevent sand from blowing in.
  • Animal adaptations-camel:
    • Leathery knees to help prevent burning when kneeling on hot sand.
    • Wide feet help to spread camel's weight so it is easier to walk on sand.
    • Leathery pads on feet to protect them from heat and to stop the camel from sinking into sand.
  • Animal adaptations-polar bear:
    • Large animal so small sa:vol to prevent heat loss.
    • Small eyes and ears to prevent heat loss.
    • Thin nostrils to prevent snow blowing in.
  • Animal adaptations-polar bear:
    • Sharp teeth and claws for hunting.
    • Wide feet and thick skin on feet to spread weight on the snow and to keep them warm.
  • Animal adaptations-polar bear:
    • White fur to camouflage into the environment when hunting.
    • Thick fur to prevent heat loss.
    • Thick layer of blubber (fat) to conserve heat and prevent heat loss.
  • Synchronised birth - behavioural feature

    Animals such as wildebeest try to give birth at the same time, reducing the chance of all of the calves being eaten by predators.
  • Extremophiles can survive in conditions that would kill most species. Some bacteria live in hot springs or around deep-sea vents. Others live in extreme cold.
    Examples: water bears, Loricifera, Grylloblattidae, Giant Tube Worms, Snottites.
  • Plant adaptations-cactus:
    • Waxy cuticle covering fleshy leaves to help store water and protect it from the sun. Also prevents evaporation.
    • Can have long vertical roots growing deep into the soil to reach the water table.
  • Plant adaptations-cactus:
    • Prickles and spikes on stem to protect against thirsty animals.
    • Can have roots growing horizontally in the top layers of the soil to collect surface water and to provide stability.
    • Some have a small sa:vol by not having leaves to reduce water loss.
  • Plant adaptations-cactus:
    • No leaves to prevent water loss through transpiration.
    • Some store water in special tubers or bulbs.
    • green chlorophyll in stem, chloroplasts for photosynthesis.
  • Plant adaptations:
    • Flowers open petals everyday in daylight but close them at night, flowers need to be open for pollination but closing them at night protects the flowers.
    • Deciduous trees lose leaves in the Winter to protect the leaves from frost.
    • Pine trees have needle shaped leaves to reduce surface area for water loss.
  • Plant adaptations-Arctic plants:
    • small leaves to prevent water loss
    • grow very close to the ground to stay sheltered.
  • Mimicry
    When an animal has adapted to look like another more poisonous or venomous animal for protection.
  • Examples of mimicry:
    An advantage for the dangerous animal is safety in number and prey may not always run away from it.
    • Hoverflies look like wasps.
    • Coral snake (venomous), Kingsnake (copies)
  • Food chain:
    Producer -> Primary consumer -> Secondary consumer
    • The arrows show the direction of energy flow.
    • They are in trophic levels ("up a trophic level"). Not all energy from a producer will go up a trophic level
  • Predator-prey relationship
    All species in a community depend upon each other. This is known as interdependence. The size of each population is dependent on the other.
  • Mutually beneficial relationship e.gs:
    • Cleaner fish eat dead skin and parasites off of larger fish. They get food and avoid being eaten.
    • Burdock fruits have hooks. They attach to the fur of passing animals for dispersal.
  • Parasitism:
    when one organism benefits but the other is harmed by the relationship.
    • Lice feed on your blood. This makes you tired as the body tries to replace the red blood cells.
    • Tape worms live in the intestines and eat your food, making you malnourished.
  • The water cycle:
    1. Evaporation- water evaporates as it is heated by the sun's energy. Water vapour is carried upwards in convection currents.
    2. Condensation- water vapour rises, cools, and condenses back into water droplets that form clouds.