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Notes: Energy in Ecosystems, Different Ecosystems and Environmental Succession

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Sci.7.12B, Sci.7.8B and Sci.7.12D What is an Ecosystem? An ecosystem is composed of all the living and nonliving things that interact in a particular area. – PowerPoint PPT presentation

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Title: Notes: Energy in Ecosystems, Different Ecosystems and Environmental Succession


1
Notes Energy in Ecosystems, Different Ecosystems
and Environmental Succession
  • Sci.7.12B, Sci.7.8B and Sci.7.12D

2
What is an Ecosystem?
  • An ecosystem is composed of all the living and
    nonliving things that interact in a particular
    area.
  • All the living things within an ecosystem are
    called biotic factors. Organisms in an ecosystem
    interact with one another. They also interact
    with nonliving things. Plants, bacteria and
    animals are biotic factors.
  • The nonliving things within an ecosystem are
    called abiotic factors. Soil, temperature,
    water, oxygen level, carbon dioxide level,
    nitrogen level are abiotic factors.

3
Parts of an Ecosystem.
  • Every organism gets the resources it needs from
    their surroundings. Organisms live in specific
    environments that provides the things the
    organisms needs-this is called a habitat.
  • An ecosystem will have several habitats. A
    species is a group of similar organisms and will
    live in a specific habitat.
  • All organisms have a role to play within the
    ecosystem-this is its niche. An organisms niche
    includes such things as the type of food it
    eats, how it obtains this food, and the physical
    conditions that it needs to survive and
    reproduce.

4
Energy in Ecosystems.
  • An organisms energy role is determined by how it
    obtains energy (food) and how it interacts with
    the other living things in its ecosystem.
  • An organisms energy role in an ecosystem may be
    that of a producer, primary consumer, secondary
    consumer, tertiary consumer or decomposer.
  • Energy first enters most ecosystems from the sun.

5
Producers
  • Plants, some bacteria and algae (in aquatic
    environments) capture radiant energy from the
    sun. They capture the energy from sunlight and
    use carbon dioxide to create chemical energy in
    the form of glucose . Oxygen is also formed as a
    by-product.
  • Organisms that carry out photosynthesis are
    called autotrophs. They are considered producers
    because they produce their own energy.
  • Producers pass the energy from the sun along in
    the form of glucose to organisms which eat them.

6
The 3 types of consumers.
  • Organisms that cannot make their own energy are
    called heterotrophs. Heterotrophs get their
    energy from producers.
  • Consumers that eat only plants are called
    herbivores. Primary consumers are herbivores
    because they are the first to get the energy that
    plants captured from the sun.
  • Consumers that eat only animals are called
    carnivores. Secondary consumers can be carnivores
    because they will eat the animals which have
    eaten the plants, which captured the energy from
    the sun.
  • Consumers which eat secondary consumers are
    called tertiary consumers. Scavengers can be
    tertiary consumers because they are carnivores
    that feed on the bodies of dead organisms.

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8
Decomposer
  • As the organisms in the ecosystem continue to
    take water, minerals and other raw materials from
    their surroundings-these materials begin to run
    out. When these materials run out new organisms
    will not grow.
  • Organisms create waste and eventually die.
  • Organisms that break down wastes and dead
    organisms and return the raw materials to the
    environment are called decomposers. Two major
    groups of decomposers are bacteria and fungi
    (molds mushrooms).
  • Energy form the sun is transformed into chemical
    energy by producers. Consumers eat producers and
    pass that energy along from organism to organism
    until they die off where decomposers release that
    energy back into the environment. All along the
    amount of energy available to each energy level
    decreases.

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10
Food Chains Food Webs
  • A food chain is a series of events in which one
    organism eats another and obtains energy. The
    first organism in a food chain is always a
    producer. The second organism is a primary
    consumer.
  • A food web consists of many overlapping food
    chains in an ecosystem.

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13
Energy Pyramid
  • When an organism eats food, it obtains energy.
    The organism uses some of this energy to move,
    grow, reproduce and carry out life processes.
    This means that only some of the energy will be
    available to the next organism in the food web.
  • A diagram called an energy pyramid shows the
    amount of energy that moves from one energy level
    to another.
  • Most of the energy in an ecosystem is available
    at the producer level. At each subsequent level
    there is less available energy. Only about 10 of
    the energy contained in one energy level of a
    food web is transferred to the next energy level.

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15
Biomes
  • A biome is a group of ecosystems with similar
    characteristics
  • Different biomes will have different environments
    which will support different types of organisms.

16
  • A community is all the different organisms that
    live together in an area. A community in an
    ecosystem is in equilibrium, or a state of
    balance, when the numbers and species of
    organisms in it do not change suddenly.
  • Fires, floods, volcanoes and hurricanes can
    disrupt the equilibrium of a community by
    changing it drastically in a short period of
    time.

17
Ecological Succession
  • Communities sometimes change even without
    disasters.
  • Succession occurs when populations in a community
    change due to events in the environment. These
    changes may be sudden or they may happen very
    slowly
  • There are two main types of succession primary
    and secondary

18
Primary Succession
  • Primary succession is the series of changes that
    occur in an area where no ecosystem previously
    existed-like a newly formed volcanic island or a
    bare rock.
  • The first species to populate this brand new area
    are called pioneer species.
  • Pioneer species are often lichens and mosses
    carried to the area by wind or water. Mosses and
    lichens can grow on bare rocks with little to no
    soil. As they grow they help break up the rock.
    When the mosses and lichens die they enrich the
    thin layer of soil with their nutrients.

19
Primary Succession
  • Lichen are a mixture of fungi and algae that have
    grown together.
  • Moss are a lot smaller than other plants and do
    not have true leaves or roots.
  • Overtime plant seeds land in the new soil and
    begin to grow. The type of plants that grows
    depends on the biome.
  • Eventually primary succession may lead to a
    community of organisms in equilibrium, which does
    not change drastically unless the ecosystem is
    disturbed. Reaching equilibrium can take
    centuries.

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21
Secondary Succession
  • Secondary succession is the series of changes
    that occur after a disturbance in an existing
    ecosystem.
  • Natural disturbances that have this effect
    include fires, hurricanes, and tornadoes. Human
    activities such as farming, logging, or mining
    may also disturb an ecosystem.
  • Unlike primary succession, secondary succession
    occurs in a place where an ecosystem has
    previously existed. Secondary succession restores
    the ecosystem to a state in which equilibrium can
    be maintained. However the ecosystem may not be
    exactly as it was before the disturbance.
  • Secondary succession occurs somewhat more rapidly
    than primary succession.

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