Transfer of Energy & Matter (DP IB Biology)

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  • Define the term ecosystem.

    An ecosystem is all of the organisms in a community interacting with each other and with the non-living parts of the environment.

  • What is the difference between an open system and a closed system in terms of energy and matter?

    The difference between an open system and a closed system is:

    • open system: both matter and energy can enter and exit the system

    • closed system: energy can enter and leave but matter can only be recycled within the system

  • True or False?

    Ecosystems are open systems.

    True.

    Ecosystems are open systems; both energy and matter can enter and exit.

  • How does energy enter and leave an ecosystem?

    Energy enters and leaves an ecosystem as follows:

    • energy enters an ecosystem:

      • primarily in the form of sunlight

      • stored in the tissues of organisms that migrate into the system

    • energy leaves an ecosystem when it is stored in the molecules of organisms that leave the system

  • True or False?

    Sunlight is the initial source of energy for most food chains.

    True.

    The sun is the initial source of energy for most food chains.

  • What is the difference between a law and a theory in science? (NOS)

    A law describes a pattern observed in nature without explaining it, while a theory provides an explanation for phenomena.

  • True or False?

    Both laws and theories can be used to make predictions in science. (NOS)

    True.

    Both laws and theories can be used to make predictions in science.

  • How is the statement that 'light is the initial energy source for ecosystems' an example of a useful generalisation? (NOS)

    The statement that 'light is the initial energy source for ecosystems' is a useful generalisation because it is true in the vast majority of situations, but there are a small number of unusual exceptions.

  • What happens to chemical energy stored in carbon compounds when a plant is ingested by a primary consumer?

    The chemical energy stored in carbon compounds is passed to the primary consumer when the plant is ingested.

  • How can the feeding relationships in a community be visually represented?

    The feeding relationships in a community can be visually represented using:

    • food chains

    • food webs

  • What is represented by the arrows in a food chain?

    The arrows in a food chain represent the transfer of energy and biomass from one trophic level to the next.

  • How do food webs differ from food chains?

    Food chains show a single energy transfer pathway within a community, while food webs show how several food chains are interconnected.

  • What is the source of energy for decomposers in ecosystems?

    Decomposers gain their energy from carbon compounds in:

    • dead organisms

    • dead parts of organisms

    • faeces

  • What are autotrophs?

    Autotrophs are organisms that use external energy sources to produce their own carbon compounds from simple inorganic substances.

  • Define the term carbon fixation.

    Carbon fixation is the conversion of inorganic carbon dioxide into organic carbon compounds, e.g. carbohydrates.

  • True or False?

    Energy is required for carbon fixation.

    True.

    Carbon fixation requires energy, e.g. photosynthesis uses energy from sunlight.

  • What are anabolic reactions?

    Anabolic reactions build large macromolecules from smaller molecules, e.g. glucose molecules being used to produce starch or cellulose.

  • What is a photoautotroph?

    Photoautotrophs are organisms that use light energy for the production of carbon compounds.

  • What is the energy source for chemoautotrophs?

    Chemoautotrophs gain energy from oxidation reactions.

  • What is an example of a chemoautotroph?

    An example chemoautotrophy is found in bacteria that produce ATP by oxidising iron.

  • True or False?

    All heterotrophs carry out internal digestion.

    False.

    Some heterotrophs use internal digestion while others use external digestion.

  • How do autotrophs and heterotrophs release the energy stored in their carbon compounds?

    Energy is released from carbon compounds in both autotrophs and heterotrophs by oxidation during the process of cellular respiration.

  • Define the term trophic level.

    A trophic level is the position of an organism in a food chain, indicating the number of organisms through which energy has passed.

  • Define the term producer in the context of food chains.

    Producers are organisms that produce their own carbon compounds using, e.g. light energy

  • What is the role of primary consumers in a food chain?

    Primary consumers are herbivores that feed on plant tissue. The energy stored in the bodies of primary consumers can then be transferred to secondary consumers.

  • True or False?

    Secondary consumers are found at the second trophic level of a food chain.

    False.

    Secondary consumers occupy the third trophic level of a food chain.

    Primary consumers are found at the second trophic level.

  • What do tertiary consumers feed on?

    Tertiary consumers are carnivores that feed on secondary consumers.

  • True or False?

    Organisms can only occupy one trophic level of a food web.

    False.

    Many organisms have a varied diet, meaning that a species may be present at more than one trophic level in different food chains within a food web.

  • What do pyramids of energy illustrate?

    Pyramids of energy illustrate the energy contained within the biomass of organisms in a food chain.

  • True or False?

    Pyramids of energy allow us to see the energy transferred and lost at each trophic level.

    True.

    Pyramids of energy allow us to see the energy transferred and lost at each trophic level.

  • What happens to the energy available as you move up a pyramid of energy to higher trophic levels?

    As you move up a pyramid of energy to higher trophic levels, the energy available decreases.

  • How should pyramids of energy be drawn?

    Conventions of drawing pyramids of energy include:

    • pyramids drawn to scale so that each bar is proportional in size to the energy it represents

    • levels labelled: producer, primary consumer, secondary consumer etc.

    • units should be energy per unit area per year, e.g. kJ m-2 year-1

  • True or False?

    All of the energy stored in the tissues of an organism is available to consumers at the next trophic level.

    False.

    Only around 10 % of the energy stored in the tissues of an organism is available to the consumer at the next trophic level; the remaining 90 % is lost to the environment.

  • Why is only 10 % of the energy in a food organism transferred to a consumer's tissues?

    Only 10 % of the energy in a food organism transferred to a consumer's tissues because:

    • not every part of the food organism is eaten

    • consumers are not able to digest all of the food they ingest

    • heat is lost by the consumer during respiration

    • energy is lost by the consumer due to excretion

  • How is energy lost due to incomplete consumption of food organisms?

    Energy is lost due to incomplete consumption when parts of the food organism are not eaten, such as the roots and woody parts of plants, or the bones of animals. The energy stored in the uneaten parts is lost from the food chain.

  • True or False?

    Decomposers are usually considered to be part of food chains.

    False.

    Decomposers and detritus feeders are not usually considered to be part of food chains.

  • How does excretion contribute to energy loss in food chains?

    The excretion of waste products results in energy loss because energy is transferred to metabolic waste products, such as urea; this energy is then removed from the food organism during excretion and is not passed on.

  • What is the role of detritivores and saprotrophs in energy loss from food chains?

    Detritivores and saprotrophs are involved with energy loss from food chains when they:

    • decompose the parts of organisms that are not eaten

    • break down undigested waste material

    • decompose the bodies of organisms that die and are not consumed

    The energy that is transferred to decomposers during these processes is not available to the rest of the food chain.

  • What happens to the energy that remains in the tissues of organisms after energy losses in a food chain?

    The energy that remains in the tissues of organisms after energy losses is stored in carbon compounds, which are available to be passed on consumers at higher trophic levels.

  • How is heat energy lost from food chains in cellular processes?

    Heat is lost to the environment during cellular respiration and when ATP is used in other cellular processes.

  • Why are food chains limited in length?

    Food chains are limited in length because of energy losses at each trophic level. There is less energy available to consumers as you go up the food chain, meaning that it becomes too difficult for a predator to hunt enough prey to gain the energy to survive.

  • True or False?

    There is less energy stored per unit of biomass at higher trophic levels of food chains.

    False.

    There is less biomass at higher trophic levels, but the energy content per unit mass is not reduced.

  • What is primary production?

    Primary production is the accumulation of carbon compounds in the biomass of autotrophs.

  • How is the rate of primary production typically expressed?

    The rate of primary production is expressed in units of biomass, per unit area (or volume), per unit time, e.g. g m–2 yr-1.

  • What units can be used to measure primary production in an aquatic habitat?

    In an aquatic habitat primary production might be measured in g m-3 yr-1 (biomass, per cubic metre, per year).

  • In which types of biome does primary production occur more quickly?

    Primary production occurs more quickly in biomes with more hours of sunlight, optimum temperatures, and higher levels of rainfall, e.g. in tropical forest biomes.

  • What is secondary production?

    Secondary production is the accumulation of carbon compounds in the tissues of heterotrophs.

  • Why is the rate of secondary production always lower than the rate of primary production in an ecosystem?

    The rate of secondary production is lower that the rate of primary production due to the to loss of biomass that occurs when carbon compounds are converted to carbon dioxide and water during cell respiration.

  • What is the role of photosynthesis in the carbon cycle?

    The role of photosynthesis in the carbon cycle is the transfer of carbon from the atmosphere to the tissues of plants.

  • How is carbon passed between living organisms in the carbon cycle?

    Carbon passes between living organisms in the carbon cycle by feeding.

  • What is the role of respiration in the carbon cycle?

    The role of respiration in the carbon cycle is to transfer carbon from:

    • the tissues of plants to the atmosphere

    • the tissues of animals to the atmosphere

    • the tissues of dead organisms and from waste matter to the atmosphere (when decomposers respire)

  • What are the processes marked A-D in the carbon cycle diagram?

    Diagram illustrating the carbon cycle, showing labelled arrows: A (between the atmosphere and plants), B (between plants/animals and the atmosphere, C (between dead tissue and the atmosphere) and D (between fossil fuels and the atmosphere).

    The processes are:

    • A = photosynthesis

    • B = respiration

    • C = respiration (of decomposers)

    • D = combustion

    Diagram illustrating the carbon cycle, showing labelled arrows: A (between the atmosphere and plants), B (between plants/animals and the atmosphere, C (between dead tissue and the atmosphere) and D (between fossil fuels and the atmosphere).
  • Define the term carbon sink.

    A carbon sink is a part of the carbon cycle that takes up and stores carbon.

  • What is a carbon source?

    A carbon source is a part of the carbon cycle that releases carbon.

  • True or False?

    Plants always function as carbon sinks.

    False.

    Plants function as carbon sinks only when their rate of photosynthesis is higher than their rate of respiration.

  • How does combustion affect the carbon cycle?

    Combustion affects the carbon cycle by transferring carbon from carbon sinks to the atmosphere. Carbon sinks that can release carbon by combustion include:

    • coal

    • oil

    • natural gas

    • peat

    • biomass

  • True or False?

    Burning biomass has the same impact on atmospheric carbon dioxide as burning fossil fuels.

    False.

    Burning biomass is considered to have a less significant impact on atmospheric carbon dioxide than burning fossil fuels; this is because the the carbon contained in plant tissues has been removed from the atmosphere relatively recently in comparison to that stored in fossil fuels.

  • How have human activities affected the importance of combustion in the carbon cycle?

    Human activities have increased the amount of combustion taking place, due to increased combustion of fossil fuels, and due to increased numbers of forest fires as a result of climate change. This has increased the impact of combustion on the carbon cycle.

  • What is the Keeling curve?

    The Keeling curve is a graph that shows the ongoing change in the concentration of carbon dioxide in Earth's atmosphere, based on continuous measurements taken at the Mauna Loa Observatory since 1958.

  • What causes the seasonal fluctuations in atmospheric carbon dioxide levels shown in the Keeling curve?

    The seasonal fluctuations in atmospheric carbon dioxide levels shown in the Keeling curve occur due to seasonal changes in rates of photosynthesis.

  • Why does the Keeling curve show that atmospheric carbon dioxide levels decrease during the spring and summer?

    The Keeling curve shows that atmospheric carbon dioxide levels decrease during the spring and summer because photosynthesis occurs at a higher rate during these seasons and removes more carbon dioxide from the atmosphere.

  • What is the overall trend in atmospheric carbon dioxide levels as shown on the Keeling curve?

    The overall trend in atmospheric carbon dioxide levels shown on the Keeling curve shows a steady increase in atmospheric carbon dioxide levels; this is due to human activities like the combustion of fossil fuels.

  • How does aerobic respiration depend on photosynthesis?

    Aerobic respiration depends on photosynthesis because photosynthesis releases oxygen as a waste product.

  • What is the global interaction between autotrophs and heterotrophs involving photosynthesis and respiration?

    The global interaction between autotrophs and heterotrophs, involving photosynthesis and respiration, includes:

    • the combined photosynthesis of all photosynthetic organisms removes carbon dioxide from the atmosphere and releases oxygen

    • the combined respiration of all aerobically respiring organisms removes oxygen and releases carbon dioxide

  • Define the term carbon flux.

    Carbon fluxes are the processes that transfer carbon, such as photosynthesis and respiration.

  • True or False?

    All elements used by living organisms are recycled in ecosystems.

    True.

    All elements used by living organisms, not just carbon, are recycled in ecosystems.

  • What role do decomposers play in nutrient cycling?

    During nutrient cycling decomposers break down organic molecules in dead tissues and waste, making nutrients available again to producers.