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5.1 Communities and Ecosystems. Assessment Statements. Define species, habitat, population, community, ecosystem, and ecology Distinguish between autotroph and heterotroph Ditinguish between consumer, detritivores and saprotrophs
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Assessment Statements • Define species, habitat, population, community, ecosystem, and ecology • Distinguish between autotroph and heterotroph • Ditinguish between consumer, detritivores and saprotrophs • Describe what is meant by a food chain, giving three examples, each with at least 3 linkages (4 organisms) • Describe what is meant by food web • Define trophic level • Deduce the trophic level or organisms in a food chain and a food web • Construct a food web containing up to 10 organisms, using appropriate information • State that light is the initial energy source for almost all communities • Explain the energy flow in a food chain • State that energy transformations are never100% efficient • Explain reasons for the shape of pyramids of energy • Explain that energy enters and leaves ecosystems, but nutrients must be recycled. • State that saprotrophic bacteria and fungi (decomposers) recycle nutrients.
Create a food chain with at least 5 organisms 1. Ocean 2. Freshwater Lake 3. Desert 4. Temperate Forrest 5. Rain Forrest 6. Antarctic Ocean 7. Tundra 8. Savanna 9. Temperate Grassland 10.Coral Reef Label Autotrophs/ Producers, and Heterotrophs/Consumers Show energy flow of food chain with arrows Label the Trophic Levels Include decomposers at the end of the chain What are detritivores and saprotrophs?
Species: a group of organism that can interbreed and produce fertile offspring
Habitat: the environment in which a species normally lives or the location of a living organism
Population: a group of organisms of the same species who live in the same area
Community: a group of populations living and interacting with each other
Ecology: the study of relationships between living organisms and between organisms and their environment
Ecosystem: a community and its abiotic (non-living; temperature, humidity, wind, rainfall etc.) environment
Autotroph/Heterotroph Autotroph: an organism that synthesizes its organic molecules from simple inorganic substances Heterotroph: an organism that obtains organic molecules from other organisms
Consumers: an organism that ingests other organic matter that is living or recently killed. Detritivore: an organism that ingests non-living organic matter. Saprotrophs: an organism that lives on or in non-living organic matter, secreting digestive enzymes into it and absorbing the products of digestion, examples; bacteria and fungi
Define the terms species, population and community. Species: Population:. Community: [3]
Trophic level Trophic level is the position of an organism in a food chain 5thtrophic level 4thtrophic level 3rdtrophic level 2ndtrophic level 1sttrophic level
Describe what is meant by a food chain using an example with four named organisms. [4] food chains describe the feeding relationships between species; arrows show (one) path of energy flow in an ecosystem / energy flow described; food chain with arrows pointing in the correct direction; producer first step in chain; three other named organisms making a realistic food chain; [4 max] Accept explicit common names exact enough to identify the food source e.g. Oak not tree, sparrow not bird, rye grass not just grass, etc.
Food Web Few consumers feed on only one source of food. A food web shows a much more realistic picture of the feeding relationships of the organisms in a habitat.
Organisms can change trophic levels depending on what they are eating at any particular time.
The diagram below shows a simplified food web for a lake State the initial energy source for the above food web. [1] Define the term trophic level. [1] Deduce the trophic level of the immature game fish.[1] In the food web shown, identify one heterotroph and one autotroph. [1]
Explain, using an example of a food chain, how trophic levels can be deduced. [4]
Energy and Food Chains State that light is the initial energy source for almost all communities.
Energy and Food Chains Arrows in a food chain show the direction of flow of both the energy and nutrients that keep organisms alive. Energy flow through an ecosystem can be quantified and analyzed. At each step in the food chain, energy is lost from the chain in various ways. Some is not consumed, some leave the food chain as waste or when an animal dies, and some is used by living organisms as they respire. The lost energy cannot be passed to the next trophic level.
An area of the African savannah where grass, antelopes and cheetahs form a simple food chain Energy loss 1 –not consumed. The grass stores energy from photosynthesis but antelopes only eat some parts of the grass, so they don’t consume all the energy stored. Energy loss 2- not assimilated. The grass that is eaten passes through the digestive system of the antelope but not all of it is digested and absorbed, some passes out in the feces. Energy loss 3- cell respiration. The antelope uses energy to move and keep its body temperature constant. As a result, some energy is lost to the environment as heat. The energy remaining after respiration goes into building the antelope’s body, and this energy becomes available to the cheetah when it eats the antelope.
Transfer of energy between trophic levels is represented by energy pyramids.
The width of each of the levels in the pyramid is proportional to the amount of energy it represents
Energy losses occur at every step in a food chain. Every link in the chain results in losses, so that eventually there will be insufficient energy to support any further trophic levels. That’s why most food chains contain between 3 and 5 organisms. Energy enters an ecosystem is light, converted to stored chemical energy and finally is lost as heat.
The diagram below represents an energy pyramid and four trophic levels. Identify the trophic level of the organisms indicated below. I: IV [2] (ii) Calculate the approximate amount of energy in kilojoules transferred in m–2 yr–1 from trophic level I to trophic level II. ______________________kJ
Explain the reason for the shape of a pyramid of energy. [3]
Energy Flow and Nutrient Recycling All organic matter from organisms, including everything from living or dead material or waste, is eventually consumed by other organisms. All these organisms respire and release energy as heat. All the energy that enters an ecosystem as light energy is trapped by photosynthesis, will eventually be converted to heat and become unavailable to be used again by living things.
Nutrients are continually recycled. A nitrogen atom may be absorbed as nitrate by a plant root, and used to make an amino acid. The amino acid may pass into an Animal when the plant is eaten, And then pass out of the animal’s Body during excretion. Soil bacteria may convert urea In the excreted material back Into nitrate and the cycle begins.
STATE: Saprotrophic bacteria and fungi (decomposers) recycle nutrients