Interactions Within Ecosystems Chapter 2 Grade 7 Science Unit 1 Interactions Within Ecosystems Chapter 2
Symbiosis Interactions between the biotic parts of the environment. There are 3 types: Parasitism Mutualism Commensalism
1. Parasitism One organism will benefit (the parasite) and the other is harmed (the host). Ex: tape worm; dwarf mistletoe
2. Mutualism Both organism benefit. Lichen = algae + fungus
3. Commensalism One organism benefits while the other neither gains or loses.
Symbiosis Work with a Partner. Come up with 3 examples of each type of symbiosis (parasitism, mutualism, commensalism). Be able to explain how each organism is affected in each example.
Roles of Organisms in the Ecosystem Producers Consumers Decomposers Scavengers
1. Producers Plants can produce their own food from the abiotic environment. (photosynthesis) Water + carbon dioxide + Sunlight Food (sugar) + oxygen
2. Consumers Animals must consume, eat other organisms. (the biotic environment) Can be classified as... herbivores, carnivores, or omnivores.
Herbivore: Animals that eat ONLY plants (producers).
Omnivore: Animals that eat both plants AND animals.
Carnivore: Animals that eat ONLY other animals.
3. Decomposers Organisms that break down dead and waste materials into their basic parts. They release chemicals that break apart dead tissues and cells and absorb the nutrients for their own use.
Examples include bacteria and other microorganisms, fungi and worms.
4. Scavengers Animals that eat decaying animals and waste materials. Examples include vultures, dung beetle larvae, houseflies, crows and some gulls.
Microorganisms... are found in a variety of habitats (air, soil, water) play important roles in relation to human food supplies have been studied to enhance food preservation techniques
Conditions that affect Microorganism Growth Temperature Moisture Light Acidity Salinity
Food Preservation Creates an environment which destroys existing decomposers and then prevents or slows down their growth rate.
Methods of Food Preservation Pickling Salting Drying Smoking (the above started out of necessity )
(These are more modern and technology based.) Refrigerating Freeze-drying Radiation Canning (These are more modern and technology based.)
Food Chains The transfer of energy from organism to organism. Arrows show the direction of energy flow. Green plants are the food (energy) source for all consumers and decomposers.
Producers Primary Consumers Secondary Consumers
A Sample Food Chain
Food Webs Interconnecting food chains.
A Marine Food Web
Energy Pyramids Describes the gradual loss of energy in food chains About 10% is lost as you move from one level to the next and 10% of the new energy is lost as you move up and so on.
Note: Energy pyramids are not exact Note: Energy pyramids are not exact. Energy is transferred to other types (eg. heat) as it moves from one level to the next. ie. Not all of the 10% is transferred. Energy in hawk: 10 J Energy in weasel: 100 J Energy in mice: 1000 J Energy in grass: 10 000 J
Nutrient Cycles Nutrients, such as nitrogen and carbon, are recycled in the environment. All organisms are eventually recycled and their nutrients are returned to the soil by the action of decomposers.