chapter2
DESCRIPTION
TRANSCRIPT
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•Ch2 – Interaction in Ecosystems•Ch3-Community Ecology•Ch4-Natures Recycling Programs•Ch5- Changing the Balance in Ecosystems
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Interactions in Ecosystems2
• Ecosystems are made up of living things (biotic factors) and non-living things (abiotic factors), which are connected to each other in complex interrelationships.
• Nutrients are cycled within an ecosystem.producers consumers decomposers producers
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Make Yourself a Venn Diagram with the following Terms
EcologyBiosphereOrganismCommunityEcosystemPopulation
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The BiosphereThe biospheres is the global sum of all
ecosystems. It can also be called the zone of life on Earth. From the broadest biophysiological point of view, the biosphere is the global ecological system integrating all living beings and their relationships, including their interaction with the elements of the lithosphere, hydrosphere, and atmosphere.
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• An ecosystem is made up of a community of organisms and the non-living environment.
• The living components of the ecosystem are called biotic factors, which include plants, fish, invertebrates, and single-celled organisms.
• The non-living components, or abiotic factors, include the physical and chemical components in the environment—temperature, wind, water, sunlight, and oxygen.
• Biotic and abiotic factors influence each other in an always changing balance called dynamic equilibrium.
Biotic and Abiotic Factors in Ecosystems2.1
VOCABULARY
ecology
organism
habitat
population
community
ecosystem
biosphere
biotic factor
abiotic factor
dynamic
equilibrium
limiting factor
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Limiting FactorsLimiting factors are environmental influences
that constrain the productivity of organisms, populations, or communities and thereby prevent them from achieving their full biological potential which could be realized under optimal conditions. Limiting factors can be single elements or a group of related factors.
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ProducersPlants harness energy from the sun through
photosynthesisThey are the base of every food chain
Source of food for all other animals
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Consumers4 Types
Herbivore: eats only plants Ex. Cows, horses
Carnivore: eats only meat Ex. Polar bear
Onmivore: eats plants and animals Ex. Humans, grizzly bears
Scavenger: carnivore that feeds on bodies of dead organisms Ex. Vultures
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DecomposerDecomposers break down wastes and dead
organisms and return the raw materials to the environmentEx. Bacteria, fungi
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• Nutrients are cycled back into the ecosystem, but energy only moves in one direction through the community from producers to herbivores to carnivores.
• Trophic level describes the position of the organism in relation to the order of nutrient and energy transfers in an ecosystem. Organisms that eat the same type of food belong to the same trophic level.
• Food chains show a single pathway taken by nutrients and energy through the trophic levels.
• In reality, ecosystems have more complex food webs, showing the different cross-linked food chains.
Trophic Levels and Energy Flow2.4
VOCABULARY
trophic level
food chain
food web
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Interactions in Ecosystems• Energy flows through ecosystems.
• This energy comes from an outside source: the Sun.
• Ecologists represent food and energy flows in food chain, food web, and pyramid diagrams.
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Interactions in Ecosystems
Activity
Using the food web on the right, predict what might happen if a disease killed all the krill in the ecosystem. Which species would be affected, and how? Try drawing a new food web.
2CHAPTER
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Ecological Roles and RelationshipsVOCABULARYnutrients
producer
autotroph
phytoplankton
consumer
heterotroph
herbivores
primary consumer
zooplankton
carnivore
omnivore
detrivore
decomposer
biodegradation
predation
predator
prey
predator–prey
cycle
• An ecosystem is a complex network of interactions.
• All organisms must take in water, food, and nutrients. Nutrients are elements and compounds that organisms need to live and grow.
• Organisms can be producers, consumers, herbivores, carnivores, or decomposers in ecosystems.
• Eventually nutrients cycle back into the ecosystem for the producers.
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Symbiosis2.3
VOCABULARY
symbiosis
mutualism
commensalism
parasitism
host
parasite
• Symbiosis refers to any close relationship between two different species. There are three types of symbiotic relationships:
1. Mutualism is a relationship in which both species obtain some benefit from the interaction.
2. Commensalism is an interaction in which one organism benefits while the other is unaffected.
3. Parasitism occurs when one organism (the parasite) lives and feeds on, or in, the body of another organism (the host).
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ILLUSTATIVE EXAMPLES
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Commensalisms :Commensalism usually occurs between a
species that is either vulnerable to predation or with an inefficient means of locomotion, and another species with a relatively effective system of defence.
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Ex. Of CommensalismThe Anemone crab on its
host sea anemone.
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One especially amazing example of commensalism occurs between the Pearlfish and a particular species of sea cucumber. The Pearlfish spends the day inside the alimentary tract (‘intestines’) of the sea cucumber, and at night emerges from its anus to feed on small crustaceans! In this manner it gets a safe place to live; and while not appearing to gain any benefit from the relationship, the cucumber is not harmed.
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Parasitism :In a parasitic relationship, the host species is
always exploited to some degree, although often in such a way that its health is impaired only slowly. This allows the parasite to exploit its host over a longer period. Many parasites only spend a portion of their lives in the relationship, either to reproduce, or during an initial growth stage.
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Parasites can be divided into two basic categories, Ectoparasites and Endoparasites, the former referring to external parasites, and the latter internal parasites.
Ectoparasites Endoparasites
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Mutualism :Mutualism is one of the most interesting forms of
symbiosis, as it is a benefit to both species involved.
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the Boxer crab, carries a pair of small anemones in its claws. When approached by a predator it waves these around presenting the stinging tentacles so as to deter the marauder. The anemones benefit from the small particles of food dropped by the crab during feeding.
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Mimicry ;Mimicry is a form of symbiosis where a species may
mimic the colours, patterns, or even behaviour of another species for one of two reasons. Either to be able to get closer to unsuspecting prey or in the case of a harmless species; to gain protection by imitating a predator or poisonous species.
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One of the most interesting mimic species is the Mimic octopus. It takes on the form of a variety of different animals by bunching up or elongating its arms to mimic anything from a stingray to a Lionfish or even a sea-snake. It could be that this species employs mimicry both as a means of defence and predation
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A particular type of mutualistic interrelationship that many divers will have encountered is ‘Cleaning symbiosis’, The fish being cleaned are often termed ‘client fish’ and the sites they go to to be cleaned are known as ‘Cleaning stations’ ... in tropical waters these areas of the reef are quite clearly defined by the numbers of stationary fish and their attendant cleaner organisms.
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• Ecologists use three different types of ecological pyramids to illustrate ecosystems:
1. Pyramid of energy: represents how much energy is available in each trophic level
2. Pyramid of numbers: represents the actual number of organisms present in each trophic level
3. Pyramid of biomass: represents the total mass of living things in each trophic level
Ecological Pyramids2.5
VOCABULARY
ecological pyramid
food pyramid
pyramid of energy
pyramid of
numbers
pyramid of
biomass
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Energy Pyramid2nd Law of Thermodynamics: energy is not
transferred from one object/organism to the next with 100% efficiencySome of the energy is lost to the environment
Energy Pyramid shows the amounts of energy that moves from one level to the next
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Sample Energy Pyramid
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Energy TransferOnly about 10% of energy is transferred from
one level to the nextThe other 90% is used by the organism to carry
out its life processes or it is lost to the environment
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