Download presentation
Presentation is loading. Please wait.
1
Ecology
2
How is Earth a living planet?
How do we study it?
3
Ecology: Study of interconnectedness of living things.
How organisms interact and depend on each other for survival How they interact with and affect their environments
4
What’s the Connection? Ex: Bee and Flower Ex: Squirrel and Oak tree
Ex: Mosquitoes and Frogs Ex: Human driving a car and planet
5
Levels of Ecological Organization
Ecologists study different levels within the environment Individual Organisms Populations Communities Ecosystems Biomes Biosphere
6
What might we study about…
Organisms: Looks at behavior of individuals Only part of the story because individuals depend on each other for food, shelter and protection Ex: movements, feeding behavior, offspring produced, sleep cycles, migration patterns Ex: One white tailed deer
7
What might we study about…
Populations: group of individuals of same species that live in same area and interbreed Ex: Herd of white tailed deer Look at how populations utilize resources. How large is the population? Is it increasing, declining? What diseases may be affecting it What are affects of pollution on population
8
Why is it a good adaptation in many species for the juveniles to consume a different food source and live in a different part of the environment? Adaptation to reduce competition for resources!
9
What might we study about…
Communities: populations of different species that interact and inhabit the same environment. A change in one population in a community will usually change and affect the other populations Ex: Forest Community
10
How does an increase in hawk population affect the mouse population?
What other affects would that have on other plant and animal species in the community?
11
What might we study about…
Ecosystems: Communities of organisms interacting with each other and with their physical environment. Can involve hundreds of different species
12
Terrestrial Ecosystems: on land
Ex: Forest, meadow, desert, taiga, tundra Aquatic Ecosystems: in fresh or salt water Ex: Freshwater: Ponds, lakes, rivers, streams Ex: Marine (salt): oceans
13
What are some of the effects of deforestation on tropical rainforest ecosystems?
15
Characteristics of a Balanced Ecosystem
Constant source of energy (ex: sunlight) Population of organisms that can store that energy in a usable form (autotrophic “producers”) Flow of energy from one population to another Way for materials and nutrients to be recycled
16
Biomes: group of ecosystems with similar climates & typical organisms
Tropical Grassland Tropical Rain Forrest Desert Tundra Temperate Deciduous Forest Taiga: Coniferous Forest
17
Biosphere: portion of planet that supports life, (land, water, air)
A very thin layer of Earth’s total area, but it extends high into atmosphere and deep into oceans (ex: The peel of an apple)
18
Living and Nonliving Environment
The physical environment and living environment are connected in many ways Some abiotic factors How might they affect life here?
19
Biotic and Abiotic Factors
Biotic Factors: living things in an environment that affect other living things Ex: Predators, parasites, worms in soil, decomposers recycle materials Abiotic Factors: nonliving parts of environment that affect living things Light: intensity and duration (depends on latitude) Temp: varies with latitude and altitude Water: amount of precipitation Short Clips: Biotic and Abiotic Factors:
21
Resources that are available in the shortest supply
Limiting Factors Resources that are available in the shortest supply Ex: Availability of food Amount of moisture in the desert Amount of usable nitrogen in soil
22
Energy Flow in Ecosystems
All organisms need energy to power life’s processes Where does this energy come from? How is it transferred from one organism to another?
23
Trophic Levels Each step in a food chain or food web is called a trophic level. Primary producers are always in the first trophic level
24
Primary Producers (First Trophic Level) Autotrophs
Utilize energy from either sunlight or chemical compounds to make their own food Usually at the base of a “food chain”
25
Capturing Energy Photosynthesis Chemosynthesis
Captures light energy using special pigments Converts carbon dioxide and water into sugars Chemosynthesis Harnesses chemical energy from inorganic molecules such as hydrogen sulfide Ex: Bacteria in deep sea volcanic vents
26
(Second, Third, Forth Trophic Levels etc…) Heterotrophs
Consumers (Second, Third, Forth Trophic Levels etc…) Heterotrophs Acquire energy and nutrients from eating other organisms Can’t make own food
27
Types of Consumers Herbivores: (Primary Consumers) eat plants
28
Carnivores: (Secondary Consumers)
usually kill and eat other animals (often eat herbivores)
29
Scavengers: (Secondary/Tertiary Consumers)
Eats dead animals (both herbivores and carnivores)
30
Omnivores: (Primary & Secondary consumers)
Eat both plants and animals
32
Decomposers: (Saprophytes)
Break down dead material at all levels of food chain
33
Food Chains and Food Webs
Short Clip:
34
Food Chains: series of steps in which organisms transfer energy by eating and being eaten.
35
Food Webs: show more complex feeding relationships and how they are interrelated
Link together all the food chains in an ecosystem
36
Food Webs
37
Importance of Decomposers:
Eat both producers and consumers Always the final consumer in any food chain or web Help return nutrients from dead material back to environment Without them nutrients would remain locked within dead organisms Recyclers! Decomposers: Rabbit decomposition:
38
Pyramids of Energy Show relative amount of energy available at each trophic level On average only 10% of the energy is transferred to the next level. Most energy available at bottom
39
10% Rule Part of the energy is lost as heat or is used by organism to carry out life functions. Some food is not completely digested
40
Pyramids of Biomass Shows the total amount (mass) of living organic matter available at each level.
41
Pyramid of Numbers Shows relative numbers of organisms at each trophic level
43
How and Where Organisms Live
Niche: the role a species plays in it’s community How it uses and affects its environment. What it feeds on Where it lives What preys on it Ex: Grass = producer Mushroom = decomposer Centipede = predator Worms = burrow through soil eating organic material
44
Habitat: where an organism lives it’s life
Ex: burrow, cave, lake, forest, soil Although several species may share a habitat, the food, shelter and other resources are divided into separate niches Distinct behaviors have developed to reduce competition for available resources
45
Ex: Decaying Log has Many Niches
Animals feed in different ways on different materials Millipede: eats decaying leaves, Worm: eats organic material in soil, Centipede eats other insects
47
Competition: arises when niches overlap
More than one species has same requirements Compete for same resources Organisms have evolved to be specialized and adapted to exist in their specific niche in an ecosystem
48
Interspecific Competition:
between different species for same niche and resources Intraspecific Competition: between same species for same niche and resources
49
Niche Clips:
50
Food Chain Song: Summary of Key Terms: Ecosystems and biomes:
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.