Presentation is loading. Please wait.

Presentation is loading. Please wait.

Energy in Ecosystems Review

Published byΣταματία Ρόκας Modified over 5 years ago

Similar presentations

Presentation on theme: "Energy in Ecosystems Review"— Presentation transcript:

1 Energy in Ecosystems Review

2 Organic = is currently living or lived in the past
What is a Food Web? a group of food chains showing all of the feeding relationships in an ecosystem. Trophic level — a layer in the feeding relationship of an ecosystem, one link in the food chain/web. Biomass — total amount of organic material present in a trophic level. All Food Webs: Original Energy (SUN) Producers Consumers Decomposers Soil Arrows showing energy flow! So, all producers are at the same trophic level and all primary consumers are at the next trophic level. Food Web = multiple food chains so you can see multiple relationships Relationships – how organisms are connected Trophic Level – one layer of a food chain/food web For example: - All producers are in the same trophic level - All primary consumers are in the same trophic level Biomass: Bio = living Mass = matter or weight of material ORGANIC = is currently living or lived in the past Organic = is currently living or lived in the past

3 Energy/Ecological Pyramids
Another way to look at trophic levels. a diagram showing the relative amounts of energy/biomass in the different trophic levels. Lowest trophic levels are at the bottom: Producers have the greatest biomass. Energy/Ecological Pyramids – another way to look at trophic levels Lowest trophic levels are at the bottom = producers = the most biomass The primary consumers that eat those producers are the next step up on the pyramid (lower biomass – in the whole world and in each smaller ecosystem, there are fewer primary consumers than producers)

4 Example of an Energy Pyramid
1 MAN 10 FOXES 100 RABBITS 1000 Bunches of GRASS MAN 0.1% Energy Lost during conversion to heat, waste…. 10% 100 % of the sun’s energy FOX 90% 1% 10% Rabbit RABBIT 10% 90% 10% Grass 90% Example of an energy pyramid using a single food chain: The decreasing size of the pyramid shows that each level of the pyramid has a smaller and smaller number of those organisms. The arrows showing 10% mean that only 10% of the energy that an organism gets actually goes into making part of the organism’s body. The blue arrows showing 90% leaving the pyramid represent energy that is used up by the organism just to live (and is NOT available for whatever eats that organism later). - The decreasing size of the pyramid shows that each level of the pyramid has a smaller and smaller number of those organisms.

5 Carrying Capacity: Population: How many of a specific species can live in an area? The maximum population a community can tolerate for extended periods of time. Community = the plants and animals found in an area An extended period of time … the environment remains healthy and future generations of organisms are able to continue to live within the community Carrying capacity can also be defined as the number of living things (plants and animals) any area of land or water can support at any one time. Different organisms will have different carrying capacities in the same area. Thus, the carrying capacity of an ecosystem affects everything that lives in it. Populations of most living things tend to fluctuate naturally around a certain level. That level is the carrying capacity. The graph is of a population that is fluctuating (rise and fall) depending upon the year with the blue line showing the carrying capacity within that ecosystem.

6 Look at this picture called “The Full Bucket”
How does this illustration explain this concept?

7 What causes populations to spill over (die or leave)?
Carrying Capacity is usually due to Abiotic Factors Abiotic Factors = non-living characteristics of the environment. For example: Sunlight Moisture Space Pollution Landscape/Terrain

8 What is this illustration trying to tell you about carrying capacity?
This ecosystem is overflowing What are some of the reasons this ecosystem is “spilling over.” This is what limits a population from becoming too large?

9 Limiting Factors: Anything that keeps a population from over-growing the resources available. Consider how changing the factors that affect carrying capacity can alter the population size of a species. Predation Disease Floods Accidents Drought Shade Fire Parasites Storms Hunting Starvation Habitat Loss Pollution

10 New Predator/Prey Website

Download ppt "Energy in Ecosystems Review"

Similar presentations

Ecology Movement of energy.

Ecology Movement of energy.
Interdependence.

Interdependence.
Energy Flow How does energy move through the ecosystem?

Energy Flow How does energy move through the ecosystem?
200 300 400 500 100 200 300 400 500 100 200 300 400 500 100 200 300 400 500 100 200 300 400 500 100 Eco-friendly A special relationship Web Browser What’s.

Eco-friendly A special relationship Web Browser What’s.
4/25/13 DO NOW: Put last night’s Review Sheet in the basket.

4/25/13 DO NOW: Put last night’s Review Sheet in the basket.
Flow of Energy Through Ecosystems B-3.6. Energy Through Ecosystems  The flow of energy through ecosystems can be described and illustrated in food chains,

Flow of Energy Through Ecosystems B-3.6. Energy Through Ecosystems  The flow of energy through ecosystems can be described and illustrated in food chains,
Ecology Standards 6a. Know biodiversity is the sum total of different kinds of organisms & is affected by alterations of habitats 6b. Know how to analyze.

Ecology Standards 6a. Know biodiversity is the sum total of different kinds of organisms & is affected by alterations of habitats 6b. Know how to analyze.
Carrying Capacity, Food Chains, Food Webs, and the Transfer of Energy

Carrying Capacity, Food Chains, Food Webs, and the Transfer of Energy
Unit 2: Ecosystems & Biospheres Energy & Matter, Biogeochemical Cycles, Human Impact.

Unit 2: Ecosystems & Biospheres Energy & Matter, Biogeochemical Cycles, Human Impact.
Food Webs & Energy Pyramids https://encrypted-tbn2.gstatic.com/images?q=tbn:ANd9GcSIzVAw0xmKeDcew5lLt01d0EcInJ1yC3TdDa0aIeyawNzzdyZhhQ.

Food Webs & Energy Pyramids
Organism. An individual animal, plant, or single- celled life form.

Organism. An individual animal, plant, or single- celled life form.
What makes up an ecosystem?  Biotic factors  Plants  Animals  Bacteria  Etc.  Abiotic factors  Water  Light  Temperature  Soil.

What makes up an ecosystem?  Biotic factors  Plants  Animals  Bacteria  Etc.  Abiotic factors  Water  Light  Temperature  Soil.
Carrying Capacity: Sustainable population size in an environment

Carrying Capacity: Sustainable population size in an environment
2.1 Section Objectives – page 35 Distinguish between the biotic and abiotic factors in the environment. Objectives: Explain the difference between a.

2.1 Section Objectives – page 35 Distinguish between the biotic and abiotic factors in the environment. Objectives: Explain the difference between a.
Energy in Ecosystems. Food Web: a group of food chains showing all of the feeding relationships in an ecosystem. Trophic level — a layer in the feeding.

Energy in Ecosystems. Food Web: a group of food chains showing all of the feeding relationships in an ecosystem. Trophic level — a layer in the feeding.
Energy Pyramids Energy Pyramids show the loss of energy at each feeding level in a food chain Only 10% of energy is passed onto the next level in a food.

Energy Pyramids Energy Pyramids show the loss of energy at each feeding level in a food chain Only 10% of energy is passed onto the next level in a food.
Chapter 10 Ecosystems p. 317 - 329.

Chapter 10 Ecosystems p
Ecosystems.

Ecosystems.
How does energy move through the ecosystem?

How does energy move through the ecosystem?
Ecology Learning Objectives:

Ecology Learning Objectives:

Similar presentations

Ads by Google