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What is an ecosystem?. All the living (biotic) and nonliving ( abiotic ) parts of an environment as well as the interactions among them Ecosystems may be aquatic (water) or terrestrial (land). Interactions may include:
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What is an ecosystem? All the living (biotic)and nonliving (abiotic)parts of an environment as well as the interactions among them Ecosystems may be aquatic (water)or terrestrial (land). Interactions may include: - Producers - (obtain energy by making their own food; plants -photosynthesis) - Consumers - (obtain energy by consuming their food) - Decomposers - ( get energy by breaking down dead organisms and the wastes of living things); bacteria, fungi, worms, mold, termites, mushrooms, etc.
The sun provides energy To sustain producers which are the foundation of all ecosystems. Produce food through photosynthesis
Abiotic & Biotic Factors Abiotic Factors (nonliving) water - shelter sunlight - soil rocks - nutrients oxygen/air, nitrogen temperature/climate space, salinity, pH Biotic Factors (living) Food - grass - trees - animals, insects, - plants bacteria, fungi
In the diagram, • What are the decomposers? Producers? Consumers? • What organisms are competing for the same abiotic resources? • What is the sources of energy that drives or sustains the ecosystem?
What are the producers? primary consumers? secondary consumers? tertiary consumer? • What organisms are competing for the same abiotic and biotic resources?
Phytoplankton = producers Zooplankton = primary consumers In the above ecosystem: • What do algae and plankton contribute? • What is the role of the fungi? • What is the role of bacteria? • What does the rotting log contribute?
Use the posters for this activity. In the food web diagram, respond to each of the following. Put your answers on a separate sheet of paper. 1. What tertiary consumers do you see? 2. What primary (1st level) consumers do you see? 3. How is carbon dioxide (CO2) cycled through an ecosystem? Make sure that you identify organisms that are involved. 4. How is oxygen (O2) cycled through an ecosystem? Make sure that you identify organisms that are involved. 5. What process adds oxygen to the ecosystem? 6. What process adds carbon dioxide to an ecosystem? 7. How is nitrogen cycled through this ecosystem? 8. What abiotic factors are shown in this ecosystem? 9. List 5 biotic factors that are shown in this ecosystem. 10. What overlapping terrestrial/aquatic food chain is shown?
Use the diagram to respond to each of • the following. • Identify the decomposer. What • other decomposers may exist but • are not shown? • 2. What other decomposers may be in • every ecosystem but are not shown • on this diagram? • 3. Identify the primary consumers. • Show what is being consumed. • 4. Identify the tertiary consumer for • each food chain. What does this • consumer eat? • 5. Is this a terrestrial or aquatic food • web? Explain. • 6. What happens when two or more • organisms coexist in the same niche?
(photosynthesis) (photosynthesis) respiration
Biomass Energy Pyramid: Trophic Levels 4th trophic level 3rdt trophic level 2nd trophic level 1st trophic level • At what trophic level is there the greatest amount of energy available? • What percent of energy is used/lost at each trophic level of an energy pyramid? • What percent of energy is passed up to the higher trophic level?
Jefferson Ecosystem Activity 1.Divide a sheet of notebook into 5 sections (portrait style). 2. Label the sections: - Producers (organisms that produce their own food) - Consumers (an organism that obtains nutrition and energy by eating other organisms) - Decomposers (organisms that obtains energy by breaking down the wastes of organisms or the remains of dead organisms); bacteria, fungi, worms, mold, termites, mushrooms - Abiotic factors (nonliving factors in the environment) - Biotic factors (living factors in the environment) Students will stay in the classroom to (1) make observations relating to each of the areas and (2) explain the relationships between each of these.
Types of Terrestrial (land) Ecosystems • Terrestrial = land • Forest • Desert • Grassland • Mountain
Types of Aquatic (water) Ecosystems Marine Ecosystems: the biggest ecosystems, which cover around 71% of Earth's surface and contain 97% of out planet's water. The different divisions of the marine ecosystem are: • Oceanic: A relatively shallow part of oceans which lies on the continental shelf. • Profundal: deep or Bottom water. • Benthic - Bottom of the ocean. • Inter-tidal: The place between low and high tides. • Estuaries • Coral reefs • Salt marshes • Hydrothermal vents - where chemosynthetic bacteria make up the food base. • Many kinds of organisms live in marine ecosystems: “Bio-Diversity” Freshwater Ecosystems: covers only 0.8% of Earth's surface and contains 0.009% of the total water. • Pools, Lakes or Ponds, Streams and Rivers. • Wetlands: Places in which the soil is saturated for a lengthy period of time. • The ecosystems are habitats to reptiles, amphibians and around 41% of the world’s fish species. The faster moving turbulent waters typically contain a greater concentrations of dissolved oxygen, supporting greater biodiversity than slow moving waters in pools.
Ecosystem Hierarchy Organisms: individuals of a species Populations: groups of organisms of the same species Communities: the interaction of different populations; communities live within an Ecosystem: all of the abiotic and biotic parts of an ecosystem Biosphere: all of Earth’s ecosystems
Hierarchy From Atoms toEcosystems Levels from Largest to Smallest Ecosystem Level Community Level Population Level Organism Level Organ System Level Organ Level Tissue Level Cellular Level Molecular Level Atomic Level
Organism (single one of species) Mushrooms Polar Bears Snakes Coyotes Prairie Dogs Elephants
4 Populations (same species) Elk Population Cacti Population Elephant Population Gorilla Population
Communities (many populations) What communities are present in each of these ecosystems? Marine (aquatic) Ecosystem Freshwater & Terrestrial Ecosystems Terrestrial Ecosystem Aquatic (estuary) Ecosystems
Ecosystems make up the biosphere. Earth is the only planet on which life exists. It consists of three components Lithosphere (Land), Hydrosphere (Water) and Atmosphere (Air). The life supporting zone of the earth where atmosphere, hydrosphere and lithosphere meet, interact and make life possible, is known as biosphere.
An Arctic Food Web Activity • What overlapping aquatic/terrestrial food chains are there in this ecosystem? • What population, if removed, would have the greatest impact on the overall food web? • If the water was highly contaminated, what organism/population would have the highest level of contamination? • Which organism contributes dissolved oxygen to the water? 5. Which organisms may compete for the same food source(s)?
Abiotic Factors Affected dissolved oxygen decreases nutrients may go up or down more CO2 in water water may be more turbid temp. may change Biotic Factors Affected - animal plankton pop. decreases - silverside pop. decrease beluga whale pop. decrease cod pop. Decreases bacteria increase & use up dissolved oxygen **Every population is directly or indirectly affected How would the removal of algae from this arctic food web affect both the biotic and abiotic factors?
Biodiversity • A variety of species exist in all ecosystems. What are examples of biodiversity in our area? - plant biodiversity - insect biodiversity - animal biodiversity - fungi biodiversity - bacteria biodiversity
Disturbances to Physical (abiotic) or Biological (biotic) Components of Ecosystems • Disruptions lead to shifts in all populations. This changes the biodiversity of an ecosystem. • What disruptions may occur leading to a change in the physical (nonliving/abiotic) components in an ecosystem? • http://www.youtube.com/watch?v=ddlrGkeOzsI Lake Peigneur disaster 9:54 • What affect did this disaster have on the aquatic ecosystems? Terrestrial? • What affect did this disaster have on the terrestrial ecosystems? • ** Include both biotic and abiotic factors when answering these two questions. • 3. How would this disaster lead to possible “population shifts”? Be specific.
Disruptions to Physical (nonliving/abiotic) Components * Volcanic eruptions * Pollution * Hurricanes * Clear cutting * Fires * Floods * Drought * Nuclear Bomb * Habitat depletion (human and natural) - i.e. urban sprawl How could these events change nutrients, water, light, salinity, shelter, soil, temperature, climate, etc. in an ecosystem?
Disruptions to Biological (living/biotic) Components * Volcanic eruptions * Pollution (land & water) * Hurricanes * Urban Sprawl * Fires * Clear Cutting * Drought * Introduction of exotic ** Overharvesting (non native) species * Habitat depletion (human and natural) How could these events change the biological (living/biotic) components in an ecosystem?
Preventing Overharvesting • Hunting seasons - Laws (ownership) • Laws against poaching - Size limitations • Limit on Numbers - Organizations • License required - Size/types of nets • Specific places - Limits on gender • Wildlife Reserves/National Parks • Tagging/Monitoring Programs (remote sensing) • Breeding Programs • Identification of Endangered Species
Producers? Consumers? Biotic Factors? Abiotic Factors? How may volcanoes disrupt ecosystems?
How may this affect: water quality (surface and ground) habitats soil quality air quality noise pollution Urban Sprawl
Impact of Clear Cutting What are the impacts on biotic and abiotic factors?
Impact of Introducing Exotic Species: Kudzu Kudzu is a serious invasive plant in the United States. It has been spreading in the southern U.S. at the rate of 150,000 acres (61,000 ha) annually, "easily outpacing the use of herbicide spraying and mowing, as well increasing the costs of these controls by $6 million annually.“ Its introduction has produced devastating environmental consequences. What do you think?
Impact of Introducing Exotic Species: Burmese python in Florida This snake was found in the Everglades National Park, measuring 17 feet, 7 inches and over 165 pounds. The other record broken was the fact the snake was pregnant with 87eggs. There is believed to be thousands thriving the moist, hot climate of the Everglades perhaps released years ago by pet owners or from pet shops during Hurricane Andrew in 1992. Local ordinances prohibit the import of these reptiles and allowing them to be hunted has not put much of a dent on population control. They have the ability to swallow large animals’ whole after coiling around their prey and suffocating them. What do you think?
The Effect of the Brown Tree Snake in Guam _ What led to the dramatic loss of birds on Guam? Well this part of the story isn’t actually so “natural”—although it was unintentional. Sometime in the mid to late 1940s, brown tree snakes were introduced to the island probably by hitching a ride on a cargo ship after World War II. Because there aren’t many large predators on Guam, the snakes quickly took over the island. By the 1980s the birds were wiped out save for two colonies that continue to exist on a military base. To this day the snakes are still around (one of the attempts to control them involved dropping Tylenol-laced mice from airplanes). _ What happens to spiders when you remove birds from a tropical island? The researchers found that during the dry season Guam had 2.3 times more spider webs than neighboring islands that still have birds. During the wet season the number of webs was a whopping 40 times higher on Guam. And the spider webs on Guam were much larger—50% larger—than those on the other islands. _ Removing birds from the equation likely changed the Guam spider population in many ways including some (or all) of these scenarios: (1) since birds weren’t around to eat the spiders the spider population grew, (2) the spiders no longer had to compete with the birds to eat insects so more spiders survived and were able to reproduce, (3) the spiders didn’t have to keep spinning new webs because the birds weren’t there to mess them up anymore, so they built larger webs and put more energy into reproduction.
Population Density - the number of people/organisms living per unit of an area (e.g. per square mile); the number of people relative to the space occupied by them _ how full an area is: the concentration of people or things within an area in relation to its size
Limiting Factor • Limiting Factor - environmental factors that limit population sizes in a particular ecosystem.
Limiting Factors in an Ecosystem • Density-dependent Factors - operate more strongly on large populations and disease - triggered by increases in population density (crowding) * Competition for food, water, shelter & space * Predation * Parasitism * Disease
High Population Density Population Density: measures the number of individual organisms living in a defined space China’s Qingdao Huiquan Beach
China’s Qingdao Huiquan BeachLow Population Density Compare this picture to the previous one. If these were animals, • How may the spread of disease and parasites be affected by the population densities? • How may competition for food, water, space and shelter be affected?
W • What is the relationship between the hare population and the lynx population? • What role does competition play in this predator/prey relationship? • Why is competition important in an ecosystem?
Density-independent Factors • Limiting factors that occur regardless of how large the population is and reduce the size of all populations in the area; mostly abiotic - weather changes - human activities (pollution, urban sprawl, etc.) - natural disasters (i.e. fires)
A change in an abiotic or biotic factor may:- decrease the size of a population if it cannot acclimate/adapt to or migrate from the change.- increase the size of a population if that change enhances its ability to survive, flourish or reproduce.
Ecosystem Poster Project * Design a poster that includes each of the following: • Producers Abiotic Factors • Consumers Biotic Factors • Decomposers Communities • Populations Organisms • Aquatic Ecosystem Terrestrial Ecosystem • Overlapping Food Chains (Food Web) * All of the above must be labeled and illustrated.
Relationships Within Ecosystems: • Coexistence and cooperation • Competition (predator/prey) • Parasitism • Mutualism