ecology
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Ecology. Chapters 2-5. Define ecology. Study of interactions among organisms and between organisms and their environment Biosphere – all the parts of the planet in which life exists including land, ocean, and atmosphere - PowerPoint PPT PresentationTRANSCRIPT
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Ecology
Chapters 2-5
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Define ecology
• Study of interactions among organisms and between organisms and their environment
• Biosphere – all the parts of the planet in which life exists including land, ocean, and atmosphere– Interactions within biosphere create a web of
interdependence between the organisms and their environment
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The Biosphere
Principles of Ecology
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Biotic FactorsPrinciples of Ecology
Living factors in an organism’s environmentEx: predation
Abiotic Factors
Nonliving factors in an organism’s environment
Ex: sunlight, temperature
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Levels of Organization
Principles of Ecology
Levels increase in complexity as the numbers and interactions between organisms increase.
organismpopulationbiological communityecosystembiome
biosphere
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The lowest level of organization is the individual organism itself.
Principles of Ecology
Organisms of a single species that share the same geographic location at the same time make up a population.
A biological community is a group of interacting populations that occupy the same geographic area at the same time.
Organisms and Their Relationships
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An ecosystem is a biological community and all of the abiotic factors that affect it.
Principles of Ecology
A biome is a large group of ecosystems that share the same climate and have similar types of communities.
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Ecosystem Interactions
Principles of Ecology
A habitat is an area where an organism lives.
A niche is the role or position that an organism has in its environment.
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Community Interactions
Principles of Ecology
Competition
Occurs when more than one organism uses a resource at the same time
Predation
Many species get their food by eating other organisms.
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Symbiotic RelationshipsPrinciples of Ecology
Both species benefit
Mutualism
Commensalism
Parasitism
The close relationship that exists when two or more species live together
One organism benefits, the other is not helped or harmed
One organism is helped, the other is harmed
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Energy in an Ecosystem
Autotrophs
Principles of Ecology
Organism that collects energy from sunlight or inorganic substances to produce food
Heterotrophs Organism that
gets it energy requirements by
consuming other organisms
A lynx is a heterotroph.
AKA: consumersTypes:
Herbivores: plant eatersCarnivores: meat eatersOmnivores: plant and meat eatersDetritivores: eat plant and animal remains
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ecosystem, and return nutrients to the soil, air, and waterwhere thenutrients can be reused by organisms.
Detritivores eat fragments of dead matter in an
Principles of Ecology
Fungus
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Principles of Ecology
Models of Energy Flow
Food chains and food webs model the energy flow through an ecosystem.
Each step in a food chain or food web is called a trophic level.
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How does energy flow through an ecosystem?
• In one direction- from sun to producers then to consumers
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Principles of Ecology
Food Chains
A food chain is a simple model that shows how energy flows through an ecosystem.
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Principles of Ecology
Food Webs
A food web is a model representing the many interconnected food chains and pathways in which energy flows through a group of organisms.
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Principles of Ecology
Ecological Pyramids
A diagram that can show the relative amounts of energy, biomass, or numbers of organisms at each trophic level in an organism
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What are trophic levels?• Trophic levels represent each step in a food
chain– 1st level = producers– 2nd level = herbivores– 3rd level and up = carnivores and omnivores
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How can we show all of the energy in an ecosystem?
• Ecological pyramids – shows amounts of energy or matter within each trophic level
• Energy pyramids – shows amounts of energy transferred to the next trophic level is only about 10% of the previous level
• Biomass pyramid – shows total amount of living tissue
• Numbers pyramid – shows #s of individuals in each trophic level
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Cycles in the Biosphere
Cycling of Matter
Principles of Ecology
Energy is transformed into usable forms to support the functions of an ecosystem.
The cycling of nutrients in the biosphere involves both matter in living organisms and physical processes found in the environment such as weathering.
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How does water move around an ecosystem?• The water cycle – water
continually moves from the ocean to the atmosphere to the land and back to atmosphere– Evaporation – change from
liquid to gas – from oceans or any standing water or lakes, etc.
– Transpiration – evaporation from plant leaves
– Condensation – gas to liquid in atmosphere forming clouds
– Precipitation – liquid falls back to the earth where it drains into oceans, rivers, and lakes or soaks into the ground for storage
– Run-Off- liquid runs back into water source
– Percolation- liquid seeps into the soil.
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The Water CyclePrinciples of Ecology
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Principles of Ecology
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Principles of Ecology
Freshwater constitutes only about 3 percent of all water on Earth.
About 69 percent of all freshwater is found in ice caps and glaciers.
Approximately 90 percent of water vapor evaporates from oceans, lakes, and rivers; 10 percent evaporates from the surface of plants
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Principles of Ecology
The Carbon and Oxygen Cycles
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Principles of Ecology
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Principles of Ecology
Carbon and oxygen recycle relatively quickly through living organisms.
Carbon and oxygen often make up molecules essential for life.
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Principles of Ecology
The Nitrogen Cycle
The capture and conversion of nitrogen into a form that is useable by plants is called nitrogen fixation.
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Principles of Ecology
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Principles of Ecology
Consumers get nitrogen by eating plants or animals that contain nitrogen.
Nitrogen enters the food web when plants absorb nitrogen compounds from soil.
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Principles of Ecology
Nitrogen is returned to the soil in several ways:
Animals urinate.
Organisms die.
Organisms convert ammonia into nitrogen compounds.
Denitrification
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Principles of Ecology
The Phosphorus Cycle
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Principles of Ecology
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Limiting Factors
Any abiotic factor or biotic factor that restricts the numbers, reproduction, or distribution of organisms is called a limiting factor.
Communities, Biomes, and Ecosystems
Includes sunlight, climate, temperature, water, nutrients, fire, soil chemistry, and space, and other living things
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Range of Tolerance
An upper limit and lower limit that define the conditions in which an organism can survive
Communities, Biomes, and Ecosystems
The ability of any organism to survive when subjected to abiotic factors or biotic factors is called tolerance.
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How do ecosystems change over time?
• Always changing in response to natural and human disturbances– Older inhabitants die out, new organisms move in
• Ecological succession – predictable changes in a community over time; the change in an ecosystem that happens when one community replaces another as a result of changing abiotic and biotic factors – Caused by slow changes in physical environment– Caused by sudden natural disturbance
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Ecological Succession
Communities, Biomes, and Ecosystems
There are two types of ecological succession—primary succession and secondary succession.
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What is primary succession?• Succession on land
where no soil previously existed– Hardened volcanic lava
or ash– Rocks exposed from
glacier melt
• Pioneer species – 1st to populate an area– i.e. Lichens– Creates soil
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Communities, Biomes, and Ecosystems
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What is secondary succession?
• Follows a community changing disturbance– Wild fires, humans clearing land
• Climax Communities – ending point of succession – mature stable community– Still goes through change over time
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Communities, Biomes, and Ecosystems
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Secondary Succession after a fire
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Secondary Succession of
a
Lake
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Communities, Biomes, and Ecosystems
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What role does climate play?
• Weather – day to day atmospheric conditions at a certain place
• Climate – average year-round conditions of temperature and precipitation
• Causes of climate– Trapping of heat by atmosphere– Latitude– Transport of heat by winds and
currents
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What is the greenhouse effect?
• Gases in the atmosphere trap heat energy and maintain Earth’s temperature range
• Carbon dioxide, methane, water vapor
• Traps heat being released from the earth
• Naturally occurring• Magnified by the
burning of fossil fuels
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What effect does latitude have on climate?
• Earth is tilted on it’s axis and receives varying angles of solar radiation at different latitudes.
• Creates 3 climate zones:– Tropical: at the equator,
hot– Temperate: middle
latitudes, hot and cold depending on season
– Polar: high latitudes, cold
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Biomes are classified by their plants, temperature, and precipitation.
Communities, Biomes, and Ecosystems
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Tropical forests
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Deserts
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Temperate deciduous forestWhere we Live!
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Tundra
• Permafrost
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Chaparral: Shrubland
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Coniferous forests
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Savanna
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Describe some aquatic ecosystems.• Determined by depth,
flow, temperature, and chemistry of overlying water
• Inhabitants specially adapted to each ecosystem
• Freshwater ecosystems– Flowing water – rivers,
streams, creeks– Standing water – lakes,
ponds
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More aquatic ecosystems• Estuaries –
wetlands where rivers meet the sea, fresh and salt water – made of mostly detritivores– Salt marshes– Mangrove
swamps
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Marine Ecosystems• Light zones
– Photic – well lit upper layer where organisms are able to carry out photosynthesis
– Aphotic – permanently dark zone bottom of ocean.
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Population Density
The number of organisms per unit area
Spatial Distribution
Population Ecology
Dispersion is the pattern of spacing of a population.
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Population Ecology
Exponential Growth Model Exponential growth occurs
when the growth rate is proportional to the size of the population.
if it has the perfect environment. Limited to short periods and small areas.
Population multiplies quickly.
All populations grow exponentially until
some limiting factor slows the population’s growth.
J-CurveThis is mostly unrealistic.
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Population Ecology
Logistic Growth Model
The population’s growth slows or stops following exponential growth, at the population’s carrying capacity.
S-Curve
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Population Ecology
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Population Ecology
Population-Limiting Factors
There are two categories of limiting factors—density-independent factors and density-dependent factors.
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Density-Independent Factors
Any factor in the environment that does not depend on the number of members in a population per unit area is a density-independent factor.
Population Ecology
Weather eventsFireHuman alterations of the landscapeAir, land, and water pollution
•Shows a “boom & bust” curve
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Density-Dependent Factors
Any factor in the environment that depends on the number of members in a population per unit area is a density-dependent factor.
Population Ecology
Biotic factorsDiseaseCompetitionParasites
•Produces s-shaped curve
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Population Ecology
The maximum number of individuals in a species that an environment can support for the long term is the carrying capacity.
Carrying capacity is limited by the energy, water, oxygen, and nutrients available.
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Population Ecology
Reproductive Patterns
Species of organisms vary in the number of births per reproduction cycle, in the age that reproduction begins, and in the life span of the organism.
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Population Ecology
An r-strategist is generally a small organism.
Short life span
Produces many offspringEx: Mice
The rate strategy, or r-strategy, is an adaptation for living in an environment where fluctuation in biotic or abiotic factors occur.
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Population Ecology
A k-strategist is generally a larger organism.
Long life span
Produces few offspringEx: Elephant, Humans
The carrying-capacity strategy, or k-strategy, is an adaptation for living in stable environments.
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Population Ecology
Population Growth Rate
The population growth rate (PGR) explains how fast a given population grows.
The natality of a population is the birthrate in a given time period.
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Population Ecology
A population stops increasing when the number of births is less than the number of deaths or when emigration exceeds immigration.
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Human Population Growth
The study of human population size, density, distribution, movement, and birth and death rates is demography.
Population Ecology
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HUMAN POPULATION GROWTH
• Currently our growth is exponential.
• Exponential growth due to:– Advances in
technology– Energy development– Advances in agriculture– Transportation– Medicine
• We do not know our carrying capacity.
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Human Population Growth Rate
Although the human population is still growing, the rate of its growth has slowed.
Population Ecology
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Trends in Human Population Growth
Population trends can be altered by events such as disease and war.
Population Ecology
Human populationgrowth is not the same in all countries.
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Zero population growth (ZPG) occurs when the birthrate equals the death rate.
Population Ecology
Zero Population Growth
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Age Structure
Population Ecology
A population’s age structure is the number of males and females in each of three age groups:
pre-reproductive stage, reproductive stage, and post-reproductive stage.
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Human Carrying Capacity
Population Ecology
Scientists are concerned about the human population reaching or exceeding the carrying capacity.
An important factor is the amount of resources from the biosphere that are used by each person.
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Biodiversity and Conservation
Pollution
Pollution and atmospheric changes threaten biodiversity and global stability.
Biological magnification is the increasing concentration of toxic substances in organisms as trophic levels increase in a food chain or food web.
Threats to Biodiversity
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Biodiversity and Conservation
Eutrophication
occurs when substances rich in nitrogen and phosphorus flow into waterways, causing extensive algae growth.
The algae use up the oxygen supply during their rapid growth and after their deaths during the decaying process.
Other organisms in the water suffocate.
Threats to Biodiversity
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Resources that are replaced by natural processes faster than they are consumed are called renewable resources.
Biodiversity and Conservation
Resources that are found on Earth in limited amounts or those that are replaced by natural processes over extremely long periods of time are called nonrenewable resources.
Conserving Biodiversity