Ecology
What is Ecology? Ecology is the study of the interactions among organisms and the interactions between organisms and their environment. It breaks down our environment into individual components and analyzes what effect these components have on the larger system.
Levels of Ecological Organization Six levels Individual Population Community Ecosystem Biome Biosphere
Individual One organism Example: 1 elk or 1 apple tree
Population A group of the same species living in a given area at the same time Example: 300 Elk in the Upper Dolores River Valley
Community Groups of different populations living in the same area at the same time Example: All of the plants and animals in the Upper Dolores River Valley
Ecosystem A collection of all the organisms in a given area AND the nonliving material in an environment. Example: All of the living organisms (communities) and nonliving material in the Upper Dolores River Valley
Biome A particular physical environment that contains a characteristic collection of plants and animals. Examples: Desert, Tundra, Tropical Rain Forest
Biosphere All the living organisms and non living material on planet Earth.
Where does energy come from? Sunlight is the major source for life on Earth. Without sunlight, almost all life on Earth would not exist.
Producers Producers, or Autotrophs, produce their own energy from either the sun or nonliving material in the environment. There are 2 processes which producers can make energy: Photosynthesis Chemosynthesis
Producers Photosynthesis is where an organism uses sunlight to combine Carbon Dioxide + Water which creates Sugar (energy) + Oxygen. creates the oxygen we breathe. The green color in plants is chlorophyll.
Producers Chemosynthesis is where an organism takes non-living material and carbon dioxide and transform it into sugars. This is very rare. Only happens in unique environments like hydrothermal vents on the ocean floor and hot springs
Bacteria in Yellowstone Hot Springs
Tube Worms on Hydrothermal Vents
Consumers Consumers, or Heterotrophs, are organisms that rely on other organisms for energy. Consumers are subdivided into: Herbivores Carnivores Omnivores Detritivores
Consumers Herbivores Herbivores are organisms that eat only plants to survive. Examples: cows, caterpillars, deer
Consumers Carnivores Carnivores eat other animals to survive. Examples: snakes, dogs, owls
Consumers Omnivores Organisms that eat both plants and meats. Examples: chickens, humans, bears
Consumers Detritivores Eats dead organisms to survive. Examples: earthworms, snails, crabs
Decomposers Decomposers consume dead material to survive, include bacteria and fungi.
Ecosystems Aspects of Ecosystems: Habitat – the place where an organism lives ♦ the organisms address (Cortez, CO) Niche – the role of an organism in it’s ecosystem including the unique ways it survives, interactions with others, obtains food, finds shelter, etc ♦ the organisms occupation ♦ what it does (student)
Keystone Species a species on which other species in an ecosystem largely depend, such that if it were removed the ecosystem would change drastically
Invasive species An invasive species is a plant, fungus, or animal species that is not native to a specific location (an introduced species), and which has a tendency to spread to a degree believed to cause damage to the environment, human economy or human health.
Feeding Relationships in Ecosystems Energy flows through an ecosystem in one direction: sun (or inorganic compounds) to autotrophs (producers) to heterotrophs (consumers)
Feeding Relationships in Ecosystems Different classifications of feeding relationships include: Food Chains Food Webs Trophic Levels
Feeding Relationships in Ecosystems Food Chain A series of steps where energy is transferred by eating and being eaten. One specific path of energy.
Example of a Food Chain
Feeding Relationships in Ecosystems Food Web The complex interactions of energy transfer of various organisms. All the food chains of an area combined into the “big picture”
Example of a Food Web
Feeding Relationships in Ecosystems Trophic Levels Different levels of a food web/chain Roman Numerals indicate the different trophic levels within a food web/chain Also referred to as Producers Primary consumers Secondary consumers Tertiary consumers
Example of Trophic Levels
Ecological Pyramids An Ecological Pyramid is a diagram that shows the relative amount of energy, matter, or numbers within each trophic level. Three ecological pyramids are: Energy Pyramid Biomass Pyramid Pyramid of Numbers
Ecological Pyramids Energy Pyramid Diagram that displays how much energy is transferred to/from each trophic level Only about 10% of energy from each trophic level is transferred to organisms in the next trophic level
Ecological Pyramids Energy Pyramid
Ecological Pyramids Energy Pyramid
Ecological Pyramids Biomass Pyramid Diagram displaying how much biomass there is at each trophic level Biomass = amount of organic stuff
Ecological Pyramids Biomass Pyramid
Ecological Pyramids Pyramid of Numbers Diagram showing the number of organisms at each trophic level
Ecological Pyramids Pyramid of Numbers
Ecosystems Ecosystems are influenced by: Biotic Factors Abiotic Factors
Ecosystems Biotic Factors – biological influences on organisms within an ecosystem - all organisms: plants, animals, bacteria,... - affected by how many organisms are present
Ecosystems Abiotic Factors – physical, or non-living, factors that shape an ecosystem - climate (temperature, precipitation) - wind - soil type - sunlight
Ecosystems Biotic and Abiotic factors determine: * the survival and growth of an organism * the productivity of the ecosystem in which the organism lives
Ecosystems Community Interactions: Competition Predation Symbiosis
Ecosystems Community Interactions: Competition – when organisms attempt to use the same ecological resource in the same place at the same time ♦ food, water, light, space
Ecosystems Community Interactions: Predation – when one organism feeds on another organism ♦ predators vs. prey
Ecosystems Community Interactions: Symbiosis – when two species live closely together ♦ Mutualism – both species benefit ♦ Commensalism – one organism benefits while the other organism is neither helped or harmed ♦ Parasitism – one lives in or on another organism and harms it
Populations Three important characteristics that affect populations: Geographic Distribution Density (Population Density) Growth Rate
Populations Three important characteristics that affect populations: Geographic Distribution – the area inhabited by a population ♦ the range of the population
Populations Three important characteristics that affect populations: Density (Population Density) – number of individuals per unit area
Populations Three important characteristics that affect populations: Growth Rate – how the numbers within a population change ♦ number of births ♦ number of deaths ♦ number of individuals that enter or leave the population (immigration and emigration)
Populations Growth Rate Types of Growth ♦ Exponential Growth – will happen under ideal conditions
Populations Growth Rate Types of Growth ♦ Logistic Growth – population’s growth slows or stops after exponential growth ■ known as S-curve
Populations Carrying Capacity – largest number of individuals that a given environment can support Creates a logistic growth
Populations Limiting Factor – something that causes populations growth to decrease ● competition ● weather ● predation ● national disasters ● parasitism ● disease ● seasonal cycles ● human activities