Ecology
Ecology Section 3.1 What is Ecology
The study of interactions between an organism and its environment Ecology The study of interactions between an organism and its environment
Two types of environments ABIOTIC ENVIRONMENT BIOTIC ENVIRONMENT Non living environment a. living environment B. Example: air, currents b. Example: all living organisms temperature, light moisture, soil
c. Interactions within nature are based on energy and nutrients
Levels of Organization ORGANISM POPULATION COMMUNITY ECOSYSTEM BIOME BIOSPHERE
ORGANISM LIVING THINGS THAT ARE MADE OF CELLS, REPRODUCES, RESPONDS, GROWS , USES ENERGY AND DEVELOPS
POPULATION A GROUP OF ORGANISMS THAT ARE OF THE SAME SPECIES AND LIVE TOGETHER IN THE SAME PLACE AT THE SAME TIME
COMMUNITY DIFFERENT POPULATIONS OF SPECIES THAT LIVE IN THE SAME PLACE AT THE SAME TIME
ECOSYSTEM POPULATIONS OF PLANTS AND ANIMALS THAT INTERACT WITH EACH OTHER AND LIVE TOGETHER
ECOSYSTEMS THERE ARE 2 MAIN TYPES OF ECOSYSTEMS TERRESTRIAL AQUATIC FORREST a. POND YARD b. LAKE VOLCANO SITE c. STREAM ROTTING LOG d. OCEAN GARDEN e. AQUARIUM
BIOME A GROUP OF ECOSYSTEMS THAT SHARE SIMILAR CLIMATES AND TYPICAL ORGANISMS
BIOSHPERE THE PORTION OF EARTH THAT SUPPORTS LIFE
Energy, producers, and consumers Ecology Section 3.2 Energy, producers, and consumers
PRIMARY PRODUCERS Primary producers are the first producers of energy-rich compounds that are later used by other organisms Examples are Autotrophs such as, algae, certain bacteria and plants
Autotrophs ORGANISMS THAT PRODUCE THEIR OWN FOOD BY USING SOLAR OR CHEMICAL ENERGY , USUALLY THROUGH PHOTOSYNTHESIS THESE ORGANISMS ARE CONSIDERED PRODUCERS
CHEMOSYNTHESIS CHEMICAL ENERGY IS USED TO PRODUCE CARBOHYDRARES OCCURS IN DEEP SEA ECOSYSTEMS WHERE THERE IS NO LIGHT. THESE ORGANISMS ARE CONSIDERED PRODUCERS AND CONTAIN CHEMICAL ENERGY FROM INORGANIC MOLECULES
CONSUMERS Consumers obtain their energy from other food sources. This can be obtained through absorption, decomposition, or consumption Examples are Heterotrophs such as, animals, fungi, and many bacteria
HETEROTROPHS ORGANISMS THAT GET THEIR FOOD FROM OTHER RESOURCES THESE ORGANISMS ARE CONSIDERED CONSUMERS
5 TYPES OF FEEDING RELATIONSHIPS HERBIVORES CARNIVORES OMNIVORES SCAVENGERS DECOMPOSERS
HERBIVORES ORGANISMS THAT EAT PLANTS
CARNIVORES ORGANISMS THAT EAT MEAT
OMNIVORES ORGANISMS THAT EAT BOTH PLANTS AND MEAT
SCAVENGERS ORGANISMS THAT FEED ON DEAD OR DECAYING ANIMALS
DECOMPOSERS ORGANISMS THAT BREAKDOWN DEAD ORGANISMS
Energy Flow in Ecosystems Ecology Section 3.3 Energy Flow in Ecosystems
ENERGY & MATTER TRAVEL THROUGH THE ECOSYSTEM THERE ARE TWO MODELS THAT SHOW HOW ENERGY FLOW THROUGH A SYSTEM FOOD CHAIN FOOD WEB Energy flows in a one-way stream, from primary producers to various consumers
SHOWS HOW ENERGY MOVES IN A CERTAIN ORDER A. FOOD CHAIN SHOWS HOW ENERGY MOVES IN A CERTAIN ORDER ORDER: AUTOTROPH---HETEROTROPH--DECOMPOSERS
FOOD CHAIN IN SOME AQUATIC FOOD CHAINS, PRIMARY PRODUCERS ARE A MIXTURE OF FLOATING ALGAE CALLED PHYTOPLANKTON.
SHOWS ALL POSSIBLE FEEDING RELATIONSHIPS B. FOOD WEB SHOWS ALL POSSIBLE FEEDING RELATIONSHIPS
FOOD WEB Decomposers and detrivores (organisms that digest decomposers that live on and in detrius particles (decaying remains) can release nutrients that can be used by primary producers. Example; mites, snails, shrimp, and crabs
FOOD WEB DISTURBANCES ZOOPLANKTON- SMALL ORGANISMS THAT FEED ON MARINE ALGAE. These organisms are diminishing, as a result of their habitat being compromised by the melting of sea ice caps. How does the decrease in zooplankton affect the food web?
TROPHIC LEVELS Each step in the food chain or web is called A TROPHIC LEVEL
ECOLOGICAL PYRAMIDS Shows amount of energy or matter within each trophic level. THERE ARE 3 PYRAMIDS ENERGY PYRAMID NUMBER PYRAMID BIOMASS PYRAMID
ENERGY PYRAMID REPRESENTS THE ENERGY THAT IS AVAILABLE WITHIN A TROPHIC LEVEL EACH STEP DECREASES THE AMOUNT OF ENERGY BY 10 % Energy transfers through trophic levels, in increments of 10 percent Energy is stored in the organisms in the next level The remaining energy is released into the environment
BIOMASS PYRAMID BIOMASS- Amount of living tissue within a given trophic level. REPRESENTS THE AMOUNT OF LIVING ORGANIC MATTER AVAILABLE AT EACH TROPHIC LEVEL IN AN ECOSYSTEM 1000 500 100 50 25
NUMBER PYRAMID SHOWS HOW EACH LEVEL REPRESENTS THE NUMBER OF ORGANISMS AT EACH TROPHIC LEVEL IN AN ECOSYSTEM 300 50 10 5
Ecology Section 3.4 Cycles of Matter
RECYCLING IN THE BIOSPHERE Unlike the one-way flow of energy, matter recycled within and between ecosystems. Elements pass from organisms to another through closed loops called the biogeochemical cycles. Biochemical cycles are powered by the flow of energy Matter- anything that has mass and occupy space. Typically atoms and particles
RECYCLING IN THE BIOSPHERE Cycles of matter involve: Biological process Activities performed by living organisms (eating, breathing, “burning” food, and eliminating waste) Geological processes Volcanic eruptions, formation and breakdown of rock, movements of matter within and below Earth’s surface. Chemical processes Formation clouds, precipitation, flow of running water, lightning
RECYCLING IN THE BIOSPHERE Human Activity that affect the cycles of matter: mining Burning of fossil fuels Clearing of land (building, farming) Burning of forests Manufacture and use of fertilizers
CYCLES OF NATURE THERE ARE 4 CYCLES THAT NATURE GOES THROUGH TO KEEP OUR BIOSHPERE IN LIVABLE CONDITIONS WATER CYCLE CARBON CYCLE PHOSPHORUS CYCLE NITROGEN CYCLE
WATER CYCLE Water continuously moves between the oceans, the atmosphere, and land- sometimes outside living organisms and sometimes inside them This cycle is made up of a few main parts: Water molecules enter the atmosphere as water vapors evaporation (transpiration) condensation (form clouds from water droplets) precipitation (rain, snow, sleet, hail groundwater, runoffs) collection (plant roots, reservoirs)
CARBON CYCLE ORGANISMS USE CARBON FOR GROWTH AND ENERGY. Carbon dioxide is exchanged between the atmosphere and the ocean (chemical and physical processes) Uses of carbon: Plants( photosynthesis-make carbohydrates) Consumers( eat plants, combine CO2 w/ calcium and oxygen to build skeletons) Organisms release carbon dioxide(respiration) Decomposers(release CO2 in the atmosphere When they breakdown organisms
NITROGEN CYLCE Most abundant Organisms require nitrogen to make amino acids(form DNA/RNA) N2 = make up 78% Earth’s atmosphere Found in soil, waste products, decaying matter Ammonia NH3 Nitrate ions NO3- Nitrite ions NO2- Ocean- Nitrogen is dissolved Bacteria - turn into ammonia (nitrogen fixation) Turn nitrates into gas released in the atmosphere ( denitrification)
NITROGEN CYLCE Atmospheric nitrogen fixation- lightning converts little nitrogen into usable forms. Human contribution to the nitrogen cycle: Manufacturing and fertilizer.
PHOSPHORUS CYCLE Essential to living organisms Form DNA/RNA Not abundant in biosphere Forms inorganic phosphate Remains on land Phosphoric rock Soil minerals Oceans - Dissolved phosphate sediments
PHOSPHORUS CYCLE Rocks/sediments breakdown and phosphate is released. land( soil) Food web (producer-consumer- ecosystem) Washes into rivers, streams
Ecology Need to Know
WHERE AN ORGANISM LIVES OUT ITS LIFE HABITAT WHERE AN ORGANISM LIVES OUT ITS LIFE
NICHE ALL STRATAGIES A ANIMAL USES TO FIND FOOD AND SHELTER. HOW THE ORGANISM SURVIVES
SURVIVAL RELATIONSHIPS SYMBIOSIS: THE CLOSE & PERMINANT RELATIONSHIP BETWEEN DIFFERENT SPECIES EXAMPLE: BIRDS USUALLY EAT WORMS CATS USUALLY EAT MICE SHARKS USUALLY EAT SMALLER FISH
TYPES OF SYMBIOSIS MUTUALISM COMMENULISM PARASITISM THERE ARE 3 TYPES OF SURVIVAL RELATINSHIPS MUTUALISM COMMENULISM PARASITISM
MUTUALISM A SYMBIOTIC RELATIONSHIP WHERE BOTH SPECIES BENEFIT FROM EACH OTHER
COMMENSALISM A SYMBIOTIC RELATIONSHIP WHERE SPECIES A BENEFITS AND THE SPECIES B IS NOT HARMED OR BENEFITS FROM SPECIES A
PARASITISM SYMBIOTIC RELATIONSHIP WHERE A MEMBER OF ONE SPECIES BENEFITS FROM ANOTHER SPECIES BY HARMING IT