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Biology I Comp 3 Review

Biology I Comp 3 Review. Organisms and Their Environments. Introduction to Ecology . Ecology is the study of organisms and their interactions with their environment. The environment includes 2 types of factors: Biotic factors – the living parts of the environment

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Biology I Comp 3 Review

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  1. Biology IComp 3 Review Organisms and Their Environments

  2. Introduction to Ecology • Ecologyis the study of organisms and their interactions with their environment. • The environment includes 2 types of factors: • Biotic factors – the living parts of the environment • Plants, animals, bacteria, fungi, etc • Abiotic factors – the nonliving parts of the environment • Water, oxygen, light, temperature, etc.

  3. Nutrient Cycles • Some abiotic factors are nutrients that are needed by plants and animals to survive. • These nutrients are cycled through the ecosystem. • Helps maintain homeostasis, or balance, within the environment. • The 3 main nutrient cycles are: • Water • Carbon • Nitrogen

  4. Water Cycle • Evaporation – water changing from a liquid to a gas • Transpiration – water evaporating from the leaves of plants • Condensation – water changing from a gas to a liquid • Precipitation – water returning to the land in the form of rain, sleet, hail, or snow

  5. Water Cycle

  6. Carbon Cycle • Photosynthesis and Cellular Respiration cycle carbon and oxygen through the environment • Photosynthesis uses CO2 and produces O2 • Respiration uses O2 and produces CO2 • Carbon may be returned to the soil through decomposition • Carbon may also returned to the atmosphere through volcanic activity and burning fossil fuels

  7. Carbon Cycle e

  8. Nitrogen Cycle • Most Nitrogen is found in the atmosphere, but organisms can’t use it in that form • Atmospheric Nitrogen is made usable for living things through Nitrogen Fixation • Nitrogen-fixing bacteria on the roots of some plants • Lightning strikes • Denitrification – other bacteria in the soil can convert “fixed” nitrogen back into Nitrogen gas (N2)

  9. Nitrogen Cycle • Assimilation – Plants use Nitrogen in the soil to form amino acids and other organic compounds • Consumers obtain Nitrogen from eating producers • When plants and consumers die, decomposers return the Nitrogen to the soil

  10. Nitrogen Cycle

  11. Levels of Organization - Ecologists can look at the world in levels of increasing complexity Bio-sphere Biome Population Community Ecosystem Organism

  12. Levels of Organization • Organism – • Any unicellular or multicellular form that exhibits all the characteristics of life • An individual • Example: A zebra • Population– • A group of organisms of the same species that live together in a certain area • Interbreed and compete for resources • Example: A herd of zebras

  13. Levels of Organization • Community – • Groups of organisms of differentspecies that live together in a certain area • Example: A herd of zebras, a pride of lions, & a pack of hyenas • Ecosystem– • All the living and nonliving things in a certain area • Communities and the abiotic factors with which they interact • Example: Zebras, lions, hyenas, rocks, air, water, etc.

  14. Levels of Organization • Biome • a group of ecosystems that have similar climates and communities • Example: Savanna • Biosphere • the entire portion of the planet that supports life

  15. Biomes • Aquatic • Terrestrial • Tundra • Taiga • Tropical Forest • Savanna • Desert • Temperate Grassland • Temperate Deciduous Forest

  16. Tundra • Arctic • Little precipitation: 15-25 cm/year • Average winter temp. -30 degrees C • Summer < 10 degrees C • Long winter; very short summer • Permafrost – almost permanently frozen snow/ice

  17. Artic fox Tundra • Small plants with short roots, a few DWARF shrubs • Migratory animals or animals with High tolerance for very harsh conditions • Adaptations: Animals may have white fur for camouflage. Plants have short roots because of permafrost. Caribou Polar bear Bearberry

  18. Taiga (Northern Coniferous Forest) • Seasonal rainfall: 30-80 cm; some much more • Winters -50 degrees C in winter • Summer 20 degrees C • Long winter; short summer

  19. Spruce Taiga (Northern Coniferous Forest) • Plants: cone-bearing trees, diverse shrubs, lichens & mosses • Animals: Migratory animals, large herbivores & predatory animals • Adaptations: Plants with waxy needles to help retain water. Animals may hibernate during coldest months Moose Bear Timber wolves

  20. Tropical Rain Forest • Seasonal rainfall: 200-400 cm/yr • 25-29 degrees C year round • Located along the equator • Summer year round

  21. Sloth Orchids Tropical Forest • Most diverse species of plants & animals • Plants: Broad leaves, vines, orchids, bromeliads. Soil lacks nutrients • Animals: Lots of insects and tree dwellers • Adaptations: Many forms of camoflauge, bright colors, diet heavy on fruits Boa constrictor Poison Dart Frog Jaguar Toucan

  22. Savanna • Seasonal rainfall; 50-120 cm/yr, with a long drought season • Temperature: 20-30 degrees C (warm!) • Distinct wet and dry seasons • Frequent fires during dry season

  23. Aardvark Savanna • Plants: Tall grasses, scattered small trees and shrubs • Animals: Lots of herbivores (grazers), and carnivores (hunters) • Adaptations: Drought tolerant & fire-resistant Cheeta Giraffe Elephant Lion

  24. Desert • Rainfall < 25 cm/yr (arid/dry) • Hot deserts > 50 degrees C • Cold deserts (Antarctica) <-30 degrees C • Extreme changes in temperature • Ex: Very hot during the day & cold at night

  25. Rattlesnake Desert • Plants: Cacti, creosote bushes, succulents • Animals: small nocturnal carnivores, reptiles, birds & insects • Adaptations: Plants with deep roots and thick leaves to obtain and hold water. Reptiles with thick, waterproof skin to hold water. Many nocturnal animals. Roadrunner Cactus Kangaroo Rat Fennec Fox

  26. Temperate Grassland • Dry winters, wet summers: 30-100 cm/yr.; seasonal drought • Cold winters < -10 degrees C; Hot summers 30 degrees C • Seasonal drought & periodic fires • Dark rich soil

  27. Blazing stars Temperate Grassland • Plants: Lush grasses & wildflowers • Animals: Large herbivores & predators, burrowing mammals • Adaptations: Drought & fire-resistant plants. Pronghorn antelope Black-tailed prairie dog Coyotes Bison

  28. Temperate Deciduous Forest • Rainfall: 75-150 cm/yr • Cold Winters & hot summers. 0-35 degrees C • 4 distinct seasons • Our biome!

  29. Skunk Temperate Deciduous Forest Maple • Plants: Deciduous & coniferous trees, shrubs, mosses, ferns • Animals: variety of mammals, birds, insects • Adaptations: Deciduous trees lose their leaves in winter to keep from freezing. Some migratory animals & birds. Turkey Squirrel Deer Raccoon Bobcat

  30. Types of Interactions Between Organisms • Competition – when resources are scarce, only some organisms will survive • Food Chains & Webs – diagrams showing the feeding relationships in an ecosystem • Predator/Prey Relationship – some animals hunt others for food • Symbiotic Relationship – close interaction between two or more organisms of different species

  31. Competition • When resources are limited, competition for those resources results. • Intraspecific competion – between organisms of the same species • Interspecific competition – between organisms of different species

  32. Competition • Limiting Factor – any biotic or abiotic resource that limits the growth of an organism or population in a specific environment • Availability of water • Availability of food • Availability of habitat • Temperature

  33. Competition • Density Dependent Limiting Factors – depend on the number of organisms in a population • Food, Water, Predation, Disease • Density Independent Limiting Factors – do Not depend on the number of organisms in a population • Weather, Natural Disasters, Human Activities

  34. Competition • Habitat – the place where an organism lives • Niche – the role an organism plays in its environment • If two organisms occupy the same niche they will compete for resources until one species is forced out Niche Partitioning for Warblers

  35. Food Chains & Webs • Producers (Autotrophs) – Produce their own food through Photosynthesis or Chemosynthesis • Ex: Plants, algae • Consumers (Heterotrohps) – Must consume other organisms for food & energy

  36. Food Chains & Webs Types of Consumers • Herbivores – Primary consumers • Eat Plants • Carnivores – Secondary & higher consumers • Eat other animals • Omnivores • Eat both plants and animals

  37. Food Chains & Webs Types of Consumers (continued) • Detritivores – Feed on organic waste (dead plants and animals) • Ex: Earthworms • Decomposers – Breakdown dead plants & animals into simpler molecules that can be absorbed • Ex: Bacteria, Fungi

  38. Food Chains & Webs • The arrows in a food chain/web show the flow of energy from one organism to the next • Only 10% of the available energy is transferred from one trophic level to the next. The rest is lost as heat. • The Trophic Level of an organism is the position it holds in a food chain/web/pyramid • (Primary, Secondary, Tertiary, etc.)

  39. Food Chains & Webs • Food Chain – a linear representation of energy transfer between organisms

  40. Food Chains & Webs • Food Web – a network of interconnected food chains in an ecosystem

  41. Food Chains & Webs • Food Pyramids • Pyramid of Energy – Shows the amount of energy available at each trophic level • Biomass Pyramid – Shows the amount of biomass at each trophic level • Pyramid of Numbers – Shows the number of individual organisms at each trophic level

  42. Food Chains & Webs Energy Pyramid Pyramid of Numbers Biomass Pyramid

  43. Predator/Prey Relationships • Predator populations can control the size of Prey populations, and vice versa. • The Top Predator in an ecosystem has no natural predators.

  44. Symbiotic Relationships • Symbiosis – two organisms of different species living closely together. • There are 3 types of Symbiosis • Commensalism • Mutualism • Parasitism

  45. Symbiotic Relationships • Mutualism – Both species benefit • Commensalism – One species benefits and the other is not affected • Parasitism – One species benefits and the other is harmed (parasite & host)

  46. Biological Magnification • Chemicals or toxins may be introduced into an ecosystem through human actions. • As they move up through a food chain, they have a more severe affect on each higher trophic level. • Ex: DDT

  47. Ecological Succession • Ecological Succession – the predictable and orderly changes in the composition or structure of an ecological community over time. • Pioneer species – the first species to populate an area • Climax community – the final community of organisms in an ecosystem once it becomes stable

  48. Ecological Succession • Primary Succession – occurs on surfaces where no soil exists • Ex: Volcanic rock surfaces after an eruption

  49. Ecological Succession • Secondary Succession – occurs on pre-existing soil • Ex: A forrest after being burned or cleared for construction

  50. Human Impact on Ecosystems • Biodiversity is the variety of life in an ecosystem • It may be decreased by human activities such as: • Use of pesticides and chemical fertilizers • Deforestation and clearing land for construction • Introducing non-native species • Exploitation of wildlife

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