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Living World and Populations Review

Living World and Populations Review. Ch’s 4, 5, and 6. Ecology. Ecology from big to small Biosphere Ecosystem- abiotic and biotic Communities- different species living in same area (does not include abiotic factors) Populations- same specie living in an area

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Living World and Populations Review

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  1. Living World and Populations Review Ch’s4, 5, and 6

  2. Ecology • Ecology from big to small • Biosphere • Ecosystem- abiotic and biotic • Communities- different species living in same area (does not include abiotic factors) • Populations- same specie living in an area • Organism- simplest unit, makes up a population

  3. Population Dispersal • Clumped • Random • Uniform

  4. Ecosystem Characteristics • Physical appearance- relative size, stratification, pop distribution • Species diversity- # of diff speices • Species abundance= # of ind of each species • Niche structure= # of eco niches, how they resemble or differ from eachother, species interactions

  5. Ecological Niches • A particular area within a habitat occupied by an organism that includes the function of that organism w/in an ecological community

  6. Interaction among species • Amensalism-  :I = one suffers and one is not effected • Penicillium and bacteria • Commensalism-  :I = one benefits and the other is not affected • Remora and shark • Competition-   = one benefits one is harmed • Hunting • Mutualism-   = both benefit • Bees pollinating flowers • parasitism=-   = one is benefited at the expense of another • Predation-   = good for one, bad for the other • Cougar and bunny • Saprotrophism-  :I = obtain nutrients from dead or decaying materials

  7. Keystone species • Really important to the ecosystem • Presence contributes to the diversity of life • If they are extinct then others will follow • Examples) • grizzly bear: transfer nutrients: capture salmon and take them to dry land • Sea stars: prey on sea urchins, mussels, and shellfish, they are the only natural predator, if they are removed, mussel population would grow to much and damage coral reef • Sea otters: protect kelp forest by eating sea urchins that destroy kelp roots • Prairie dogs: create burrows that are used as safe havens for many other species

  8. Species Diversity • Organisms live in diff environments and are adapted to those biomes • Aquatic- don’t spend energy on temperature regulation • Desert – succulents store water, small surface areas exposed to sunlight • Grassland- drought resistant and grass grows our from the bottom to regrow after being eaten • Forest- large leaves to capture scarce light • Temperate scrub forest- chapparal, small waxy coated leaves • Tundra- plants adapted to low light, small amounts of water, low temps, grow mostly in summer

  9. Edge effect • Local environmental changes along a boundary or edge • Example: clear cutting allows sunlight to reach floor of forest making the ground dryer and warmer

  10. Biomes • Antarctic • Benthos • Coastal zones • Coral reefs • Deserts • Freshwater wetlands • Grasslands • Hydrothermal vents • Intertidal • Ocean • Savannas • Taiga • Temperate deciduous forest • Temperate rain forest • Temperate shrub land aka Chaparral • Temperate woodlands • Tropical rainforests • Tropical seasonal forest • Tundra

  11. Energy Flow • Sun is ultimate energy source • Photosynthesis and cell respiration= know basic functions of it!

  12. Food webs and trophic levels • Primary producers= autotrophs= plants • Make food/ photosynthesis • Primary consumers= heterotrophs= herbivores • Eat plants/ cell resp • Secondary or higher consumers= heterotrophs • Carnivores or omnivores • Remember- arrows always go in the direction of energy flow!

  13. Ecological/Trophic Level Pyramids • 90% of energy lost at each level • Less than 3% of light that reaches earth is used in photosynthesis • Aquatic ecosystem is only one that can have a larger heterotrophic biomass • All others have more biomass on lower levels of pyramids

  14. Biodiversity Diversity increasers Diversity decreasers Environmental stress Extreme environ Supply limitations Disturbance in extreme amounts Introduction of species Geographic isolation • Diverse habitats • Disturbance • Conditions with low variations • Trophic levels with high diversity • Middle stages of succession • Evolution

  15. Natural selection • Directional selection- individuals toward one end will do well • Stabilizing selection- pays to be normal, differences do not help • Disruptive selection- its not good to be normal, differences are selected for

  16. Processes of natural selection • Competition • Increase in phenotypic adaptations • Exponential increase in pop • Variations • Limited resources

  17. Define • Speciation • Convergent evolution • Evolutionary relay • Parallel evolution • Graduated equilibrium • Punctuated equilibrium

  18. Major climatic periods • Figure 4.22 – shows changes in temp in last 200 years • Know iceages and cooling trends from 2,000,000 BCE to present • Page 104-105

  19. Succession • Annual plants  perennial plants and grass  shrubs  pines  hardwood trees • Most diversity in mid succession • Know the characteristics of the plant communities early vs late succession

  20. Bio Geochemical cycles

  21. Carbon • Major Carbon sinks: • Plant matter • Terrestrial biosphere • Oceans • Sedimentary deposits • Marine sediments/rocks= 75,000,000 bill tons • Ocean= 40,000 bill tons • Fossil fuels= 4,000 bill tons

  22. Carbon and Atmos. • Released back into atmosphere through: • Cellular reparation • Decay of dead material • Burning fossil fuels • Weathering of rocks • Volcanoes • Release by warm ocean waters

  23. Nitrogen • Nitrogen fixation-(nitrogen) N2 (ammonia) NH3 or (nitrate ions) NO3- • Nitrification- NH3 (oxidized )NO2- (nitrite) and NO3- (nitrate) • Assimilation – when animals consume nitrogen based compounds • Ammonification – nitrogen  NH3 • Denitrification – Nitrates  N2 (gas)

  24. Too much Nitrogen?? • From planting legumes • Chemical fertilizers • Burning biomass • Cattle and feedlots (wastes) • Industrial proccesses

  25. Phosphorus • Found in rocks • Only one that is not found in the atmosphere during any part of cycle • Released by weathering, acid rain, dissolved into soil and taken up by plants • Key element in fertilizers • Clear cutting causes a decrease in phosphorus in soil • Becomes limiting factor in plant growth

  26. Sulfur • Most if found in rocks and deep ocean deposits • Release from weathering of rocksand gas release from vents • Form of hydrogen sulfide ( H2S) and sulfur dioxide SO2 • Converted to SO3 and then to sulfuric acid H2SO4

  27. Water • Powered by solar energy • Precipitation • Evaporation • Transpiration • Condensation • Groundwater

  28. Human activity on water cycle

  29. Population

  30. Population ecology • PVA- population viability analysis • Factors that affect PVA • Good conditions + • Bad conditions – • Few competitors + • Unable to migrate – • No defense mechanism – • Able to adapt +

  31. Carrying capacity (K) • S- shaped curve- logistic, shows a population reaching carrying capacity for the environment • Fluctuations around Carry Capacity= pop growth slows down and begins to stabilize

  32. Reproductive strategies r- strategists K- strategists Mature slow Long life Few offspring Pred and prey High parental care • Mature fast • Short life • Usually prey • Too Many offspring • Not endangered • Low prenatal care • Density dependent factors are limits • Small • Type III surv. Curve • Insects rodents

  33. Survivorship Curves • I= late loss • Low infant mortality • Death rates increase as age increases • II= constant loss • All age categories have equal death rate • III= Early loss • A lot of offspring • Death is prevalent early in life, decrease as age increase

  34. Human Population Dynamics • Population change= (crude birth rate + immigration) – (crude death rate + emigration)

  35. Human distribution patterns • 1800= 65% lived in asia and europe • 1900= 25% lived in just europe (indus rev)

  36. Fertility Rates • RLF= replacement level fertility • Couple replaces themselves ( 2 kids per couple) • MDC= moderately developed countries • LDC- less developed countries • TFR= Total fertility rate • Avg # of kids per womans lifetime • Niger = highest TFR @ 7.46 kids per woman

  37. Rule of 70 • Doubling time= 70/rate of growth • Example– • 2% annual growth rate • Doubling time = 70/ 2= 35 years to double

  38. Demographic transition • Stage 1- pre- industrial • Little pop growth • Birth rates and death rates high • Stage 2- transitional • Start of industrialization • Medical care increases • Birth rate increase, death decreases= increase growth rate • Stage 3- industrial • Birth rate drops- death rate keeps dropping • Growth rate slows • Stage 4- post- industrial • Birth rates = death rates= ZPG (zero pop growth) • Standard of living higher

  39. Impacts of pop growth • Hunger • Poverty • Droughts • Populations surpassed Carry capacity • Political instability- mass migrations • Food exportation- sell to highest bidder

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