1 / 46

An Introduction to Ecology: Distribution and Adaptations of Organisms

An Introduction to Ecology: Distribution and Adaptations of Organisms. Ecology. (from the Greek oikos, “home” and logos , “to study”) the scientific study of the interaction between organisms and their environments

crystal
Download Presentation

An Introduction to Ecology: Distribution and Adaptations of Organisms

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. An Introduction to Ecology: Distribution and Adaptations of Organisms

  2. Ecology (from the Greek oikos, “home” and logos, “to study”) • the scientific study of the interaction between organisms and their environments • ecology incorporates hypothetico-deductive methods, using observations and experiments to test hypothetical explanations of ecological phenomena

  3. Ecology • Math • Genetics • Geology • Biology • Chemistry • Physics

  4. Ecology • behavioral biology -entomology • physiology -land-use planning • public health - molecular biology • agriculture - agronomy • computer science - engineering • forestry - oceanography • evolution • bacteriology

  5. Environment • all external conditions and factors, living and nonliving that affect an organism or other specified system during its lifetime • abiotic (temperature, light, water, nutrients, etc.) • biotic - organisms that are part of any individual’s environment

  6. Ecology • autecology - concern with individual species • synecology - concerned with the group • kinds of ecology • aquatic -island • marine -paleoecology • freshwater - behavioral • desert - applied • forest - exotic

  7. subatomic particles --->atoms ---> molecules --->protoplasm ---> cells ---> tissues ---> organs ---> populations ---> communities ---> ecosystems ---> biosphere ---> planets ---> solar systems ---> galaxies ---> universe

  8. bioshpere - largest, most nearly self sufficient biological system • biome - large regional or subcontinental “biosystem” characterized by major vegetation type or other features • ecosystem - community + nonliving environment • community - all populations in a given area • population - groups of individuals of any one kind

  9. Ecosystem • 1877 - Karl Mobius (Ger.) “biocenosis” used in description of organisms along an oyster reef • 1887 - S. A. Forbes (U.S.) “microcosm” used in relation to a lake • 1935 - A. G. Tansley (G.B.) coined “Ecosystem” • 1940’s - V.V. Dokuchaev (USSR) and G. F. Morozov (USSR) emphasized “biocenosis” • 1940’s “geobiocenosis” expanded from biocenosis

  10. Abiotic Factors • light • soild • currents and pressures • nutrients • atmospheric gases • water • temperature • environmental effects, i.e. fire, flood, drought

  11. Light • different responses to different wavelengths • photosynthesis (red and blue most efficient) • red algae (absorb green to aid in photosynthesis because water absorbs blue light) • color vision (fish, some reptiles, birds, most mammals) • cockroaches and other insects (uv)

  12. photoperiodism - response to duration of light • latitude of 40N (Washington, DC) has day length range of 6 hours in winter to 18 hours in summer • affects daily, seasonal, annual balance • migration of birds (buzzards, swallows) • shedding of leaves in the fall • color changes in fur • blooming of flowers • long day (bloom in summer) • short day (bloom in spring and fall)

  13. intensity • rate of photosynthesis • singing of birds • order in which birds sing • strength of song

  14. Water • Precipitation • hydrologic cycle 97-99% of water transpired each day • succulents - 500 g water = 1 g glucose • Humidity • absolute (amount of water in air) • relative (% of water in air compared to how much air can hold at same temperature and pressure) • Aquatic environments • marine • freshwater

  15. Hydrologic Cycle • transpiration • precipitation • condensation • evaporation • percolation • runoff • ground water

  16. Temperature • plants and temperature • extremes in temperatures (more perennials) • affects transpiration • modifications to retard or speed up transpiration • animals (thermoregulation) • most plants and animals are poikilotheremic (cannot maintain a constant temperature - not cold blooded)

  17. diapause (resting stage, i.e. insects during temperature extremes) • estivation (summer dormancy, i.e. frogs burrowing into mud during hot periods) • homeothermic (body temperature regulated internally and remains fairly constant) • turpor (suspended animation, i.e. bears body temp drops during cold weather to conserve energy • hibernation (severe reduction in body temperature for prolonged periods (ground squirrels, bats, ground hogs, whip-or-wills)

  18. Thermoregulation • behavioral • turpor • hibernation • estivation • anatomical • ears of rabit and elephant dissipate heat • body hair • physiological • rete mirabile • capillaries • temperature

  19. Atmosphere • trophosphere 0-17 km • 78% nitrogen • 21% oxygen • <1% Ar • 0.035% carbon dioxide • 0.01-5% water vapor • stratosphere 17-48 km • ozone layer 17-26 km • mesosphere 48-94 km

  20. Pollutants in the Atmosphere • carbon oxides • carbon monoxide (CO) • carbon dioxide (CO2) • sulfur oxides • sulfur dioxide (SO2) • sulfur trioxide (SO3)

  21. nitrogen oxides • nitric oxide (NO) • nitrogen dioxide (NO2) • nitrous oxide (N2O) • volatile organic molecules • methane • benzene • chlorofluorocarbons • bromine containing halons

  22. suspended particulates • dust • soot • asbestos • lead • arsenic • cadmium • nitrates (NO3-) • sulfates (SO4-2)

  23. droplets (liquids) • sulfuric acid (H2SO4) • oil • polychlorinated biphenyls (PCB’s) • dioxins • pesticides • photochemical oxidants • ozone (O3) • peroxyacyl nitrates (PAN’s) • hydrogen peroxide (H2O2) • aldehydes (formaldehyde)

  24. radioactive substances • Radon 222 • iodine 131 • strontium 90 • plutonium 239 • heat • noise

  25. Currents and Pressures • Wind • Krummholz structure on vegetation (gnarled, twisted, supine trees at tree-line) • flagging structure on vegetation • Water currents • structural adaptations of plants & animals • behavioral adaptations (rheotaxis) • Air & Water Pressure (33 feet, 1 atm) • Gravity • geotrophisms

  26. Global Air Circulation and Rain Shadows to Form Deserts

  27. Environmental Affects • Fires • fire ecology • slash, longleaf habitats • jack pines, sand pines • everglades • grasslands • pitcher plant bogs • scrub oaks • animals (scrub jays)

  28. Floods • Drought • Tolerances in Plants • surface area of leaves • pubescence of leaves • hypodermis in pines • wax coatings • extra layers of epidermis • sunken stomata • Tolerances in Animals • uric acid and urine concentration • behavioral patterns

  29. Nutrients • How do organisms obtain nutrients? • photosynthesis • food webs, food chains • cycles • carbon • phosphorus • nitrogen • water • oxygen • sulfur

  30. Leibig’s Law of the Minimum • All organisms need minimum amounts of nutrients in order to survive, grow, and reproduce. • Also includes heat, light, water, etc.

  31. Nutrients • Macronutrients • nitrogen • potassium • calcium • phosphorus • magnesisum • sulfur

  32. Micronutrients • iron • chlorine • copper • manganese • zinc • molybdenum • boron • Elements Essential to Some Plants or Animals • sodium • cobalt

  33. Soil Profile • humus (organic matter) • topsoil (decomposing organic material, live organisms, some minerals) • zone of leaching • zone of accumulation (iron, aluminum, organic matter, clays) • parent material (partially broken down inorganic material) • bedrock (impenetrable for most part)

  34. Formation of Soil From Rock • Mechanical Weathering • frost action • frost wedging • frost heaving • abrasion • pressure release • plant growth (roots) • burrowing animals • crystalizations of salts • temperature extremes, i.e. forest fires

  35. Chemical Weathering • oxygen 4FE + 3O2 ---> 2Fe2O3 (hematite) • acids • CO2 + H2O <=> H2CO3 <=> H+ + HCO3- (carbonic acid) (bicarbonate ion) • CaCO3 + CO2 + H2O <=> Ca+3 + 2HCO3- (calcite) or • CaCO3 + H+ + HCO3- <=> Ca+2 + 2HCO3- • solution weathering (see above) • lichens

  36. Soil and Climate • due to climate, water movement affects soils • pedalfers (eastern U.S.) effective downward leaching due to high rainfall & acids produced by decaying humus. (high aluminum and iron oxides) - clay, minerals • pedocals (western U.S.) little leaching- evaporation pulls water out of ground (precipitation of salts, especially calcite) alkalai soils, heavy sodium salts • laterites (tropical) high rainfall, heavy leaching - red soils with iron and aluminum oxides (nonproductive soils because of excess leaching)

  37. Alexander Von Humboldt(1769-1859) • German scientific explorer • extensive exploration in Mexico, down through Ecuador • realized species diversity of tropical rain forests • recognized plants occur in repeatable groups relating to soils, climate, and biological interactions • relationships between plant communities and latitude and altitude • influenced Thomas Jefferson’s exploration of Louisiana Purchase • Humboldt Current named after him

  38. Altitude, Latitude and Plant Communities • snow • tundra • taiga (boreal forests) tall trees with spiphytic mosses, liverworts and lichens • temperate forest • tropical rain forest

  39. Biotic Factors • symbioses • mutualism • commensalism • parasitism • predation • competition

  40. Competitive Exclusion Principle • No two species can coexist indefinitely on the same resource. • Methods to avoid competition • live in separate areas (geographic separation) • live in different habitats within same geographical area • use same habitat differently (i.e. vertical or horizontal separation) • temporal separation • nocturnal • diurnal • reproductive cycles

  41. Law of Tolerance • abudnance of organisms is greatest with tolerance to the environment. (There is not only a minimum but a maximum to environmental parameters

  42. Gaia Hypothesis(Gaia Gk. = earth goddess) • developed by James Lovelock in conjunction with Lynn Margulis • states life (especially micro-organisms) have evolved with abiotic factors to produce a controlled system that maintains earth’s favorable condition for life • life maintains the physical environment which in turn maintains the biotic environment

  43. Terrestrial Biomes • tropical forests • savannahs • deserts • chaparral • temperate grasslands • temperate deciduous forests • taiga • tundra

  44. Freshwater Biomes • ponds and lakes • streams and rivers

  45. Marine Biomes • estuaries • intertidal zones • coral reefs • oceanic pelagic • benthos

  46. Homeostasis and the Principle of Allocation • homeostasis - the maintenance of a steady-state internal environment in the face of extremes in external environment • regulators • conformers • principle of allocation - each organisms has a limited amount of energy that can be allocated for obtaining nutrients, escaping from predators, coping with the environmental fluctuations, growth and reproduction

More Related