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ECOLOGY chapter 50

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ECOLOGY chapter 50 Ecology: Study of interactions between organisms and their environment. Environment includes both abiotic (non-living) and biotic (living) components. – PowerPoint PPT presentation

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Title: ECOLOGY chapter 50


1
ECOLOGY chapter 50
  • Ecology Study of interactions between organisms
    and their environment.
  • Environment includes both abiotic (non-living)
    and biotic (living) components.
  • Abiotic light, water, nutrients, chemicals,
    rocks, weather, etc.

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  • Biotic organisms.
  • Organisms compete with, parasitize, eat or are
    eaten by and change the environment for other
    organisms.

3
  • Ecology explores a wide range of questions about
    what factors control the distribution, abundance
    and behavior of organisms.
  • For example, Red Kangaroos occur primarily in
    the Australian interior in semiarid regions.

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  • Distribution of Kangaroos suggests an abiotic
    factor (precipitation) influences it, but perhaps
    populations also influenced indirectly by biotic
    factors such as competitors, predators, food
    availability and parasites.
  • Ecologists have to consider multiple factors to
    explain patterns of abundance and distribution.

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  • Ecology has many subfields of study ranging from
    ecology of individual organisms to dynamics of
    landscapes
  • Organismal Ecology
  • Population Ecology
  • Community Ecology
  • Ecosystem Ecology
  • Landscape Ecology
  • We will explore these sequentially

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Distribution of species
  • Biogeography study of the broad patterns of
    distribution of organisms across the globe.
  • Patterns strongly influenced by historical
    factors such as continental drift (see chapter
    26) and barriers including mountain ranges and
    seas.

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  • For example, Australia populated by marsupial
    mammals (e.g. kangaroos, wombats, koalas) because
    placental mammals did not colonize it before it
    separated from other landmasses.
  • Tapirs found only in southeast Asia and South
    America. Ancestral populations separated when
    land masses diverged.

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Role of dispersal in distribution
  • Ability to cross barriers affects distribution.
  • Thus, species of birds often more widely
    distributed than mammals.

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  • However, inability to reach an area not only
    factor that limits distribution. Ability to
    survive in new area is critical.
  • To survive and thrive species must be able to
    cope with both biotic and abiotic factors.

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Biotic factors
  • The presence of competitors or predators may
    limit an organisms ability to establish itself.
  • For example, algae are eaten by sea urchins and
    limpets, which limits the ability of seaweeds to
    establish themselves on rocks

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Biotic factors
  • Conversely, absence of predators and competitors
    has allowed many organisms introduced into new
    areas to increase so much they become pests.
  • E.g. Japanese beetles (from Asia), zebra mussels
    and purple loosestrife from Europe) (Melaleuca
    (Eucalyptus trees from Australia) and many other
    invasive species have spread widely in the U.S.

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Abiotic factors
  • The major factor affecting distribution of
    terrestrial organisms is climate, which
    incorporates temperature, sunlight, wind and
    precipitation.

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Abiotic factors
  • Climate is determined by global factors such as
    inputs of solar energy and the movement of the
    earth through space.
  • Study discussion of climate patterns pages 1088
    and 1089

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Climate
  • Local factors such as the presence of mountains
    and large bodies of water also affect climate.
  • Mountains force up moist air moving across them.
    As the air cools the water condenses and falls as
    rain. The result is that one side of the
    mountain range is wet and the other side is drier
    (and perhaps a desert e.g. Mojave and Gobi
    Deserts.)

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Climate
  • Large bodies of water moderate climate. Land
    heats faster than water and warm air rises.
  • Cooler air over water moves in and replaces the
    warm air.
  • The warm air that was over land cools at high
    altitude and sinks over water.
  • Results is steady flow of cool air over land.

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Terrestrial Biomes
  • Biomes are major types of ecosystems that cover
    large areas of the earth and are classified by
    their dominant vegetation types.
  • (an ecosystem is the community of organisms in an
    area and their physical environment)

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  • Each biome also is populated by a diverse array
    of animals, fungi and microorganisms adapted to
    that environment.

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Major terrestrial biomes include
  • Tropical forest
  • Desert
  • Temperate Grassland
  • Savanna
  • Temperate broadleaf forest
  • Coniferous forest (Taiga)
  • Tundra
  • (see descriptions pages 1100-1104)

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Savannah
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Terrestrial biomes
  • Terrestrial biomes often vertically stratified.
    Layers defined by different size plants
  • (e.g. in forests there is an upper canopy of tall
    trees, low tree layer, shrub layer, ground layer
    of herbaceous plants, litter layer and root
    zone).

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  • Stratification provides multiple different
    habitats for animals which occupy specialized
    feeding niches.

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Convergent evolution
  • Actual species in a biome differ from one area to
    another but they possess similar adaptations.
  • This is convergent evolution (development of same
    evolutionary solutions to ecological problems)

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Convergent evolution
  • For example vegetation in all deserts worldwide
    characterized by extensive root systems,
    long-term water storage capability, thick waxy
    coverings to reduce water loss, and extremely
    small (if any) leaves

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  • Biomes often maintained by disturbance.
  • Wildfires are an essential factor in maintaining
    many biomes (e.g. grasslands, savannahs, some
    coniferous forests). Fire favors trees such as
    longleaf pine whose bark resists fire and
    grasses, which recover quickly after burning.

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Aquatic biomes
  • Aquatic biomes less influenced by climate than
    terrestrial biomes
  • Why?

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Aquatic biomes
  • Water is more thermally stable.
  • It takes a lot of heat to change the temperature
    of a body of water.

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Major aquatic biomes
  • Lakes
  • Rivers
  • Estuaries
  • Intertidal zone
  • Marine pelagic zone
  • Coral reefs
  • Marine benthic zone (benthic zone is
    sea/lakefloor)
  • See pages 1094-1097.

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  • Aquatic biomes often stratified by light and
    temperature.
  • Light intensity decreases with depth. Upper
    (photic) zone supports photosynthesis.
  • In ocean photic zone narrow but contains most
    organisms.

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  • Aphotic zone sparsely populated.
  • Benthic zone (bottom) organisms often depend on
    rain of dead organic matter (detritus) from
    above.

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Thermal stratification of lakes
  • In temperate areas lakes are thermally stratified
    in summer and winter.
  • Water densest at 4ºC so water at this temperature
    sinks through colder or warmer water.
  • Thus, in spring and fall all water in lake mixes
    which redistributes nutrients throughout the lake.

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