ap biology chapter 50 (class)
TRANSCRIPT
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Chapter 50
An Introduction to Ecology and the Biosphere
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Ecology
The branch of biology that concerns interactions between organisms and their environments
Environmentalism
Having concern for, or acting in favor of, the environment
Ecology is not the same as environmentalism
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Levels of Biological Organization
BiomoleculeOrganelle
CellTissueOrgan
Organ SystemOrganismPopulationCommunityEcosystemBiosphere
Within the purview of
ecology
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Ecologists then try to figure out why, by asking mechanistic questions
Ecology
Two principal pattern-based questions are:
Where do organisms live?
How common or rare are they?
What factors determine the distribution of a species?
What factors determine the abundance of a species?
E.g.:
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Ecology
Fig. 50.2
Examples of ecological patterns: global distribution and abundance
E.g., red kangaroo
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Ecology
Distribution patterns may be characterized at a variety of spatial scales
E.g., Tetraphis moss
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Ecology
Range sizes
Few species are widespread (and common); most species have small ranges (and are rare)
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0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
5
0 50 100 150 200 250 300 350
Dominance-diversity curve for a 50-ha forest plot in Panama
1 50 100 150 200 250 300
1
10
100
1000
10000
100000
Relative abundance ranks of 300 species of trees
N
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Ecology
The environment of an organism includes bothabiotic and biotic components
Abiotic components = nonliving chemical and physical properties of an individual’s environment (e.g.,
temperature, light, water, nutrient availability, etc.)
Both abiotic and biotic factors may influence the distribution and abundance of a given species
Biotic components = all of the organisms that are part of an individual’s environment (e.g., predators, prey,
competitors, mutualists)
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Fig.50.8
Ecology
Consider this example: abundance of seaweed near Sydney, Australia
Abiotic factors dictate that the
abundance on dry land is 0% (not
shown in the figure)
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Ecology
Herbivore-removal experiments
supported the hypothesis that in the intertidal zone sea urchins are the main biotic factors
that limit the seaweed’s abundance
Fig.50.8
Consider this example: abundance of seaweed near Sydney, Australia
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See also Fig. 50.7
EcologyHistorical factors may also contribute to the
current distribution and abundance of a given
species
For example, there do not appear to be abiotic or biotic factors that would
keep African honey bees out of Brazil, yet there were no African honey
bees in Brazil before 1950
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EcologyIn 1950 why were there
no African honey bees in Brazil?
1. None had ever naturally dispersed to the
Americas from Africa
2. None had ever been introduced to the
Americas by humans
See also Fig. 50.7
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Ecology
Flowchart of factors limiting geographic distribution
Fig. 50.6
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Ecology
Flowchart of factors limiting geographic distribution
Fig. 50.6
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Ecology
Flowchart of factors limiting geographic distribution
Fig. 50.6
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Ecology
Flowchart of factors limiting geographic distribution
Fig. 50.6
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Fig. 50.5
Biogeography
Biogeographic realms or provinces delineate continental-scale regions that are relatively
isolated from one another
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Biogeography
Isolation has important consequences for evolution, so biogeographic realms encompass areas with broadly
similar evolutionary histories
Fig. 50.5
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E.g., Proteaceae – a plant family that originated in Gondwana
Macroevolution & Phylogeny
Continental drift is responsible for many biogeographic distribution patterns
Fig. 26.20
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Macroevolution & Phylogeny
Continental drift is responsible for many biogeographic distribution patterns
E.g., Marsupials originated on the supercontinent that became Australia, Antarctica, & S. America
Fig. 26.20
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Fig. 50.18
Global Climate Patterns
Regions of the globe can also be characterized by their abiotic conditions (e.g., climate)
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Global Climate Patterns
Climate broadly determines the traits of organisms found in a given location
Fig. 50.18
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Global Climate Patterns
This climograph identifies major kinds of ecosystems (known as biomes) in North America
Fig. 50.18
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Global Climate Patterns
The tropics are warm; the poles are cold
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Global Climate Patterns
The tropics are generally the wettest, latitudes around 30° are generally the driest, latitudes around 60° are
wet, and polar latitudes are dry
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Global Climate Patterns
Three main physical attributes of the Earth determine global climate patterns
See Fig. 50.10
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Global Climate Patterns
1. Shape of the Earth – causes unequal heating (energy per area) with latitude
See Fig. 50.10
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Global Climate Patterns
1. Shape of the Earth – differential heating and cooling causes rising and sinking air masses: Hadley cells
See Fig. 50.10
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Global Climate Patterns
1. Shape of the Earth – differential heating and cooling causes rising and sinking air masses: Hadley cells
See Fig. 50.10
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Global Climate Patterns
2. Revolution of the Earth on a tilted axis
See Fig. 50.10
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Global Climate Patterns
2. Revolution of the Earth on a tilted axis, which causes Hadley cells to change latitude with the seasons
See Fig. 50.10
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Global Climate Patterns
2. Revolution of the Earth on a tilted axis, which causes Hadley cells to change latitude with the seasons
See Fig. 50.10
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Global Climate Patterns
2. Revolution of the Earth on a tilted axis, which causes Hadley cells to change latitude with the seasons
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Global Climate Patterns
2. Revolution of the Earth on a tilted axis, which causes Hadley cells to change latitude with the seasons
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Global Climate Patterns
3. Rotation of the Earth about its axis
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Global Climate Patterns
3. Rotation of the Earth about its axis, which results in characteristic air and water currents
Currents are deflected to the right in
the Northern Hemisphere
Currents are deflected to the left in the
Southern Hemisphere
See Fig. 50.10
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3. Rotation of the Earth about its axis, which results in characteristic air and water currents
Global Climate PatternsSee Fig. 50.10
Currents are deflected to the right in
the Northern Hemisphere
Currents are deflected to the left in the
Southern Hemisphere
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Fig. 50.12
Local Abiotic Conditions
Local factors, such as topography, proximity to water bodies, and etc., superimpose their effects on the
climate of a terrestrial region to produce local abiotic conditions (e.g., weather)
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Aquatic Biomes
Occupy the largest proportion of Earth’s surface
Fig. 50.15
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Aquatic Biomes
Freshwater (< 1% salt) and marine (~ 3% salt)
Fig. 50.15
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Fig. 50.15
Aquatic Biomes
Freshwater: Lakes & Rivers
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Aquatic Biomes
Freshwater: Lakes (standing water)
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Fig. 50.16a
Aquatic Biomes
Freshwater: Lakes (standing water)
Photic zone – sufficient light penetrates for photosynthesis
Lake Zonation
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Aquatic Biomes
Freshwater: Lakes (standing water)
Aphotic zone – insufficient light penetrates for photosynthesis
Lake Zonation
Fig. 50.16a
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Aquatic Biomes
Freshwater: Lakes (standing water)
Benthic zone – the substrate
Lake Zonation
Fig. 50.16a
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Aquatic Biomes
Freshwater: Lakes (standing water)
Littoral zone – shallow, well-lit waters close to shore
Lake Zonation
Fig. 50.16a
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Aquatic Biomes
Freshwater: Lakes (standing water)
Limnetic zone – well-lit surface waters farther from shore
Lake Zonation
Fig. 50.16a
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Aquatic Biomes
Freshwater: Rivers (flowing water)
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Aquatic Biomes
Wetlands (marshes, swamps, bogs, etc.)
Areas covered for at least part of the year by water, and that support aquatic plants
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Aquatic Biomes
Estuaries
Fig. 50.15
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Aquatic Biomes
Estuaries (e.g., Sabine, Atchafalaya, Mississippi, Pearl)
The area where a freshwater river merges with the ocean; often bordered by wetlands
(mudflats and salt marshes)
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Aquatic Biomes
Marine biomes account for 75% of Earth’s surface
Fig. 50.15
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Fig. 50.16b
Aquatic Biomes
Marine zonation: Intertidal zone – where land meets sea; from highest high-tide mark to lowest low-tide mark
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Aquatic Biomes
Marine zonation: Neritic zone – shallow regions over the continental shelves
Fig. 50.16b
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Aquatic Biomes
Marine zonation: Oceanic zone – regions beyond the continental shelves
Fig. 50.16b
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Aquatic Biomes
Marine zonation: Pelagic zone – open water of any depth
Fig. 50.16b
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Aquatic Biomes
Marine zonation: Abyssal zone – the deepest benthos
Fig. 50.16b
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Aquatic BiomesMarine biomes: Intertidal, coral reef,
oceanic pelagic, benthic abyssal
Fig. 50.15
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Aquatic Biomes
Marine Biome: Intertidal zones
Alternately submerged and exposed by twice-
daily cycle of tides
The vertical zonation of organisms is common
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Aquatic Biomes
Marine Biome: Coral reefs
Warm, tropical waters near continents or islands
(neritic zone) often support coral reefs (built
by the cnidarians that give this biome its name)
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Aquatic Biomes
Marine Biome: Oceanic Pelagic
Open ocean waters usually have lower
nutrient concentrations than neritic waters, that phytoplankton – at the base of the food chain – nevertheless exploit
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Aquatic Biomes
Marine: Benthic abyssal
Abyssal organisms are generally few and far
between, except where nutrient concentrations
are high, e.g., whale carcasses (ephemeral)
and hydrothermal vents (more permanent)
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Terrestrial Biomes
Fig. 50.19
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Terrestrial Biomes
Warm, wet conditions correspond to high productivity, whereas cold or dry conditions result in low productivity
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Terrestrial Biomes
Tropical forest
Fig. 50.19
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Terrestrial Biomes
Tropical forest
Tropical forests account for ~7% of the
Earth’s terrestrial surface area
Even so, >90% of Earth’s species may
inhabit tropical forests
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Terrestrial Biomes
Savanna
Fig. 50.19
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Terrestrial Biomes
Savanna
Both tropical...
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Terrestrial Biomes
Savanna
… and temperate
Rainfall is insufficient to
support closed-canopy forest, and
fire is often a characteristic agent
of natural disturbance
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Terrestrial Biomes
Desert
Fig. 50.19
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Terrestrial Biomes
Desert
Arid conditions generally prevent high productivity
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Terrestrial Biomes
Chaparral
Fig. 50.19
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Terrestrial Biomes
Chaparral
Midlatitudinal coastal areas with mild, rainy winters and long, hot, dry
summers
Vegetation is dominated by
shrubs and small trees
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Terrestrial Biomes
Temperate grassland
Fig. 50.19
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Terrestrial Biomes
Temperate grassland
The key to the persistence of grasslands is seasonal drought, occasional fires,
and grazing by large ungulates
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Terrestrial Biomes
Temperate broadleaf (deciduous) forest
Fig. 50.19
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Terrestrial Biomes
Temperate broadleaf (deciduous) forest
Temperate broadleaf forests are found at midlatitudes where there is sufficient rainfall to support dense
stands of trees
Temperate broadleaf trees lose their leaves
in winter
Most temperate broadleaf forests in North America are
secondary (regrowth) forests that returned
after logging in the 19th and 20th centuries
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Terrestrial Biomes
Coniferous forest
Fig. 50.19
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Terrestrial Biomes
Coniferous forest
Large expanses of evergreen, coniferous forests are found at high latitudes where winters are
cold and long
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Terrestrial Biomes
Tundra (both arctic & alpine)
Fig. 50.19
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Terrestrial Biomes
Tundra (both arctic & alpine)
Permafrost (permanently frozen subsoil), cold
temperatures, and high winds exclude most tall plants