Transcript Chapter 37
The Biosphere and
Animal Distribution
Chapter 37
Biosphere
The biosphere
is the thin outer
layer of the earth
capable of
supporting life.
Includes living
organisms as
well as the
physical
environments.
Biosphere - Subdivisions
Lithosphere – rocky material of the earth’s outer shell.
Source of mineral elements required for life.
Hydrosphere – water on or near the earth’s surface.
Atmosphere – the gaseous component of the
biosphere.
Atmospheric oxygen is produced by photosynthesis.
Greenhouse Effect
Materials in the atmosphere, such as CO2 and
water vapor retain heat, raising atmospheric
temperature.
Greenhouse effect
Burning fossil fuels increases CO2 in the
atmosphere.
Greenhouse Effect
The greenhouse effect provides conditions essential for
life on Earth.
Humans are increasing this effect.
Increased temperatures could lead to a rise in sea level
as polar ice melts.
Biomes
Varying combinations of both biotic and abiotic factors
determine the nature of Earth’s many biomes.
Biomes are the major types of ecological associations
that occupy broad geographic regions of land or water.
Biomes
Each biome grades into the next – without sharp
boundaries.
Boundary areas are called ecoclines.
Terrestrial Biomes
Climate is particularly
important in
determining why
particular terrestrial
biomes are found in
certain areas.
Temperature
Rainfall
Solar radiation
Terrestrial Biomes
The sun’s rays strike
higher latitudes at a
lower angle.
Atmospheric heating
is less.
Terrestrial Biomes
Air warmed at the equator rises and moves toward the
poles.
Replaced by cold air moving away from the poles.
Rotation of the earth complicates this pattern.
Three latitudinal cells result.
Terrestrial Biomes
Hot, moist air rises at
equator, cools, condenses
and provides rainfall
(tropical forests).
Warm air flows northward,
and sinks at 20-30°
latitude – dry.
Air heats, absorbs moisture
(desert areas), then the air
flows toward the equator
again.
The Distribution of Major Terrestrial
Biomes
General Features of
Terrestrial Biomes
Vertical
stratification is an
important feature
of terrestrial
biomes.
Canopy
Low-tree
Shrub understory
Ground layer
Forest floor (litter
layer)
Temperate Deciduous Forest
Temperate deciduous forests receive rain yearround.
Cold winters and hot, humid summers.
Animals may migrate, hibernate, or survive on scarce
available food or stored fat through the winter.
Coniferous Forest
Coniferous forests, or taiga, are common in the
northern hemisphere.
Evergreens dominant
Colder, less rain than temperate forests.
Coniferous Forest
Mammals that
inhabit coniferous
forests include
deer, moose, elk,
snowshoe hares,
wolves, foxes,
lynxes, weasels,
bears.
Adapted for long,
snowy winters.
Tropical Forest
Tropical rain forests receive lots of rain and are
generally warm year-round.
Stratified
Diverse
Tropical Forest
Canopy – insectivorous birds and bats fly
above the canopy.
Fruit bats, canopy birds, and mammals live in the
canopy eating leaves & fruit.
Middle zones are home to arboreal mammals
(monkeys, sloths), birds, bats, insects,
amphibians.
Climbing animals move along the tree trunks feeding
at all levels.
Ground level contains larger mammals
(capybara, paca, agouti, pigs) as well as a
variety of reptiles and amphibians.
Tropical Forest
Nutrients in a tropical forest are tied up in living
organisms.
Soil is poor.
Slash and burn agriculture involves removing
vegetation to grow crops – but the soil is so poor that
the fields must be moved often.
Grassland
Temperate grasslands receive seasonal
precipitation and have cold winters and hot
summers.
Prairie
Grassland
Grasses and herds
of large grazing
mammals are
dominant.
Jackrabbits, prairie
dogs, and ground
squirrels are
common.
Predators include
coyotes, cougars,
bobcats, raptors,
badgers, and
ferrets.
Grassland
Savannas are tropical grasslands with seasonal
rainfall.
Grassland
Chaparral receives highly seasonal rainfall.
Shrubs and small trees are common.
Adaptations to fire.
Tundra
Tundra has a permanently frozen layer of soil
called permafrost that prevents water
infiltration.
Very cold, short growing season.
Little rain
Tundra
Tundra is often covered with bogs, marshes, or ponds.
Grasses, sedges, and lichens may be common.
Lemmings, caribou, musk-oxen, arctic foxes, arctic
hares, ptarmigans and other migratory birds.
Desert
Deserts have very low precipitation – less than 30
cm/yr.
Variable temperatures.
Animals often nocturnal and live in burrows.
Reptiles and small mammals are common.
Aquatic Biomes
Aquatic Biomes
Aquatic biomes account for the largest part of the
biosphere in terms of area.
Can contain fresh or salt water.
Oceans cover about 75% of Earth’s surface.
Have an enormous impact on the biosphere.
Inland Waters
Only about 2.5% of the earth’s water is fresh.
Much of that is found in polar ice caps or underground
aquifers.
Inland Waters
Lotic, or running water habitats include streams and
rivers.
More oxygen
Lentic, or standing water habitats include lakes and
ponds.
Less oxygen
Inland Waters
LAKES
Oligotrophic
lakes – nutrient
poor & oxygen
rich.
Eutrophic lakes
– nutrient rich &
sometimes
oxygen poor.
Eutrophication
An oligotrophic lake
A eutrophic lake
Inland Waters
STREAMS AND RIVERS
Streams and
rivers have a
current.
Inland Waters
Animals living in vegetation or debris of the bottom
(benthos) are called benthic.
Snails, mussels, crustaceans, insects.
Animals up in the water column are pelagic.
Swimming animals are called nekton.
Floating or weak swimmers are called plankton.
Wetlands
WETLANDS
Wetlands
include areas
that are able to
support aquatic
plants.
May be
freshwater or
marine.
Estuaries
ESTUARIES
Estuaries are transition
areas between river and
sea.
Salinity varies from
nearly fresh to the
salinity of seawater.
Aquatic Biomes
Many aquatic biomes are stratified into zones
or layers defined by light penetration,
temperature, and depth.
The photic zone is the most productive.
Rocky Intertidal Zone
The rocky intertidal zone is alternately
submerged and exposed by the tides.
Upper zones are exposed to air longer.
Physical stress (desiccation, waves, temp,
salinity), predation, and competition produce
distinct bands.
Rocky Subtidal Zone
Kelp forests
dominated by
brown seaweeds
occupy shallow
subtidal waters.
Grazing urchins
and molluscs
are common.
Predators
include sea
stars, fishes,
and otters.
Rocky Subtidal Zone
CORAL REEFS
Coral reefs are
limited to the photic
zone in tropical
marine environments
with high water
clarity.
Highly diverse
Nearshore Soft Sediments
Intertidal and subtidal environments with soft sediments
include beaches, mudflats, salt marshes, sea-grass
beds, and mangrove communities.
Nearshore Soft Sediments
Salt marsh habitat
includes grasses,
mussels, crabs,
shrimp, and
polychaetes.
Burrowing organisms.
Deposit or filter
feeders.
Small fishes and birds
that feed on them are
common.
Nearshore Soft Sediments
Calm, tropical, coastal
areas support
mangrove
communities.
Mangrove trees grow
submerged in soft
sediments.
Rich community of
detritus feeders
(oysters, crabs,
shrimp).
Many fishes – often
used as a nursery
ground.
Deep-Sea Sediments
The deep sea includes the continental slope,
continental rise, and abyssal plain.
Sand where there are currents, fine mud where currents
are weak.
Suspension feeding invertebrates are common.
Deposit feeders found in muddy areas.
Hydrothermal Vents
Hydrothermal vents occur on the abyssal plain in
areas of submarine volcanic activity.
Archaebacteria that derive energy by oxidizing sulfides
form the basis of the food chain.
Grazed by bivalves, limpets, and crabs.
Other organisms, like tube worms, have symbiotic
archaebacteria.
Pelagic Realm
The pelagic realm includes the open ocean area.
High oxygen, low nutrient levels.
Areas of upwelling bring nutrients up from the sea floor.
OCEANIC PELAGIC BIOME
Pelagic Realm
Epipelagic – surface
waters
Mesopelagic –
twilight zone,
supports a varied
community of
animals.
Deep sea forms
depend on a rain of
organic debris from
above.
Zoogeography
Zoogeography describes patterns of animal
distribution and species diversity.
Why species and species diversity are distributed as they
are.
Zoogeography
The history of an animal species must be
documented before we can understand why it
lives where it does.
Camels originated in North America and spread to
Eurasia, Africa, and South America.
Camels went extinct in North America 10,000 years
ago.
Today, we see true camels in Eurasia & Africa and
camel descendents (llamas, alpacas etc) in South
America.
Zoogeography
Geologic change is responsible for much of the
alteration in animal distribution.
Zoogeography
Disjunct distributions are closely related species that
live in widely separated areas.
Dispersal – a population moves to a new location.
Vicariance – environmental changes break up a once
continuous population into small pockets.
Distribution by Dispersal
Dispersal involves emigration from one region and
immigration into another.
One way outward movement.
Different from a periodic movement back & forth.
Active or passive
Center of origin
Explains movement of animal populations into favorable
habitats adjacent to the place of origin.
Distribution by Vicariance
Areas once joined may become separated by barriers.
Population becomes fragmented into smaller, isolated
populations.
Lava flows
Continental drift
Emergence of mountain ranges
Distribution by Vicariance
Vicariance by continental
drift helps to explain the
disjunct distribution of
ratite birds.
Ancestral species
widespread throughout
Southern Hemisphere.
Distribution by Vicariance
As the continents
moved apart, the
ancestral species
was fragmented into
disjunct populations
that evolved
independently
producing the
diversity seen today.
Continental Drift
The concept of continental drift was proposed by
Alfred Wegener in 1912.
Not fully accepted until the mechanism was found.
Continental Drift
Plate tectonics is the mechanism of continental drift.
The earth’s surface is composed of 6-10 rocky plates
which shift position on a more malleable underlying layer.
Continental Drift
Pangaea – the single great landmass – broke up 200
million years ago.
Two supercontinents resulted:
Laurasia – North America, Eurasia, Greenland
Gondwana – South America, Africa, Madagascar, Arabia,
India, Australia, New Guinea, Antarctica
Continental Drift
Continental drift explains several puzzling distributions
of animals.
Similarity between some organisms in South America and
Africa.
Continental Drift - The Case of
Marsupial Evolution
Marsupials appeared about 100 million years ago in
South America.
They spread through Antarctica and Australia that were
at that time joined together.
Continental Drift - The Case of
Marsupial Evolution
Marsupials encountered placental mammals in North
America, could not compete, and became extinct.
The modern opossums are recent arrivals from South America.
The placental mammals expanded into South America,
but the marsupials were well established there.
About 50 million years ago, Australia drifted apart from
Antarctica and remained in isolation with only
marsupials to diversify on the continent.
Wallace’s Line
Wallace’s line
represents a
geographic
separation between
Asian and Australian
faunas.
A collision of tectonic
plates brought
formerly distant land
masses closer
together.
Temporary Land Bridges
Temporary land bridges
have been important
pathways for dispersal.
Land bridge connected Asia
and North America across
the Bering Strait.
Today, a land bridge
connects North and South
America