Chapter 5 pgs. 100-108
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Transcript of Chapter 5 pgs. 100-108
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Chapter 5pgs. 100-108
Biodiversity, Species Interaction, and
Population Control
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Chapter Overview Questions
What determines the number of species in a community?
How can we classify species according to their roles in a community?
How do species interact with one another? How do communities respond to changes in
environmental conditions? Does high species biodiversity increase the
stability and sustainability of a community?
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Core Case Study: Southern Sea Otters: Are They Back
from the Brink of Extinction?
They were over-hunted to the brink of extinction by the early 1900’s and are now making a comeback.
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Core Case Study: Southern Sea Otters: Are They Back from
the Brink of Extinction?
Sea otters are an important keystone species for sea urchins and other kelp-eating organisms.
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COMMUNITY STRUCTURE AND SPECIES DIVERSITY
Biological communities differ in their structure and physical appearance.
Figure 7-2
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Fig. 7-2, p. 144
Short-grassprairie
Desertscrub
Tall-grassprairie
Thornscrub
Thornforest
Deciduousforest
Coniferousforest
Tropicalrain forest
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Case Study: Why are Amphibians Vanishing?
Frogs serve as indicator species because different parts of their life cycles can be easily disturbed. Figure 7-3
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Fig. 7-3, p. 147
Young frogAdult frog(3 years)
Sperm
SexualReproduction
Eggs Fertilized eggdevelopment Organ formation
Egg hatches
Tadpole
Tadpole developsinto frog
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Case Study: Why are Amphibians Vanishing?
Habitat loss and fragmentation. Prolonged drought. Pollution. Increases in ultraviolet radiation. Parasites. Viral and Fungal diseases. Overhunting. Natural immigration or deliberate introduction
of nonnative predators and competitors.
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SPECIES INTERACTIONS: COMPETITION AND PREDATION
Species can interact through competition, predation, parasitism, mutualism, and commensalism.
Some species evolve adaptations that allow them to reduce or avoid competition for resources with other species (resource partitioning).
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Resource Partitioning
Each species minimizes competition with the others for food by spending at least half its feeding time in a distinct portion of the spruce tree and by consuming somewhat different insect species.
Figure 7-7
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Niche Specialization
Niches become separated to avoid competition for resources.
Figure 7-6
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Fig. 7-6, p. 150
Species 2Species 1N
umbe
r of i
ndiv
idua
lsN
umbe
r of i
ndiv
idua
ls
Species 2Species 1
Resource use
Resource use
Regionof
niche overlap
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SPECIES INTERACTIONS: COMPETITION AND PREDATION
Species called predators feed on other species called prey.
Organisms use their senses their senses to locate objects and prey and to attract pollinators and mates.
Some predators are fast enough to catch their prey, some hide and lie in wait, and some inject chemicals to paralyze their prey.
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PREDATION
Some prey escape their predators or have outer protection, some are camouflaged, and some use chemicals to repel predators.
Figure 7-8
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Fig. 7-8a, p. 153(a) Span worm
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Fig. 7-8b, p. 153(b) Wandering leaf insect
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Fig. 7-8c, p. 153(c) Bombardier beetle
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Fig. 7-8d, p. 153(d) Foul-tasting monarch butterfly
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Fig. 7-8e, p. 153
(e) Poison dart frog
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Fig. 7-8f, p. 153
(f) Viceroy butterfly mimics monarch butterfly
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Fig. 7-8g, p. 153
(g) Hind wings of Io moth resemble eyes of a much larger animal.
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Fig. 7-8h, p. 153
(h) When touched, snake caterpillar changes shape to look like head of snake.
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SPECIES INTERACTIONS: PARASITISM, MUTUALISM, AND
COMMENSALIM Parasitism occurs when one species feeds
on part of another organism. In mutualism, two species interact in a way
that benefits both. Commensalism is an interaction that benefits
one species but has little, if any, effect on the other species.
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Parasites: Sponging Off of Others
Although parasites can harm their hosts, they can promote community biodiversity. Some parasites live in host (micororganisms,
tapeworms). Some parasites live outside host (fleas, ticks,
mistletoe plants, sea lampreys). Some have little contact with host (dump-nesting
birds like cowbirds, some duck species)
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Mutualism: Win-Win Relationship
Two species can interact in ways that benefit both of them.
Figure 7-9
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Fig. 7-9a, p. 154(a) Oxpeckers and black rhinoceros
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Fig. 7-9b, p. 154(b) Clownfish and sea anemone
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Fig. 7-9c, p. 154
(c) Mycorrhizal fungi on juniper seedlings in normal soil
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Fig. 7-9d, p. 154
(d) Lack of mycorrhizal fungi on juniper seedlings in sterilized soil
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Commensalism: Using without Harming
Some species interact in a way that helps one species but has little or no effect on the other.
Figure 7-10
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ECOLOGICAL SUCCESSION: COMMUNITIES IN TRANSITION
New environmental conditions allow one group of species in a community to replace other groups.
Ecological succession: the gradual change in species composition of a given area Primary succession: the gradual establishment
of biotic communities in lifeless areas where there is no soil or sediment.
Secondary succession: series of communities develop in places containing soil or sediment.
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Primary Succession: Starting from Scratch
Primary succession begins with an essentially lifeless are where there is no soil in a terrestrial ecosystem
Figure 7-11
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Fig. 7-11, p. 156
Exposed rocks
Lichens and mosses
Small herbs and shrubs
Heath matJack pine,
black spruce, and aspen
Balsam fir, paper birch, and
white spruceforest
community
Time
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Secondary Succession: Starting Over with Some Help
Secondary succession begins in an area where the natural community has been disturbed.
Figure 7-12
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Fig. 7-12, p. 157
TimeAnnualweeds
Perennial
weeds and
grasses
Shrubsand pineseedlings
Young pine forest
with developing
understory of oak
and hickory trees
Mature oak-hickory forest
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Can We Predict the Path of Succession, and is Nature in
Balance? The course of succession cannot be
precisely predicted. Previously thought that a stable climax
community will always be achieved. Succession involves species competing for
enough light, nutrients and space which will influence it’s trajectory.
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ECOLOGICAL STABILITY AND SUSTAINABILITY
Living systems maintain some degree of stability through constant change in response to environmental conditions through: Inertia (persistence): the ability of a living system
to resist being disturbed or altered. Constancy: the ability of a living system to keep
its numbers within the limits imposed by available resources.
Resilience: the ability of a living system to bounce back and repair damage after (a not too drastic) disturbance.
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ECOLOGICAL STABILITY AND SUSTAINABILITY
Having many different species appears to increase the sustainability of many communities.
Human activities are disrupting ecosystem services that support and sustain all life and all economies.