Download Chapter 3: Species Populations, Interactions and Communities

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Lake ecosystem wikipedia , lookup

Introduced species wikipedia , lookup

Fauna of Africa wikipedia , lookup

Storage effect wikipedia , lookup

Island restoration wikipedia , lookup

Transcript
Chapter 3: Species
Populations, Interactions
and Communities
Principles of Environmental
Science - Inquiry and Applications,
3rd Edition
by William and Mary Ann Cunningham
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
1
Chapter 3. Key Terms McGraw-Hill Course Glossary
 adaptation
Batesian mimicry
 biotic potential
 carrying capacity
 coevolution
 commensalism
 complexity
 convergent evolution
 divergent evolution
 diversity
 ecological development
 ecological niche
 ecotones
 edge effects
 overshoots
environmental resistance
 pioneer species
 evolution
predator
 exponential growth
 primary productivity
 habitat
 primary succession
 J curve
 r-adapted species
K-adapted species
 resource partitioning
 keystone species
 S-curve
 logistic growth
 secondary succession
 Mullerian mimicry
 selective pressure
 mutualism
 symbiosis
 natural selection
 tolerance limits
2
Chapter 3 - Topics
•
•
•
•
•
Who Lives Where, and Why?
Species Interactions
Population Dynamics
Community Properties
Communities in Transition
3
4
5
6
7
8
9
10
Part 1: Who Lives Where,
and Why?
Generalists vs. Specialists
11
Tolerance Limits
Each environmental factor (temperature, nutrient supply,
etc.) has both minimum and maximum levels beyond which
a species cannot survive or is unable to reproduce.
12
Abundance and Distribution of Species
• Liebig - proposed that
the single
environmental factor in
shortest supply relative
to demand is the critical
determinant in species
distribution
• Shelford - added to
Liebig's work by
proposing that the
single environmental
factor closest to
tolerance limits
determines where a
particular organism can
live
13
• Today we know that for
many species the
interaction of several
factors, rather than a single
limiting factor, determines
biogeographical distribution.
• Sometimes, the
requirements and
tolerances of species are
useful indicators of specific
environmental
characteristics.
14
Adaptation and Natural Selection
Two types of adaptation:
• Acclimation - changes in an individual organism due to
non-permanent physiological modifications
• Evolution - gradual changes in a species due to
changes in genetic material and competition
Theory of evolution - developed by Charles Darwin and
Alfred Wallace.
15
Natural selection - genetic combinations best adapted
for present environmental conditions tend to become
abundant
• Spontaneous, random mutations
• Selective pressure - physiological stress, predation,
•
competition, luck
16
Speciation
17
The Taxonomic Naming System
ADD TABLE 3.1
18
The
Ecological Niche
Habitat - the place or
set of environmental
conditions in
which a particular
organism lives
Ecological niche - the
role played by a
species in a biological
community
19
Resource
Partitioning
Over time, niches can
evolve as species
develop new strategies
to exploit resources.
Law of Competitive
Exclusion:
No two species will
occupy the same niche
and compete for the
same resources in the
same habitat for very
long.
20
21
Part 2: Species Interactions
Most obvious are Predation and Competition
- antagonistic relationships
22
ADD FIG. 3.18 A-C
Three Types of Symbiosis:
• Commensalism - one member benefits, while the
other is neither benefited nor harmed
• Mutualism - both members of the partnership benefit;
• Parasitism - a form of predation where one species
benefits and the other is harmed
23
Defensive Mechanisms
24
25
Batesian Mimicry
26
Keystone species species that play
essential community
roles (examples:
mycorrhizae, giant
kelp)
27
Part 3: Population Dynamics
Exponential growth - the unrestricted increase in
a population (also called the biotic potential of a
population)
Carrying capacity - the maximum number of
individuals of any species that can be supported by
a particular ecosystem on a sustainable basis
28
Overshoots and Diebacks
ADD FIG. 3.20
29
Population Oscillations
30
Growth to a Stable Population
ADD FIG. 3.22
31
Environmental Resistance
Environmental resistance - factors that tend to reduce
population growth rates:
• Density-dependent
• - linked to population size
• - disease, lack of food
• Intrinsic
• - attributes of a species
• - slow reproduction
• Density-independent
• - often environmental
• - droughts, floods, habitat
• destruction
• Extrinsic
• - external to a species
• - predators, competitors,
• environmental risks
32
Part 4: Community Properties
• Primary productivity - a community's rate of
biomass production, or the conversion of solar
energy into chemical energy stored in living (or
once-living organisms)
• Net primary productivity - primary productivity
minus the energy lost in respiration
• Productivity depends on light levels,
temperature, moisture, and nutrient availability.
33
Relative biomass accumulation
of major world ecosystems.
ADD FIG. 3.29
34
Abundance and Diversity
Abundance - the number of individuals of a species
in an area
Diversity - the number of different species in an area
• A useful measure of the variety of ecological niches
or genetic variation in a community
• Decreases as we go from the equator towards the
poles
Abundance and diversity depend on total resource
availability in an ecosystem.
35
Antarctic
Marine Food
Web
Complexity - the
number of species
at each trophic
level and the
number of trophic
levels in a
community
36
Stability and Resilience
Stability - a dynamic equilibrium among the physical
and biological factors in an ecosystem or a
community
Resiliency - the ability to recover from disturbance
Three kinds of stability or resiliency in ecosystems:
• Constancy - lack of fluctuations in composition or
functions
• Inertia - resistance to perturbations
• Renewal - ability to repair damage after disturbance
37
Community structure
Distribution of members of a
population in a given space can be:
• Random - individuals live wherever
resources are available
ADD FIG.
3.25 A-C
• Ordered - often the result of
biological competition
• Clustered - individuals of a species
cluster together for protection,
mutual assistance, reproduction, or
to gain access to a particular
environmental resource
38
Edges and Boundaries
• Ecotones- the
boundaries
between
adjacent
habitats
• Often rich in
species
diversity
• Example: the
boundary
between a
forest and a
meadow
39
Edge vs. Core
Edge effects - the environmental and biotic conditions
at the edge of a habitat
• Temperature, moisture levels, predator species, etc.
• Edge effects associated with habitat fragmentation
are generally detrimental to species diversity.
Core habitat - the interior area of a habitat
• Habitat not impacted by edge effects
• Some species avoid edges and ecotones and prefer
interior environments.
40
Part 5: Communities in
Transition
Ecological succession - the process by which
organisms occupy a site and gradually change
environmental conditions by creating soil, shelter,
shade, or increasing humidity
• Primary succession - occurs when a
community begins to develop on a site
previously unoccupied by living organisms
• Secondary succession - occurs when an
existing community is disrupted and a new one
subsequently develops at the site
41
Primary
Succession
on Land
42
Exotic Species
• Sometimes communities can be completely altered
by the introduction of exotic species.
• Exotic species are often introduced by humans.
• Successful exotics tend to be prolific, opportunistic
species, such as goats, cats, and pigs.
• Many ecologists consider exotic species
invasions the most pressing hazard for biological
communities in the coming century.
43
Introduced Species and Community
Change
44