Download Chapter 37 Communities and Ecosystems

Chapter 37
Communities and Ecosystems
PowerPoint Lectures for
Biology: Concepts & Connections, Sixth Edition
Campbell, Reece, Taylor, Simon, and Dickey
Lecture by Brian R. Shmaefsky
Copyright © 2009 Pearson Education, Inc.
COMMUNITY STRUCTURE
AND DYNAMICS
37.1 A community includes all the organisms inhabiting a
particular area
▪ Biological community
● An assemblage of populations living close enough
together for potential interaction
● Described by its species composition
▪ Boundaries of the community vary with research
questions
● Can be a pond
● Can be the intestinal microbes of a pond organism
37.2 Interspecific interactions are fundamental to
community structure
▪ Interspecific interactions
● Relationships with other species in the community
▪ Interspecific competition
● Two different species compete for the same limited
resource
●
Squirrels and black bears
●
Compete for acorns
● Competition lowers the carrying capacity of competing populations
37.3 Competition may occur when a shared resource is limited
▪ Ecological niche
● Sum of an organism’s use of biotic and abiotic resources
● Interspecific competition occurs when the niches of two
populations overlap
▪ The role of an organism in an ecosystem
▪ Part of a habitat where and organism makes it home
37.4 Mutualism benefits both partners
▪ Mutualism → Symbiosis that is beneficial to both
organisms involved
37.5 Predation leads to diverse adaptations in prey species
▪ Predation benefits the predator but kills the prey
▪ Prey adapt using protective strategies
● Camouflage
● Mechanical defenses
● Chemical defenses
37.6 Herbivory leads to diverse adaptations in plants
▪ Herbivory is not usually fatal
● Plants must expend energy to replace the loss
▪ Plants have numerous defenses against herbivores
● Spines and thorns
● Chemical toxins
▪ Herbivores and plants undergo coevolution
● A change in one species acts as a new selective force on
another
● Poison-resistant caterpillars seem to be a strong selective
force for Passiflora plants
37.7 Parasites and pathogens can affect community composition
▪ Parasitism→ the parasite benefits and the host is
negatively affected
▪ A parasite lives on or in a host from which it obtains
nourishment
● Internal parasites include nematodes and tapeworms
● External parasites include mosquitoes and ticks
▪ Pathogens are disease-causing parasites
● Pathogens can be bacteria, viruses, fungi, or protists
▪ Non-native pathogens can have rapid and dramatic impacts
● American chestnut devastated by chestnut blight protist
● A fungus-like pathogen currently causing sudden oak
death on the West Coast
▪ Non-native pathogens can cause a decline of the ecosystem
37.8 Trophic structure is a key factor in community dynamics
▪ Trophic structure
● A pattern of feeding relationships consisting of several
different levels
▪ Food chain
● Pathway of energy flow in an ecosystem. The arrows
represent the flow of energy.
● **Only 10% of the energy from one trophic level is
passed to the next trophic level.
▪ Producers
● Support all other trophic levels
● Autotrophs
Examples:
● Photosynthetic producers
● Plants on land
● Cyanobacteria in water
▪ Consumers
● Heterotrophs
● Primary consumers (eat producers)
● Secondary consumers (eat primary consumers)
● Tertiary consumers (eat secondary consumers)
● Quaternary consumers (eat tertiary consumers)
▪ Detritivores and decomposers
● Derive energy from dead matter and wastes
● Examples: worms, fungi, bacteria
Plant
A terrestrial food chain
Producers
Phytoplankton
An aquatic food chain
Grasshopper
Plant
A terrestrial food chain
Primary
consumers
Zooplankton
Producers
Phytoplankton
An aquatic food chain
Mouse
Secondary
consumers
Herrin
g
Grasshopper
Primary
consumers
Zooplankton
Producers
Phytoplankton
Plant
A terrestrial food chain
An aquatic food chain
Snake
Tertiary
consumers
Tuna
Mouse
Secondary
consumers
Herrin
g
Grasshopper
Primary
consumers
Zooplankton
Producers
Phytoplankton
Plant
A terrestrial food chain
An aquatic food chain
Trophic level
Hawk
Quaternary
consumers
Killer whale
Snake
Tertiary
consumers
Tuna
Mouse
Secondary
consumers
Herrin
g
Grasshopper
Primary
consumers
Zooplankton
Producers
Phytoplankton
Plant
A terrestrial food chain
An aquatic food chain
37.9 Food chains interconnect, forming food webs
▪ Food web - A network of interconnecting food chains
Quaternary,
tertiary,
and secondary
consumers
Tertiary
and
secondary
consumers
Secondary
and
primary
consumers
Primary
consumers
Producers
(plants)
37.10 Species diversity includes relative abundance and species richness
▪ Species diversity defined by two components
● Species richness
● Relative abundance
▪ Plant species diversity in a community affects the animals
▪ Species diversity has consequences for pathogens
37.11 Keystone species have a disproportionate impact on diversity
Keystone species
● A species whose impact on its community is larger than its
biomass or abundance indicates
● Occupies a niche that holds the rest of its community in place
keeps sea urchin population
down, which would take over a
habitat and eat all the kelp
Keystone
Keystone
absent
37.12 Disturbance is a prominent feature of most communities
▪ Disturbances
● Events that damage biological communities
● Storms, fire, floods, droughts, overgrazing, or human
activity
● The types, frequency, and severity of disturbances vary
from community to community
▪ Communities change drastically following a severe disturbance
▪ Ecological succession
● Colonization by a variety of species
● A success of change gradually replaces other species
▪ Primary succession
● Begins in a virtually lifeless area with no soil
▪ Secondary succession
● When a disturbance destroyed an existing community
but left the soil intact
Annual Perennial
plants plants and
grasses
Shrubs
Softwood
trees
such as pines
Time
Hardwood
trees
37.13 Invasive species can devastate communities
▪ Introduction of rabbits in Australia
600
Km
1980
1900
19
20
Australia
1910
0
9
18
18
80
1870
Key
70
8
1
Frontier of rabbit spread
Origin: 1860
1890
00
19
10
19 192
20 0
1910
19
192
0
191
0
1910
1880
ECOSYSTEM STRUCTURE
AND DYNAMICS
37.14 Ecosystem ecology emphasizes energy flow and chemical cycling
▪ Ecosystem
● All the organisms in a community as well as the abiotic
environment
▪ Components of ecosystems
● Energy flow
● Passage of energy through the ecosystem
● Chemical cycling
● Transfer of materials within the ecosystem
Chemical cycling
Energy
flow
Chemical energy
Light
energy
Heat
energy
Chemical
elements
Bacteria
and fungi
37.15 Primary production sets the energy budget for ecosystems
▪ Primary production
● The amount of solar energy converted to chemical energy
● Carried out by producers
● Produces biomass
● Amount of living organic material in an ecosystem
● Ex: forest debris, crops, waste
37.16 Energy supply limits the length of food chains
▪ A pyramid of production
● Illustrates the cumulative loss of energy transfer in a
food chain
Tertiary
consumers
Secondary
consumers
Primary
consumers
10
kcal
100
kcal
1,000
kcal
Producers
10,000
kcal
1,000,000 kcal of sunlight
▪ The dynamics of energy flow apply to the
human population
Trophic level
Secondary
consumers
Primary
consumer
s
Producers
Human
meat-eaters
Human
vegetarians
Cattle
Corn
Corn
37.18 Chemicals are cycled between organic matter and abiotic reservoirs
▪ Ecosystems are supplied with a continual influx of
energy from →
● Sun
● Earth’s interior
▪ Life also depends on the recycling of chemicals
● Organisms acquire chemicals as nutrients and lose
chemicals as waste products
▪ Biogeochemical cycles
● Cycle chemicals between organisms and the Earth
● Can be local or global
▪ Decomposers play a central role in biogeochemical
cycles
Consumers
3
2
Producer
s
Decomposer
s
1
Nutrients
available
to producers
Abiotic
reservoir
Geologic processes
4
37.19 The carbon cycle depends on photosynthesis and respiration
▪ Carbon is the major ingredient of all organic
molecules
▪ The return of CO2 to the atmosphere by respiration
closely balances its removal by photosynthesis
▪ The carbon cycle is affected by burning wood and
fossil fuels
CO2 in atmosphere
5 Burning
3
Cellular respiration
Photosynthesis
1
Wood
and fossil
fuels
Decomposition
Higher-level
consumers
Primary
consumers
Wastes; death
Decomposers
(soil microbes)
Plants, algae,
cyanobacteria
4
Detritus
2
Plant litter;
death
37.20 The phosphorus cycle depends on the weathering of rock
▪ Organisms require phosphorus for nucleic acids,
phospholipids, and ATP
● Plants absorb phosphate ions in the soil and build them
into organic compounds
● Phosphates are returned to the soil by decomposers
● Phosphate levels in aquatic ecosystems are typically low
enough to be a limiting factor
6
Uplifting
of rock
3
Weathering
of rock
Runoff
Phosphates
in rock
Animals
Plants
1
Assimilation
2
Phosphates
in solution
Detritus
Phosphates
in soil
(inorganic)
5
Rock
Precipitated
(solid)
phosphates
Decomposition Decomposers
in soil
4
37.21 The nitrogen cycle depends on bacteria
▪ Nitrogen is an essential component of proteins and
nucleic acids
▪ Nitrogen has two abiotic reservoirs
● Air
● Soil
▪ Nitrogen fixation converts N2 to nitrogen used by
plants
● Carried out by some bacteria and cyanobacteria
Nitrogen (N2) in atmosphere
8
Animal
Plant
6
Assimilation
by plants
Organic
compounds
Nitrogen
fixation
Death; wastes
5
Denitrifiers
Organic
compounds
3
Nitrates
in soil
(NO3–)
Nitrogen-fixing
bacteria in
root nodules
Detritus
Free-living
nitrogen-fixing
bacteria and
cyanobacteria
Decomposers
4
1
Nitrifying
bacteria
7
Decomposition
Ammonium
in soil
(NH4+)
Nitrogen fixation
2
37.22: Ecosystem alteration can upset chemical cycling
▪ Chemical cycling in an ecosystem depends on
● The web of feeding
● Relationships between plants, animals, and detritivores
● Geologic processes
▪ Altering an environment can cause severe losses in
chemical cycling
● Erosion
● Acid rain
Nitrate concentration in runoff (mg/L)
80.0
60.0
Deforested
40.0
20.0
4.0
3.0
Completion of
tree cutting
Control
2.0
1.0
0
1965
1966
1967
1968
37.23: David Schindler talks about the effects of
nutrients on freshwater ecosystems
▪ Major changes in terrestrial ecosystems disrupt
chemical cycling
▪ These changes can increase nutrients in aquatic
ecosystems
● Algal and cyanobacteria blooms
● Eutrophication - the enrichment of an ecosystem with
chemical nutrients, typically compounds containing nitrogen,
phosphorus, or both.
▪ The most serious current threats
● Acid precipitation
● Changes in land use
● Climate warming
Producer
Herbivore
(primary
consumer)
Energy flow
Chemical cycling
Decomposer
s
Carnivore
(secondar
y
consumer)
Ecosystems
involve the processes of
(a)
(b)
in which
in which
makes a
chemical
elements
(c)
one-way
trip
from
solar energy to
chemical energy
to heat
is
are
from
converted by incorporated by
(d)
(e)
to chemical
into
energy of components of
detritivores
return
elements to
organic
molecules
which pass
through
(f)