The Living World - PowerPoint PPT Presentation

1 / 88
About This Presentation
Title:

The Living World

Description:

... reptiles, insects, many nocturnal Seasonal ... location of the LION KING Chaparral CHAPARRAL An area of chaparral in California Figure 50.20 Chaparral ... – PowerPoint PPT presentation

Number of Views:138
Avg rating:3.0/5.0
Slides: 89
Provided by: irv114
Category:

less

Transcript and Presenter's Notes

Title: The Living World


1
The Living World
2
Nutrient Cycles
  • Carbon
  • Water
  • Nitrogen
  • Phosphorous
  • Sulfur

3
General Nutrient Cycles
  • Burning of fossil fuels
  • Weathering, erosion
  • Sedimentation
  • Respiration, decomposition,excretion
  • Assimilation, photosynthesis
  • Fossilization

4
General Nutrient Cycling
5
Carbon Cycle
  • Processes Increase or Decrease?
  • Cellular Respiration
  • Photosynthesis
  • Combustion of Fossil Fuels
  • Formation of Coral Reefs
  • Decomposition

6
Carbon Cycle
  • Processes Increase or Decrease?
  • Cellular Respiration
  • Photosynthesis
  • Combustion of Fossil Fuels
  • Formation of Coral Reefs
  • Decomposition

7
Nitrogen Cycle
8
Nitrogen Cycle Processes
  • Ammonification
  • Nitrification
  • Denitrification
  • Nitrogen fixation
  • Assimilation
  • Decomposition
  • NH3 ? NO2-
  • NO2- ? NO3-
  • NOx ? N2
  • N2 ?NH4
  • Proteins ? NH4 or NOx
  • NH4 or NO3- ? Proteins

9
Nitrogen Cycle Processes
  • Ammonification
  • Nitrification
  • Denitrification
  • Nitrogen fixation
  • Assimilation
  • Decomposition
  • NH3 ? NO2-
  • NO2- ? NO3-
  • NOx ? N2
  • N2 ?NH4
  • Proteins ? NH4 or NOx
  • NH4 or NO3- ? Proteins

10
Phosphorous Cycle
11
Sources of Phosphorous
  • Erosion
  • Mine run off
  • Fertilizer run off
  • Poo
  • Nutrient Upwelling
  • Decomposition

12
Impact of Nutrients on Ecosystems
13
Impact of Nutrients on Ecosystems
14
Sulfur Cycle
15
Trophic Levels
  • List the first four trophic levels and give an
    example for each in an aquatic system and in a
    terrestrial system.

Level Aquatic Terrestrial




16
Trophic Levels
  • List the first four trophic levels and give an
    example for each in an aquatic system and in a
    terrestrial system.

Level Aquatic Terrestrial
Primary Producer
Prim. Consumer
Sec. Cons.
Tert. Cons.
17
Food Chains and Food Webs
18
Keystone Species
  • Dominant and keystone species exert strong
    controls on community structure
  • In general, a small number of species in a
    community

19
Figure 53.16a,b
20
Importance of Keystone Species
Figure 53.16a,b
21
Observation of sea otter populations and their
predation
22
Ecosystem Engineers (Engineering and Foundation
Species)
  • Some organisms exert their influence
  • By causing physical changes in the environment
    that affect community structure

23
Beaver damsCan transform landscapes on a very
large scale(engineering)
24
  • Foundation species act as facilitators
  • That have positive effects on the survival and
    reproduction of some of the other species in the
    community

Figure 53.19
25
Ecosystem Dynamics
26
Trophic Level Pyramids
  • Grass
  • Secondary Consumer
  • Tertiary Consumer
  • Decomposer
  • Vole
  • Grasshopper
  • Producer
  • Snake
  • Primary Consumer

5
4
3
2
1
27
Trophic Level Pyramids
  • Grass - 1
  • Secondary Consumer - 3
  • Tertiary Consumer - 4
  • Decomposer - 5
  • Bird (insectivore) - 3
  • Grasshopper 2
  • Producer - 1
  • Snake - 4
  • Primary Consumer - 2

5
4
3
2
1
28
Trophic Efficiency and Ecological Pyramids
  • Trophic efficiency
  • Is the percentage of production transferred from
    one trophic level to the next
  • Usually ranges from 5 to 20
  • Average 10

29
Pyramids of Production
  • This loss of energy with each transfer in a food
    chain
  • Can be represented by a pyramid of net production

30
Pyramids of Biomass
  • One important ecological consequence of low
    trophic efficiencies
  • Can be represented in a biomass pyramid

31
Most biomass pyramidsShow a sharp decrease at
successively higher trophic levels
32
Certain aquatic ecosystemsHave inverted biomass
pyramids
33
Certain aquatic ecosystemsHave inverted biomass
pyramids
34
Pyramids of Numbers
35
PBJ and Turkey
  • The dynamics of energy flow through ecosystems
  • Have important implications for the human
    population
  • Eating meat
  • Is a relatively inefficient way of tapping
    photosynthetic production

36
Worldwide agriculture could successfully feed
many more peopleIf humans all fed more
efficiently, eating only plant material
Figure 54.14
37
Biomagnification reverse of other ecological
pyramids
38
Bioaccumulation vs. Biomagnification
  • Bioaccumulation
  • - toxins accumulate in tissues of organism may
    or may not be passed to higher trophic levels
  • Biomagnification
  • - increase of the toxic levels as they are
    passed up trophic levels

39
GPP and NPP
  • Gross Primary Productivity total increase in
    biomass
  • Net Primary Productivity change in biomass over
    a period of time (only the difference) this is
    what is passed to the next trophic level

40
NPP of Various Ecosystems
(c)
41
Climate and Terrestrial Biomes
Overlapping Areas of Biomes ECOTONE
42
The distribution of major terrestrial biomes
Figure 50.19
43
Tropical Rain forest
44
Tropical Rain Forest
  • Rainfall 200 400 cm/year
  • Temperature 25 29 oC
  • Vegetation Stratification, dense canopy,
    broadleaf evergreen trees
  • Animals High animal diversity, usually smaller
    and adapted for life in canopy
  • Seasonal Variations Little to none
  • Other Characteristics Nutrient poor soil, high
    rate of decomposition and turn over, extremely
    high biodiversity

45
Desert
46
Desert
  • Rainfall Less than 30 cm/year
  • Temperature Wide variation both seasonally and
    daily (-30 to 50 oC)
  • Vegetation Low, scattered, deeply rooted
    succulents (Cacti), dense root mats to absorb
    water, adapted to heat and low water
  • Animals reptiles, insects, many nocturnal
  • Seasonal Variations some have short wet periods

47
Savanna
Figure 50.20
48
Savanna
  • Rainfall 76 150 cm/year
  • Temperature Continually warm, 24 29 oC
  • Vegetation Scattered trees (acacia), wide
    expanse of grasses, adapted to fires, deep roots
  • Animals Hoofed mammals, zebras, giraffe, lions,
    hyenas
  • Seasonal Variations Seasonal Drought
  • Other Characteristics Frequent fires, location
    of the LION KING

49
Chaparral
Figure 50.20
50
Chaparral
  • Rainfall 30 50 cm
  • Temperature Fall, Winter, Spring ? 10 12 oC,
    Summer 30 oC
  • Vegetation tough evergreen woody shrubs and
    small trees adapted to seasonal fires
  • Animals Deer, goats, many small mammals,
    amphibians, birds and reptiles
  • Seasonal Variations Summers are hot and dry,
    fall, winter and spring are cool and rainy

51
Temperate grassland
52
Temperate Grassland
  • Rainfall Dry winters, Wet summers 30 to 100 cm
  • Temperature Cold Winters (-10 oC), Hot summers
    (30 oC)
  • Vegetation ummm.Grass
  • Animals Large Grazers (buffalo), prairie dogs
  • Seasonal Variations dry winters, wet summers

53
Coniferous (Boreal) Forest or Taiga
Figure 50.20
54
Coniferous (Boreal) Forest or Taiga
  • Rainfall 30 70 cm with periodic drought some
    may receive up to 300 cm (Pacific North West)
  • Temperature Cold, long winters (-70 oC in
    Siberia), summers may be hot (30 oC)
  • Vegetation Cone bearing trees (pine, spruce,
    fir, hemlock), conical shape helps snow fall off
    so branches dont break
  • Animals Moose, brown bears, Siberian tigers,
    lots of insects during summer
  • Seasonal Variations Cold, harsh winters, warm
    summers

55
Temperate broadleaf forest
Figure 50.20
56
Temperate broadleaf forest
  • Rainfall 70 200 cm
  • Temperature 0 oC (winter) to 30 oC (summer)
  • Vegetation Broadleaf Deciduous Trees (drop
    leaves in fall to prevent water loss in winter),
    conifers, shrubs and various grasses and
    herbaceous plants
  • Animals Black bear, deer, squirrels, snakes,
    birds (migratory and permanent), insects
  • Seasonal Variations Distinct seasons of fall,
    winter, spring and summer
  • Other You live here

57
Temperate Rainforest
58
Temperate Rainforest
  • Rainfall More than 125 cm, lots of fog
  • Temperature Small amount of seasonal variation (
    3 18 oC) mild winters, cool summers
  • Vegetation Conifers, lots of lichens and
    epiphytic plants
  • Animals Squirrels, mule deer, elk, birds,
    amphibians and reptiles
  • Seasonal Variations Mild differences in season
    due to location near coasts
  • Other Low nutrient turnover due to low
    temperatures. Results in a high accumulation of
    biological detritus on forest floor

59
Tundra
TUNDRA
Figure 50.20
Denali National Park, Alaska, in autumn
60
Tundra
  • Rainfall 20 60 cm
  • Temperature Long cold winters (-30 oC), Short
    cool summers (10 oC)
  • Vegetation Herbaceous (non-woody), dwarf shrubs
    and trees, lichens, moss, grasses
  • Animals Ox, caribou, reindeer, Santa Claus,
    Bears, wolves, foxes, lots of insects in summer
  • Seasonal Variations
  • OTHER Contains permanent layer of frozen soil
    call PERMAFROST

61
Evolution
  • Driving forces
  • Genetic variation
  • Competition for resources
  • Survival of the Fittest
  • Microevolution vs. Macroevolution

62
Species Interactions
  • A biological community
  • Is an assemblage of populations of various
    species living close enough for potential
    interaction

63
  • A communitys interactions include competition,
    predation, herbivory, symbiosis, and disease
  • Populations are linked by interspecific
    interactions
  • That affect the survival and reproduction of the
    species engaged in the interaction

64
(No Transcript)
65
Competition
  • Strong competition can lead to competitive
    exclusion
  • The local elimination of one of the two competing
    species

66
The Competitive Exclusion Principle
  • The competitive exclusion principle
  • States that two species competing for the same
    limiting resources cannot coexist in the same
    place

67
Ecological Niches
  • The ecological niche
  • Is the total of an organisms use of the biotic
    and abiotic resources in its environment

68
(No Transcript)
69
Results of Competition more specific niches
  • As a result of competition
  • A species fundamental niche may be different
    from its realized niche
  • Resource partitioning is the differentiation of
    niches
  • That enables similar species to coexist in a
    community

70
Resource Partitioning
71
Species Interactions
  • Predation
  • Predator, Prey Plant Connection
  • Competition
  • Herbivory
  • Parasitism
  • Um.gross
  • Even nastier
  • Disease
  • Mutualism
  • Ants and caterpillars
  • Goby and shrimp
  • Commensalism

72
Predation
  • Predation refers to an interaction
  • Where one species, the predator, kills and eats
    the other, the prey
  • EPIC PREDATION

73
  • Feeding adaptations of predators include
  • Claws, teeth, fangs, stingers, and poison
  • Animals also display
  • A great variety of defensive adaptations

74
Cryptic coloration, or camouflage
  • Makes prey difficult to spot

75
Aposematic coloration
76
Batesian mimicry
77
Müllerian mimicry
78
Herbivory
  • Herbivory, the process in which an herbivore eats
    parts of a plant
  • Has led to the evolution of plant mechanical and
    chemical defenses and consequent adaptations by
    herbivores

79
Parasitism
  • In parasitism, one organism, the parasite
  • Derives its nourishment from another organism,
    its host, which is harmed in the process

80
Disease
  • The effects of disease on populations and
    communities
  • Is similar to that of parasites

81
Mutualism
82
  • Commensal interactions have been difficult to
    document in nature
  • Because any close association between species
    likely affects both species

83
Interspecific Interactions and Adaptation
  • Evidence for coevolution
  • Which involves reciprocal genetic change by
    interacting populations, is scarce

84
Species Diversity
  • The species diversity of a community
  • Is the variety of different kinds of organisms
    that make up the community
  • Has two components

85
  • Species richness
  • Is the total number of different species in the
    community
  • Relative abundance
  • Is the proportion each species represents of the
    total individuals in the community

86
Two different communitiesCan have the same
species richness, but a different relative
abundance
87
Ecological Succession
  • Ecological succession
  • Is the sequence of community and ecosystem
    changes after a disturbance

88
  • Primary succession
  • Occurs where no soil exists when succession
    begins
  • Secondary succession
  • Begins in an area where soil remains after a
    disturbance
Write a Comment
User Comments (0)
About PowerShow.com