Understanding Our Environment
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Transcript Understanding Our Environment
Biological Communities and Species Interactions
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Outline
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Critical Factors and Tolerance Limits
Adaptation
Natural Selection
Speciation
Ecological Niche
Species Interactions
Community Properties
Succession
Introduced Species and Community Change
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Critical Factors and Tolerance Limits
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Von Liebig proposed the single factor in
shortest supply relative to demand is the
critical determinant in species distribution.
Shelford later expanded by stating each
environmental factor has both minimum
and maximum levels, tolerance limits,
beyond which a particular species cannot
survive.
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Tolerance Limits
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Critical Factors and Tolerance Limits
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For many species, the interaction of several
factors, rather than a single limiting factor,
determines biogeographical distribution.
For some organisms, there may be a
specific critical factor that mostly
determines abundance and distribution.
Species requirements and tolerances can
also be used as useful indicators.
Environmental indicators
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Adaptation
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Adapt is used in two ways:
Range of physiological modifications
available to individual organisms.
Inheritance of specific genetic traits
allowing a species to live in a particular
environment.
- Population level
Explained by process of evolution.
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Natural Selection
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Natural Selection - Members of a population
best suited for a particular set of
environmental conditions survive and
reproduce more successfully than competitors.
Acts on pre-existing genetic diversity.
Limited resources place selective pressures
on a population.
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Speciation
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Given enough geographical isolation or
selective pressure, members of a population
become so different from their ancestors that
they may be considered an entirely new
species.
Alternatively, isolation of population
subsets, preventing genetic exchange, can
result in branching off of new species that
coexist with the parental line.
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Evolution
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Divergent Evolution - Mutations and different
selective pressures cause populations to
evolve along dissimilar paths.
Convergent Evolution - Unrelated organisms
evolve separately to cope with environmental
conditions in the same fashion.
Look alike - Act alike
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Galapagos Finches
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Ecological Niche
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Habitat - Place or set of environmental
conditions where a particular organism lives.
Ecological Niche - Description of the role a
species plays in a biological community, or
the total set of environmental factors that
determines species distribution.
Generalists - Broad niche
Specialists - Narrow niche
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Ecological Niche
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Fundamental Niche - Full range of resources
or habitat a species could exploit if there
were no competition with other species.
Realized Niche - Resources or habitat a
species actually uses.
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Resource Partitioning
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Law of Competitive Exclusion - No two
species will occupy the same niche and
compete for exactly the same resources for
an extended period of time.
One will either migrate, become extinct, or
partition the resource and utilize a sub-set
of the same resource.
- Given resource can only be partitioned a
finite number of times.
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Resource Partitioning
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SPECIES INTERACTIONS
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A predator is an organism that feeds directly
upon another living organism, whether or not
it kills the prey in doing so.
Prey most successfully on slowest,
weakest, least fit members of target
population.
- Reduce competition, population
overgrowth, and stimulate natural
selection.
Co-evolution
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Keystone Species
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Keystone Species - A species or group of
species whose impact on its community or
ecosystem is much larger and more
influential than would be expected from mere
abundance.
Often, many species are intricately
interconnected so that it is difficult to tell
which is the essential component.
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Competition
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Interspecific - Competition between members
of different species.
Intraspecific - Competition among members
of the same species.
Often intense due to same space and
nutritional requirements.
- Territoriality - Organisms defend specific
area containing resources, primarily
against members of own species.
Resource Allocation and Spacing
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Symbiosis
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Symbiosis - Intimate living together of
members of two or more species.
Commensalism - One member benefits
while other is neither benefited nor harmed.
- Cattle and Cattle Egrets
Mutualism - Both members benefit.
- Lichens (Fungus and Cyanobacterium)
Parasitism - One member benefits at the
expense of other.
Humans and Tapeworms
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Defensive Mechanisms
Batesian Mimicry - Harmless species
evolve characteristics that mimic
unpalatable or poisonous species.
Mullerian Mimicry - Two unpalatable
species evolve to look alike.
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COMMUNITY PROPERTIES
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Primary Productivity - Rate of biomass
production. Used as an indication of the rate
of solar energy conversion to chemical
energy.
Net Primary Productivity - Energy left after
respiration.
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Abundance and Diversity
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Abundance -Total number of organisms in a
community.
Diversity - Number of different species,
ecological niches, or genetic variation.
Abundance of a particular species often
inversely related to community diversity.
As general rule, diversity decreases and
abundance within species increases when
moving from the equator to the poles.
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Complexity and Connectedness
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Complexity - Number of species at each
trophic level, and the number of trophic
levels, in a community.
Diverse community may not be complex if
all species are clustered in a few trophic
levels.
Highly interconnected community may
have many trophic levels, some of which
can be compartmentalized.
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Resilience and Stability
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Constancy (Lack of fluctuation)
Inertia (Resistance to perturbation)
Renewal (Ability to repair damage)
MacArthur proposed complex,
interconnected communities would be
more stable and resilient in the face of
disturbance.
- Controversial
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Edges and Boundaries
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Edge Effects - Important aspect of
community structure is the boundary
between one habitat and others.
Ecotones - Boundaries between adjacent
communities.
Sharp boundaries - Closed communities
Gradual or indistinct boundaries - Open
communities
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Edges and Shapes
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COMMUNITIES IN TRANSITION
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Ecological Succession
Primary Succession - A community begins
to develop on a site previously unoccupied
by living organisms.
- Pioneer Species
Secondary Succession - An existing
community is disrupted and a new one
subsequently develops at the site.
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Primary Succession
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Ecological Succession
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Ecological Development - Process of
environmental modification (facilitation) by
organisms.
Climax Community - Community that
develops and seemingly resists further
change.
Equilibrium Communities (Disclimax
Communities) - Never reach stable climax
because they are adapted to periodic
disruption.
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Introduced Species and Community Change
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If introduced species prey upon or compete
more successfully than native populations,
the nature of the community may be altered.
Human history littered with examples of
introducing exotic species to solve
problems caused by previous
introductions.
- Mongoose and Rats in Caribbean
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Summary
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Critical Factors and Tolerance Limits
Adaptation
Natural Selection
Speciation
Ecological Niche
Species Interactions
Community Properties
Succession
Introduced Species and Community Change
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