E6


E6. Communities are continually undergoing change.

 

Student Outcome: E6.1

Illustrate how community change may involve succession that leads over time to changes in the mixture of species.

 

 

"Ecological succession" is the observed process of change in the species structure of an ecological community over time. Within any community some species may become less abundant over some time interval, or they may even vanish from the ecosystem altogether. Similarly, over some time interval, other species within the community may become more abundant, or new species may even invade into the community from adjacent ecosystems. This observed change over time in what is living in a particular ecosystem is "ecological succession".

 

 

Every species has a set of environmental conditions under which it will grow and reproduce most optimally. In a given ecosystem, and under that ecosystem's set of environmental conditions, those species that can grow the most efficiently and produce the most viable offspring will become the most abundant organisms. As long as the ecosystem's set of environmental conditions remains constant, those species optimally adapted to those conditions will flourish. The "engine" of succession, the cause of ecosystem change, is the impact of established species have upon their own environments. A consequence of living is the sometimes subtle and sometimes overt alteration of one's own environment. The original environment may have been optimal for the first species of plant or animal, but the newly altered environment is often optimal for some other species of plant or animal. Under the changed conditions of the environment, the previously dominant species may fail and another species may become ascendant.

Ecological succession may also occur when the conditions of an environment suddenly and drastically change. A forest fires, wind storms, and human activities like agriculture all greatly alter the conditions of an environment. These massive forces may also destroy species and thus alter the dynamics of the ecological community triggering a scramble for dominance among the species still present.

 

Source: http://www.nk2.psu.edu/naturetrail/succession.htm

 

Let's take the island of Krakatoa (in Indonesia) as an example.

 

 

 

 

The first scientific study of the recovery didn't take place until 1908.

 

Prior to that time the initial colonizers, probably algae, ferns, and grasses (as the primary producers), and small flying (or airborne, such as some spiders can be) insects (as consumers), and bacteria and fungi (as decomposers) had already reached the island and established new ecosystems. These initial ecosystems are known as pioneer communities. Their member species, both plants and animals, tend to be very hardy organisms that do well in exposed situations, and where there is limited competition from other, less hardy species that can't cope so well with the biologically impoverished and 'open' environments that characterize these types of communities.

 

 

 

 

 

This community, in that location, is termed a climax community, and represents (at least in theory) the 'end' stage of succession.

 

Ha. This video shows that even students have a sense of humour - and it's about Succession! Who would have thunk it!

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Source: http://humanities.cqu.edu.au/geography/GEOG11023/week_12_textbook.htm

 

Comparison of plant, community, and ecosystem characteristics between early and late stages of succession

Attribute

Early Stages of Succession

Late Stages of Succession

Plant Biomass
Small
Large
Plant Longevity
Short
Long
Seed Dispersal Characteristics of Dominant Plants
Well dispersed
Poorly dispersed
Plant Morphology and Physiology
Simple
Complex
Photosynthetic Efficiency of Dominant Plants at Low Light
Low
High
Rate of Soil Nutrient Resource Consumption by Plants
Fast
Slow
Plant Recovery Rate from Resource Limitation
Fast
Slow
Plant Leaf Canopy Structure
Multilayered
Monolayer
Site of Nutrient Storage
Litter and Soil
Living Biomass and Litter
Role of Decomposers in Cycling Nutrients to Plants
Minor
Great
Biogeochemical Cycling
Open and Rapid
Closed and Slow
Rate of Net Primary Productivity
High
Low
Community Site Characteristics
Extreme
Moderate (Mesic)
Importance of Macroenvironment on Plant Success
Great
Moderate
Ecosystem Stability
Low
High
Plant Species Diversity
Low
High
Life-History Type
r
K
Seed Longevity
Long
Short

 

Source: http://www.physicalgeography.net/fundamentals/9i.html

 

Primary succession after glaciation:

 

 

Secondary succession after agricultural land use:

 

 

A good summary of an example of succession on sand dunes right here.

 

Another example of both primary and secondary succession - here we go!

 

A fairly dry example of succession in Alaska - try this!  Note: the example plants are American in origin.

 

This is another example of how plant life has change in a volcanic island (Surtsey) off Iceland.

 


 

Student Outcome:E6.2

Explain why biodiversity is essential for the perpetuation of communities.

 

 

Conserving biodiversity has not always been high on the conservation agenda. In the past, most conservation efforts were focussed on saving a particular species from decline or extinction. Many conservationists argued that this was an effective way to not only protect endangered species, but to conserve biodiversity as well. This was because protecting an endangered species usually involved protecting that species' habitat and therefore all the other plants and animals in that habitat gained protection as well. This argument has some merit, because it is usually easier to gain support for the protection of one particular species than it is to convince people to support the conservation of biodiversity as a whole.

 

However, we now know that this approach is not the best way to conserve biodiversity. Areas we protect for a single species are not necessarily the areas we would protect if we were primarily interested in conserving biodiversity. There are a several reasons for this:

 

 

If we are genuine in our desire to conserve biodiversity, it is far more efficient to conserve whole ecosystems which encompass biodiversity at all levels, rather than focus on a few highly visible and popular species in isolation.

 

Source: http://www.amonline.net.au/factsheets/conserving_biodiversity.htm

 

This video is sort of on the topic but it shows how human activity affects diversity.

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