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Ecological Succession | Biology for SSS 3 PDF Download

Introduction

  • The development of plant communities on barren area is called ecological succession or Biotic succession. 
  • The replacement of existing community by new ones, in an orderly sequence in barren area with time due to change in environmental conditions. 
  • Biotic communities are never stable. They are changing more or less over period and space, due to presence of different types of climatic & environmental conditions. 
  • So a continuous interaction is going on between the community and environment till state of stability.

Types of Community in Succession

  • Pioneer Community – The first community to inhabit an area is called Pioneer community.

  • Climax Community – The last and stable community in an area is called climax community. This is more stable. Usually mesophytes are present in climax community.

  • Seral Communities or Seral stage – In succession, communities or stages which comes in between pioneer community and climax community is called transitional or seral communities.

  • Sere – The entire series of communities is called sere.

Question for Ecological Succession
Try yourself:
What is the term used to describe the first community to inhabit a barren area?
View Solution

The name of the sere depends on where the succession occurs or takes place.

  •  Succession in fresh water → Hydrosere 

  •  Succession in salty water → Halosere 

  •  Succession in acidic water → Oxalosere 

  •  Succession at dry Region → Xerosere 

  •  Succession on rocks → Lithosere 

  •  Succession on sand → Psamosere 

  •  Succession at moistened region → Mesosere 

  •  Succession of microbes on decomposed matters → Serula 

 

Characteristics of Ecological Succession

  1. Gradual replacement from short lived to long lived plant.
  2. Continuous change in communities towards a state of stability or climax.
  3. Increases species-diversity, biomass, niche specialization, humus content.
  4. Decreases – net community productivity or annual yield.
  5. Future seral communities can be predicted as it is a directional process.

Causes of Succession

  1. Biotic Factors – The action of each seral community (interaction with it's environment) makes the area less favourable for itself and more favourable for next seral community in the succession.
  2. Physiographic Factors – These include climatic and other physical factors like soil erosion, soil deposition, landslide, volcanic lava. These all factors makes an area barren.

Types of Succession

  1. Primary succession – Occurs in the barren area where there was no previously any type of living matter. e.g. volcanic lava, estuarine, mud bank, igneous rock, sand dunes.
    Note :It requires 1000(s) of years.
  2. Secondary succession – This type of succession occurs where vegetation was present previously but vegetation was destroyed due to natural or artificial causes i.e. fire, flood, sudden changes in climate, land slide.
    Note : This succession is comparatively more rapid, requires 50-100 years for grass land and 100-200 years for forest.


Question for Ecological Succession
Try yourself:
Which type of succession occurs in an area where there was previously no living matter?
View Solution

General Process of 

Ecological Succession

1. Nudation – It involves development of barren area (i.e. removal of community) by topographic (Soil erosion, land slide, volcanic eruption), biotic (human activity) and climatic factors (fire, flood, hails). It is the early stage of soil formation.

2. Invasion – Successful establishment of a species in a barren area.

This process is complete in three steps. 

  •  Migration (dispersal) – Reaching of different reproductive structures like seed, spores through water or air on barren area.

  •  Ecosis (ecesis) – Successful establishment of species in new environment.

  • Many juvenile plants are formed due to the germination of different spores or seeds. Out of them some of the plant species are modified or adapted according to the new climatic condition and established there.

  •  Aggregation – After ecesis (establishment), as a result of reproduction members of the species increase in number.

3. Competition or co-action – Due to increasing no. of species at limited place there develops competition for habitat and nutrition. Individuals affect each other, this is co-action.

4. Reaction – Species which have survived, will react with environment and modify the environment  (change soil, water, light, temperature). The modified environment is less favourable for the existing community so it is replaced by another community.

5. Stabilization (Climax) – Finally there occurs a stage in the process when the final terminal community becomes stabilized for longer period of time, maintains itself with the climate of the area. This community is called climax community. It is complex, stable, no more species can replace them.

Examples of Successions

Hydrosere

Stages of hydrosere or hydrarch succession in the newly formed pond or lake 

  1. Phytoplankton stage – It is pioneer community, first coming minute autotrophic organism. These produce organic matter. e.g. Soft mud diatom, Cyanobacteria 
  2. Rooted submerged stages – e.g. Vallisneria
  3. Rooted floating stages – e.g. Nymphaea, Nelumbium, Trapa
  4. Reed swamp stage (amphibious stage) –  Most part of these rooted plants remain exposed to air. e.g. Typha, Sagittaria
  5. Sedge (Meadow stage or marsh meadow stage) – Muddy plants e.g. Carex, Ipomea
  6. Scrub stage – woody shrubs, tolerates water logging. e.g. Cornus 
  7. Forest stage – e.g. Tree

Lithosere

Stages of Lithosere (Successionon rocks) 

  1. Crustose lichens stage – It is pioneer community, tolerates desiccation, produces organic acid which causes weathering of rocks, so first minerals are released for own use. e.g. Rhizocarpon.
  2. Foliose lichens stage – large lichens with leafy thalli. e.g. Dermatocarpon.
  3. Moss stage e.g. Polytrichum.
  4. Herb stage – Annual hardy grasses
    e.g. Poa, Eleusin, Aristida.
  5. Shrub stage
    e.g. Zizyphus.
  6. Forest stage
    e.g. Tree.

Question for Ecological Succession
Try yourself:
Which stage of ecological succession is characterized by the establishment of a pioneer community that produces organic matter?
View Solution

Importance of Succession

  • Information gained through biotic succession is used in having controlled growth of one or more species by preventing their superiors to invade the area, e.g., maintenance of teak forests.
  • It gives information about the techniques to be used during reforestation & afforestation.
  • Dams are protected by preventing situation & biotic succession to occur.
  • It tells us how a biotic seral stage can be maintained by net allowing the biotic succession to proceed further through interference like grazing and fire.

The document Ecological Succession | Biology for SSS 3 is a part of the SSS 3 Course Biology for SSS 3.
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FAQs on Ecological Succession - Biology for SSS 3

1. What is ecological succession?
Ecological succession refers to the gradual and predictable process of change in the species composition and structure of an ecological community over time. It involves the colonization, establishment, and replacement of different species in a given area.
2. What are the characteristics of ecological succession?
The characteristics of ecological succession include: 1. Gradual change: Succession occurs over a relatively long period, typically spanning decades or even centuries. 2. Predictability: The sequence of species replacement follows a general pattern, starting with pioneer species and culminating in a climax community. 3. Directionality: Succession moves towards a more complex and stable community structure. 4. Species diversity: Succession leads to an increase in species diversity as new species colonize and establish in the area. 5. Interaction with the environment: Succession is influenced by both biotic and abiotic factors, such as competition, predation, climate, and soil conditions.
3. What are the causes of succession?
Succession can be caused by various factors, including: 1. Disturbances: Natural or human-induced disturbances, such as wildfires, hurricanes, or clear-cutting, can create open spaces for new species to colonize. 2. Primary succession: This type of succession occurs on bare, lifeless substrates like newly formed volcanic islands or glacial retreat areas. 3. Secondary succession: This type of succession happens after a disturbance that removes the existing vegetation but leaves the soil intact, such as forest fires or abandoned agricultural land. 4. Climate change: Changes in climate patterns can alter the suitability of an area for certain species, leading to shifts in community composition. 5. Human activities: Activities like deforestation, urbanization, and pollution can disrupt existing communities and trigger succession.
4. What are the types of succession?
There are two main types of succession: 1. Primary succession: This type of succession occurs in an area where no previous community existed, such as on bare rock or sand. It starts with pioneer species, like lichens and mosses, which gradually break down the substrate and create soil for other plants to establish. 2. Secondary succession: This type of succession occurs in an area where a previous community was present but has been disturbed or removed. The process starts with fast-growing and opportunistic species, such as grasses and shrubs, and eventually transitions to more shade-tolerant and long-lived species like trees.
5. Why is succession important in ecology?
Succession is important in ecology for several reasons: 1. Biodiversity: Succession leads to an increase in species diversity over time, as different species colonize and establish in the area. This biodiversity is important for ecosystem stability and resilience. 2. Habitat creation: Succession creates and enhances habitat for various organisms, providing resources and shelter for a wide range of species. 3. Nutrient cycling: Succession plays a role in nutrient cycling, as different species contribute to the decomposition of organic matter and the recycling of nutrients back into the ecosystem. 4. Ecosystem services: The different stages of succession provide different ecosystem services, such as erosion control, water filtration, and carbon sequestration. 5. Conservation and restoration: Understanding succession is crucial for conservation and restoration efforts, as it helps in planning and managing ecosystems to restore or maintain their natural functioning.
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