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Secondary succession

February 15, 2024

Secondary succession is the secondary ecological succession of a plant's life. As opposed to the first, primary succession, secondary succession is a process started by an event (e.g. forest fire, harvesting, hurricane, etc.) that reduces an already established ecosystem (e.g. a forest or a wheat field) to a smaller population of species, and as such secondary succession occurs on preexisting soil whereas primary succession usually occurs in a place lacking soil. Many factors can affect secondary succession, such as trophic interaction, initial composition, and competition-colonization trade-offs.[1] The factors that control the increase in abundance of a species during succession may be determined mainly by seed production and dispersal, micro climate; landscape structure (habitat patch size and distance to outside seed sources);[1] bulk density, pH, and soil texture (sand and clay).[2]

An example of secondary succession by stages:
  1. A stable deciduous forest community.
  2. A disturbance, such as a fire, starts.
  3. The fire destroys the vegetation.
  4. The fire leaves behind empty, but not destroyed soil.
  5. Grasses and other herbaceous plants grow back first.
  6. Small bushes and trees begin to colonize the public area.
  7. Fast-growing evergreen trees and bamboo trees develop to their fullest, while shade-tolerant trees develop in the understory.
  8. The short-lived and shade-intolerant evergreen trees die as the larger deciduous trees overtop them. The ecosystem is now back to a similar state to where it began.

Secondary succession is the ecological succession that occurs after the initial succession has been disrupted and some plants and animals still exist. It is usually faster than primary succession as soil is already present, and seeds, roots, and the underground vegetative organs of plants may still survive in the soil.

Examples edit

Imperata edit

Imperata grasslands are caused by human activities such as logging, forest clearing for shifting cultivation, agriculture and grazing, and also by frequent fires. The latter is a frequent result of human interference.[3] However, when not maintained by frequent fires and human disturbances, they regenerate naturally and speedily to secondary young forest. The time of succession in Imperata grassland (for example in Samboja Lestari area), Imperata cylindrica has the highest coverage but it becomes less dominant from the fourth year onwards. While Imperata decreases, the percentage of shrubs and young trees clearly increases with time. In the burned plots, Melastoma malabathricum, Eupatorium inulaefolium, Ficus sp., and Vitex pinnata. strongly increase with the age of regeneration, but these species are commonly found in the secondary forest.[4]

Soil properties change during secondary succession in Imperata grassland area. The effects of secondary succession on soil are strongest in the A-horizon (0–10 cm (0.0–3.9 in)), where an increase in carbon stock, N, and C/N ratio, and a decrease in bulk density and pH are observed. Soil carbon stocks also increase upon secondary succession from Imperata grassland to secondary forest.[2]

  • Secondary succession in Imperata-dominated grassland
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Oak and hickory forest edit

A classic example of secondary succession occurs in oak and hickory forests cleared by wildfire. Wildfires will burn most vegetation and kill those animals unable to flee the area. Their nutrients, however, are returned to the ground in the form of ash. Thus, even when areas are devoid of life due to severe fires, the area will soon be ready for new life to take hold. Before the fire, the vegetation was dominated by tall trees with access to the major plant energy resource: sunlight. Their height gave them access to sunlight while also shading the ground and other low-lying species. After the fire, though, these trees are no longer dominant. Thus, the first plants to grow back are usually annual plants followed within a few years by quickly growing and spreading grasses and other pioneer species. Due to, at least in part, changes in the environment brought on by the growth of the grasses and other species, over many years, shrubs will emerge along with small pine, oak, and hickory trees. These organisms are called intermediate species. Eventually, over 150 years, the forest will reach its equilibrium point where species composition is no longer changing and resembles the community before the fire. This equilibrium state is referred to as the climax community, which will remain stable until the next disturbance.[5]

 
The secondary succession of an oak and hickory forest

Post-fire succession edit

Further information: Fire ecology

Soil edit

Generation of carbonates from burnt plant material following fire disturbance causes an initial increase in soil pH that can affect the rate of secondary succession, as well as what types of organisms will be able to thrive. Soil composition prior to fire disturbance also influences secondary succession, both in rate and type of dominant species growth. For example, high sand concentration was found to increase the chances of primary Pteridium over Imperata growth in Imperata grassland.[6] The byproducts of combustion have been shown to affect secondary succession by soil microorganisms. For example, certain fungal species such as Trichoderma polysporum and Penicillium janthinellum have a significantly decreased success rate in spore germination within fire-affected areas, reducing their ability to recolonize.[7]

Vegetation edit

Vegetation structure is affected by fire. In some types of ecosystems this creates a process of renewal. Following a fire, early successional species disperse and establish first. This is followed by late-successional species. Species that are fire intolerant are those that are more flammable and are desolated by fire. More tolerant species are able to survive or disperse in the event of fire. The occurrence of fire leads to the establishment of deadwood and snags in forests. This creates habitat and resources for a variety of species.

Fire can act as a seed-dispersing stimulant. Many species require fire events to reproduce, disperse, and establish. For example, the knobcone pine has closed cones that open for dispersal when exposed to heat caused by forest fires. It grows in clusters because of this limited method of seed dispersal. A tough fire resistant outer bark and lack of low branches help the knobcone pine survive fire with minimal damage.[8]

References edit

  1. ^ a b Cook, W.M.; Yao, J.; Forster, B.L.; Holt, R.D.; Patricks, L.B. (2005). "Secondary succession in an experimentally fragmented landscape: Community pattern across space and time" (PDF). Ecology. 86 (5): 1267–1279. doi:10.1890/04-0320. hdl:1808/16487.
  2. ^ a b Van der Kamp, J.; Yassir, I.; Buurman, P. (2009). "Soil carbon changes upon secondary succession in Imperata grasslands (East Kalimantan, Indonesia)". Geoderma. 149 (1–2): 76–83. doi:10.1016/j.geoderma.2008.11.033.
  3. ^ MacKinnon, K., Hatta, G., Halim, H., Mangalik, A., 1996. Ecology of Kalimantan. The ecology of Indonesia Seri Vol. III
  4. ^ Yassir, I.; Van der Kamp, J.; Buurman, P. (2010). "Secondary succession after fire in Imperata grasslands of East Kalimantan, Indonesia". Agriculture, Ecosystems and Environment. 137 (1–2): 172–182. doi:10.1016/j.agee.2010.02.001.
  5. ^ "45.6 Community Ecology". OpenStax CNX. Retrieved 2017-07-30.
  6. ^ Yassir, I. (15 April 2010). "Secondary succession after fire in ImperataIndonesia". Agriculture, Ecosystems & Environment. 137 (1–2): 172–182. doi:10.1016/j.agee.2010.02.001.
  7. ^ Widden, P. (March 1975). "The effects of a forest fire on soil microfungi". Soil Biology and Biochemistry. 7 (2): 125–138. doi:10.1016/0038-0717(75)90010-3.
  8. ^ Burczyk, Jaroslaw; Adams, W. T.; Shimizu, Jarbas Y. (3 October 1996). "Mating patterns and pollen dispersal in a natural knobcone pine (Pinus attenuata Lemmon.) stand". Heredity. 77 (3): 251–260. doi:10.1038/sj.hdy.6880410.

February 15, 2024
secondary, succession, secondary, ecological, succession, plant, life, opposed, first, primary, succession, secondary, succession, process, started, event, forest, fire, harvesting, hurricane, that, reduces, already, established, ecosystem, forest, wheat, fiel. Secondary succession is the secondary ecological succession of a plant s life As opposed to the first primary succession secondary succession is a process started by an event e g forest fire harvesting hurricane etc that reduces an already established ecosystem e g a forest or a wheat field to a smaller population of species and as such secondary succession occurs on preexisting soil whereas primary succession usually occurs in a place lacking soil Many factors can affect secondary succession such as trophic interaction initial composition and competition colonization trade offs 1 The factors that control the increase in abundance of a species during succession may be determined mainly by seed production and dispersal micro climate landscape structure habitat patch size and distance to outside seed sources 1 bulk density pH and soil texture sand and clay 2 An example of secondary succession by stages A stable deciduous forest community A disturbance such as a fire starts The fire destroys the vegetation The fire leaves behind empty but not destroyed soil Grasses and other herbaceous plants grow back first Small bushes and trees begin to colonize the public area Fast growing evergreen trees and bamboo trees develop to their fullest while shade tolerant trees develop in the understory The short lived and shade intolerant evergreen trees die as the larger deciduous trees overtop them The ecosystem is now back to a similar state to where it began Secondary succession is the ecological succession that occurs after the initial succession has been disrupted and some plants and animals still exist It is usually faster than primary succession as soil is already present and seeds roots and the underground vegetative organs of plants may still survive in the soil Contents 1 Examples 1 1 Imperata 1 2 Oak and hickory forest 2 Post fire succession 2 1 Soil 2 2 Vegetation 3 ReferencesExamples editImperata edit Imperata grasslands are caused by human activities such as logging forest clearing for shifting cultivation agriculture and grazing and also by frequent fires The latter is a frequent result of human interference 3 However when not maintained by frequent fires and human disturbances they regenerate naturally and speedily to secondary young forest The time of succession in Imperata grassland for example in Samboja Lestari area Imperata cylindrica has the highest coverage but it becomes less dominant from the fourth year onwards While Imperata decreases the percentage of shrubs and young trees clearly increases with time In the burned plots Melastoma malabathricum Eupatorium inulaefolium Ficus sp and Vitex pinnata strongly increase with the age of regeneration but these species are commonly found in the secondary forest 4 Soil properties change during secondary succession in Imperata grassland area The effects of secondary succession on soil are strongest in the A horizon 0 10 cm 0 0 3 9 in where an increase in carbon stock N and C N ratio and a decrease in bulk density and pH are observed Soil carbon stocks also increase upon secondary succession from Imperata grassland to secondary forest 2 Secondary succession in Imperata dominated grassland nbsp nbsp nbsp Oak and hickory forest edit A classic example of secondary succession occurs in oak and hickory forests cleared by wildfire Wildfires will burn most vegetation and kill those animals unable to flee the area Their nutrients however are returned to the ground in the form of ash Thus even when areas are devoid of life due to severe fires the area will soon be ready for new life to take hold Before the fire the vegetation was dominated by tall trees with access to the major plant energy resource sunlight Their height gave them access to sunlight while also shading the ground and other low lying species After the fire though these trees are no longer dominant Thus the first plants to grow back are usually annual plants followed within a few years by quickly growing and spreading grasses and other pioneer species Due to at least in part changes in the environment brought on by the growth of the grasses and other species over many years shrubs will emerge along with small pine oak and hickory trees These organisms are called intermediate species Eventually over 150 years the forest will reach its equilibrium point where species composition is no longer changing and resembles the community before the fire This equilibrium state is referred to as the climax community which will remain stable until the next disturbance 5 nbsp The secondary succession of an oak and hickory forestPost fire succession editFurther information Fire ecology Soil edit Generation of carbonates from burnt plant material following fire disturbance causes an initial increase in soil pH that can affect the rate of secondary succession as well as what types of organisms will be able to thrive Soil composition prior to fire disturbance also influences secondary succession both in rate and type of dominant species growth For example high sand concentration was found to increase the chances of primary Pteridium over Imperata growth in Imperata grassland 6 The byproducts of combustion have been shown to affect secondary succession by soil microorganisms For example certain fungal species such as Trichoderma polysporum and Penicillium janthinellum have a significantly decreased success rate in spore germination within fire affected areas reducing their ability to recolonize 7 Vegetation edit Vegetation structure is affected by fire In some types of ecosystems this creates a process of renewal Following a fire early successional species disperse and establish first This is followed by late successional species Species that are fire intolerant are those that are more flammable and are desolated by fire More tolerant species are able to survive or disperse in the event of fire The occurrence of fire leads to the establishment of deadwood and snags in forests This creates habitat and resources for a variety of species Fire can act as a seed dispersing stimulant Many species require fire events to reproduce disperse and establish For example the knobcone pine has closed cones that open for dispersal when exposed to heat caused by forest fires It grows in clusters because of this limited method of seed dispersal A tough fire resistant outer bark and lack of low branches help the knobcone pine survive fire with minimal damage 8 References edit a b Cook W M Yao J Forster B L Holt R D Patricks L B 2005 Secondary succession in an experimentally fragmented landscape Community pattern across space and time PDF Ecology 86 5 1267 1279 doi 10 1890 04 0320 hdl 1808 16487 a b Van der Kamp J Yassir I Buurman P 2009 Soil carbon changes upon secondary succession in Imperata grasslands East Kalimantan Indonesia Geoderma 149 1 2 76 83 doi 10 1016 j geoderma 2008 11 033 MacKinnon K Hatta G Halim H Mangalik A 1996 Ecology of Kalimantan The ecology of Indonesia Seri Vol III Yassir I Van der Kamp J Buurman P 2010 Secondary succession after fire in Imperata grasslands of East Kalimantan Indonesia Agriculture Ecosystems and Environment 137 1 2 172 182 doi 10 1016 j agee 2010 02 001 45 6 Community Ecology OpenStax CNX Retrieved 2017 07 30 Yassir I 15 April 2010 Secondary succession after fire in ImperataIndonesia Agriculture Ecosystems amp Environment 137 1 2 172 182 doi 10 1016 j agee 2010 02 001 Widden P March 1975 The effects of a forest fire on soil microfungi Soil Biology and Biochemistry 7 2 125 138 doi 10 1016 0038 0717 75 90010 3 Burczyk Jaroslaw Adams W T Shimizu Jarbas Y 3 October 1996 Mating patterns and pollen dispersal in a natural knobcone pine Pinus attenuata Lemmon stand Heredity 77 3 251 260 doi 10 1038 sj hdy 6880410 Retrieved from https en wikipedia org w index php title Secondary succession amp oldid 1184212524, wikipedia, wiki, book, books, library,

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