Pyrophyte

Pyrophytes are plants which have adapted to tolerate fire.

Fire acts favorably for some species. "Passive pyrophytes" resist the effects of fire, particularly when it passes over quickly, and hence can out-compete less resistant plants, which are damaged. "Active pyrophytes" have a similar competing advantage to passive pyrophytes, but they also contain volatile oils and hence encourage the incidence of fires which are beneficial to them. "Pyrophile" plants are plants which require fire in order to complete their cycle of reproduction.

Passive pyrophytes

Sequoia sempervirens with remainings of a fire older than 100 years

These resist fire with adaptations including thick bark, tissue with high moisture content, or underground storage structures. Examples include:

  • Longleaf pine (Pinus palustris)[1]
  • Giant sequoia (Sequoiadendron giganteum)
  • Coast redwood (Sequoia sempervirens)
  • Cork oak (Quercus suber)
  • Niaouli (Melaleuca quinquenervia) which is extending in areas where bush fires are a mode of clearing (e.g. New Caledonia).
  • Venus fly trap (Dionaea muscipula) – this grows low to the ground in acid marshes in North Carolina, and resists fires passing over due to being close to the moist soil;[2] fire suppression threatens the species in its natural environment.[3]
  • White asphodel (Asphodelus albus)

For some species of pine, such as Aleppo pine (Pinus halepensis), European black pine (Pinus nigra) and lodgepole pine (Pinus contorta), the effects of fire can be antagonistic: if moderate, it helps pine cone bursting, seed dispersion and the cleaning of the underwoods; if intense, it destroys these resinous trees.

Active pyrophytes

Some trees and shrubs such as the Eucalyptus of Australia actually encourage the spread of fires by producing inflammable oils, and are dependent on their resistance to the fire which keeps other species of tree from invading their habitat.

Pyrophile plants

Other plants which need fire for their reproduction are called pyrophile.

The passage of fire, by increasing temperature and releasing smoke, is necessary to raise seeds dormancy of pyrophile plants such as Cistus and Byblis an Australian passive carnivorous plant.

Imperata cylindrica is a plant of Papua New Guinea. Even green, it ignites easily and causes fires on the hills.

gollark: 🔥🦊: A Browser Which Isn't Chrome™
gollark: https://i.osmarks.tk/gVO9.jpg
gollark: `null`
gollark: How to Write Perfect Python Command-line Interfaces (blog.sicara.com)submitted 5 hours ago by __yannickw__ 60 commentssharesavehidegive awardreportcrosspost2120A tiny compiler with ELF and PE executable for x86 (github.com)submitted 13 hours ago by l0n3_c0d3r 24 commentssharesavehidegive awardreportcrosspost327Why you should learn F# (dusted.codes)submitted 4 hours ago by dustinmoris 28 commentssharesavehidegive awardreportcrosspost41635Sandspiel – A falling sand game built in Rust and WebGL (sandspiel.club)submitted 1 day ago by j_orshman 131 commentssharesavehidegive awardreportcrosspost547Implementing VisiCalc (2015) (rmf.vc)submitted 10 hours ago by erad 1 commentsharesavehidegive awardreportcrosspost6•16x AA font rendering using coverage masks (part III) (superluminal.eu)submitted an hour ago by rovarma commentsharesavehidegive awardreportcrosspost7357The Consequences of Your Code | Tom Scott (youtube.com)submitted 1 day ago by STR_Warrior 59 commentssharesavehidegive awardreportcrosspost816Building a telegram Bot from scratch - R (codecampanion.blogspot.com)
gollark: If I just copy-paste programming things nobody can accuse it of being off-<#348702212110680064>.

See also

References

  1. Boyer, W. D. (1990). "Pinus palustris". In Burns, Russell M.; Honkala, Barbara H. (eds.). Conifers. Silvics of North America. Washington, D.C.: United States Forest Service (USFS), United States Department of Agriculture (USDA). 1 via Southern Research Station (www.srs.fs.fed.us).
  2. W. Schulze; E.D. Schulze; I. Schulze & R. Oren (2001). "Quantification of insect nitrogen utilization by the venus fly trap Dionaea muscipula catching prey with highly variable isotope signatures". Journal of Experimental Botany. 52 (358): 1041–1049. doi:10.1093/jexbot/52.358.1041. PMID 11432920.
  3. Leege, Lissa. "How does the Venus flytrap digest flies?". Scientific American. Retrieved 2008-08-20.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.