Subaerial Explained

In natural science, subaerial (literally "under the air") has been used since 1833,[1] notably in geology and botany, to describe features and events occurring or formed on or near the Earth's land surface.[1] They are thus exposed to Earth's atmosphere. This may be contrasted with subaqueous[2] events or features located below a water surface, submarine events or features located below a sea surface, subterranean events or features located below ground, or subglacial events or features located below glacial ice such as ice sheets.

Geology

For example, a subaerial eruption of a volcano is one that ejects material in the open but "under the air" (under the atmosphere). Subaerial weathering is weathering by rain, frost, rivers etc.

The term "subaerial" may exclude processes occurring in caves.

The term is often used in sedimentology.

Botany

Leaves are subaerial organs of plants.[3]

Some plants may have subaerial roots,[1] either totally (epiphytic plants such as some orchids) or more commonly only partly so. The oil palm tree can grow roots into accumulations of decaying leaves on the soil surface; these roots are said to be subaerial.[4] Epiphyte plants growing above ground that do not feed from their tree support (for example through their haustorium or feeding part having dug into the tree, such as Mistletoe)[5] have subaerial roots (for example some Ficus species).[6]

Subaerial stems are the stems that do not rise up but grow just above the ground. As a type of asexual propagation, these subaerial stolons, also called runners, often develop roots and leaves from their nodes.[7]

Some pond plants have subaerial leaves as well as submerged leaves (water plantain, flowering rush).[8]

See also

Notes and References

  1. http://www.merriam-webster.com/dictionary/subaerial Subaerial
  2. Robert L. Bates, Julia A. Jackson, Dictionary of Geological Terms AGI (1984)
  3. Macgregor Skene. Biology of Flowering Plants, page 2. ed. Discovery Publishing House, New Delhi, reprinted in 2006. .
  4. R.H.V. Corley & P.B.H. Tinker. The Oil Palm, 4th edition, page 37. Blackwell Science, 2003 (three eds. in 1967, 1977 and 1988).
  5. Macgregor Skene, op. cit., p. 229.
  6. Macgregor Skene, op. cit., p. 71.
  7. "Subaerial Stem Modifications" on tutorvista.com.
  8. Macgregor Skene, op. cit., p. 294.