Pit (botany) explained

Pits are relatively thinner portions of the cell wall that adjacent cells can communicate or exchange fluid through. Pits are characteristic of cell walls with secondary layers. Generally each pit has a complementary pit opposite of it in the neighboring cell. These complementary pits are called "pit pairs".[1]

Pits are composed of three parts: the pit chamber, the pit aperture, and the pit membrane. The pit chamber is the hollow area where the secondary layers of the cell wall are absent. The pit aperture is the opening at either end of the pit chamber. The pit membrane is the primary cell wall and middle lamella, or the membrane between adjacent cell walls, at the middle of the pit chamber.[2]

The primary cell wall at the pit membrane may also have depressions similar to the pit depressions of the secondary layers. These depressions are primary pit-fields, or primary pits. In the primary pit, the primordial pit provides an interruption in the primary cell wall that the plasmodesmata can cross. The primordial pit is the only aperture in the otherwise continuous primary cell wall.[3]

Pit pairs are a characteristic feature of xylem, as sap flows through the pits of xylem cells.[4]

Types of pits

Though pits are usually simple and complementary, a few more pit variations can be formed:[5] [6]

Plasmodesmata

See main article: Plasmodesma.

Plasmodesmata are thin sections of the endoplasmic reticulum that traverse pits and connect adjacent cells. These sections provide an avenue of transport through the pits and facilitate communication.[7] Plasmodesmata are not restricted to pits however, as plasmodesmata often cross a cell wall of constant width and occasionally the cell wall is even wider in areas where plasmodesmata traverse it.[3]

Torus and margo

The torus and margo are characteristic features of bordered pit-pairs in gymnosperms, such as Coniferales, Ginkgo, and Gnetales. In other vascular plants, the torus is rare. The pit membrane is separated into two parts: a thick impermeable torus at the center of the pit membrane, and the permeable margo surrounding it. The torus regulates the functions of the bordered pit, and the margo is a cell wall-derived porous membrane that supports the torus. The margo is composed of bundles of microfibrils that radiate from the torus.[3]

The margo is flexible and can move towards either side of the pit while under stress. This allows the thick, impermeable torus to block the pit aperture. When the torus is displaced so that it blocks the pit aperture, the pit is said to be aspirated.[8]

Further reading

Notes and References

  1. Book: Introduction to Plant Cell Development . Jeremy Burgess . CUP Archive . 1985 . 9780521316118 . 91.
  2. Book: Esau's Plant Anatomy: Meristems, Cells, and Tissues of the Plant Body: Their Structure, Function, and Development . Ray F. Evert . third, illustrated . John Wiley & Sons . 2006 . 9780470047378 . 76.
  3. Book: Anatomy of Seed Plants . Plant Anatomy . 2nd . Katherine Easu . John Wiley & Sons . 51 . 1977 . 0-471-24520-8.
  4. Book: Three-dimensional Structure of Wood: A Scanning Electron Microscope Study; Volume 2 of Syracuse wood science series . B. A. Meylan, Brian Geoffrey Butterfield . illustrated . Syracuse University Press . 1972 . 9780815650300 . 12.
  5. Web site: 2016-03-12 . Pits in Plants EasyBiologyClass . 2023-08-31 . www.easybiologyclass.com . en-US.
  6. Web site: Difference between Pits and Plasmodesmata . 2024-06-13 . BYJUS . en.
  7. Book: An Introduction to Plant Structure and Development: Plant Anatomy for the Twenty-First Century . Charles B. Beck . second, revised . Cambridge University Press . 2010 . 9781139486361 . 31.
  8. Petty JA . 1972 . The Aspiration of Bordered Pits in Conifer Wood . Proceedings of the Royal Society of London. Series B, Biological Sciences . 181 . 1065 . 395–406 . 10.1098/rspb.1972.0057 . 1972RSPSB.181..395P . 97730825 .