Vessel element 2218225 166403774 2007-10-22T23:55:03Z Tomas e 5181812 Interwiki sv [[Image:Hardwood Pores.jpg|right|thumb|300px|[[Scanning electron microscope|SEM]] image (top) and Transmission Light Microscope image (bottom) of pores in [[Oak]]]] A '''vessel element''' is one of the cell types found in [[xylem]], the water conducting tissue of plants. Vessel elements are typically found in the [[angiosperm]]s but absent from most [[gymnosperm]]s such as the [[conifers]]. Vessel elements are the building blocks of vessels, which constitute the major part of the water transporting system in the plants where they occur. Vessels form an efficient system for transporting water (including necessary minerals) from the root to the leaves and other parts of the plant. In secondary xylem, a vessel element originates from a fusiform initial in the [[cambium]], at maturity the protoplast dies and disappears, but the lignified cell walls persist. It may be seen as a dead cell, which still has a function, and is still being protected by surrounding living cells. The cell wall is strongly lignified. At both ends there are openings that connect the individual vessel elements. These are called perforations or perforation plates. These perforations may have a variety of shapes: the most common are the simple perforation (a simple opening) and the scalariform perforation (several elongated openings on top of each other in a ladder-like design). Other types include the foraminate perforation plate (several round openings) and reticulate perforation plate (net-like pattern, with many openings). The side walls will have pits, and may have spiral thickenings. The presence of vessels in xylem has been considered to be one of the key innovations that led to the success of the flowering plants. It was once thought that vessel elements were an evolutionary innovation of flowering plants, but their absence from some basal [[angiosperms]] and presence in some members of the [[Gnetales]] suggest that this hypothesis must be re-examined; vessel elements in Gnetales may not be homologous with those of angiosperms, or vessel elements may have originated in a precursor to the angiosperms and were subsequently lost in some archaic or "basal" lineages (e.g., [[Amborellaceae]], [[Tetracentraceae]], [[Trochodendraceae]], and [[Winteraceae]]), described by [[Arthur Cronquist]] as "primitively vesselless". Cronquist considered the vessels of ''[[Gnetum]]'' to be convergent with those of angiosperms. Vessel-like cells have also been found in the xylem of ''[[Equisetum]]'' (horsetails), ''[[Selaginella]]'' (spike-mosses), ''[[Pteridium aquilinum]]'' (bracken fern), ''[[Marsilea]]'' and ''[[Regnellidium]]'' ([[aquatic fern]]s), and the enigmatic fossil group [[Gigantopteridales]]. In these cases, it is generally agreed that the vessels evolved independently. It is therefore not a stretch to believe that vessels may have appeared more than once among the angiosperms as well. ==See also== * [[Tracheid]] ==References== * Niklas, Karl J. (1997) ''The Evolutionary Biology of Plants''. Chicago and London: The University of Chicago Press. ISBN 0-226-58082-2. * Schweingruber, F.H. (1990) ''Anatomie europäischer Hölzer - Anatomy of European woods.'' Eidgenössische Forschungsanstalt für Wald, Schnee und Landscaft, Birmensdorf (Hrsg,). Haupt, Bern und Stuttgart. * Timonen, Tuuli (2002). ''Introduction to Microscopic Wood Identification''. Finnish Museum of Natural History, University of Helsinki. * Wilson, K. & D.J.B. White (1986). ''The Anatomy of Wood: its Diversity and variability.'' Stobart & Son Ltd, London [[Category:Plant anatomy]] [[Category:wood]] [[de:Trachee (Pflanze)]] [[pl:Naczynie (drewno)]] [[sv:Kärlcell]]