Xylem

In Vascular Plant s, xylem is one of the two types of transport tissue in plants, Phloem being the other one. The word “xylem” is derived from classical Greek ''xúlon'', "wood", and indeed the best known xylem tissue is Wood . The xylem transports sap from the root up the plant: xylem sap consists mainly of water and inorganic ions, although it can contain a number of organic chemicals as well.

This transport is not powered by energy spent by the tracheary elements themselves, which are dead at maturity and no longer have living contents. Two phenomena cause xylem sap to flow:

The soil solution (see Soil ) is more dilute than the Cytosol of the root cells. Thus, water moves Osmotically into the cells, creating Root Pressure . Root pressure is very variable between different plants; examples include up to 145 kPa in ''Vitis riparia'' but around zero in ''Celastrus orbiculatus'' {Link without Title} .

By far the most important cause of xylem sap flow is Transpirational Pull . The reverse of root pressure, this is caused by the Transpiration of Water . In larger plants such as trees, the root pressure and transpirational pull work together as a pump that pulls sap from the soil up to where it is transpired.

Xylem can be found:

in Vascular Bundle s, present in non-woody plants and non-woody plant parts

in '' Secondary Xylem '', laid down by a Meristem called the Vascular Cambium

as part of a Stelar Arrangement not divided into bundles, as in many Fern s.

Note that, in transitional stages of plants with secondary growth, the first two categories are not mutually exclusive, although usually a vascular bundle will contain ''primary xylem'' only. The most distinctive cells found in xylem are the tracheary elements: Tracheid s and Vessel Element s. However, the xylem is a complex tissue of plants, which means that it includes more than one type of cell. In fact, xylem contains other kinds of cells in addition to those that serve to transport water.

EVOLUTION OF XYLEM

Xylem appeared early in the history of terrestrial plant life. Fossil plants with anatomically preserved xylem are known from the Silurian (more than 400 million years ago), and trace fossils resembling individual xylem cells may be found in earlier Ordovician rocks. The earliest true and recognizable xylem consists of tracheids with a helical-annular reinforcing layer added to the cell wall. This is the only type of xylem found in the earliest vascular plants, and this type of cell continues to be found in the ''protoxylem'' (first-formed xylem) of all living groups of plants. Several groups of plants later developed pitted tracheid cells, apparently through convergent evolution. In living plants, pitted tracheids do not appear in development until the maturation of the ''metaxylem'' (following the ''protoxylem'').

In most plants, pitted tracheids function as the primary transport cells. The other type of tracheary element, besides the tracheid, is the , Tetracentraceae , Trochodendraceae , and Winteraceae ), and their secondary xylem is described by Arthur Cronquist as "primitively vesselless". Cronquist considered the vessels of '' Gnetum '' to be convergent with those of angiosperms. Whether the absence of vessels in basal angiosperms is a Primitive condition is contested, the alternative hypothesis being that vessel elements originated in a precursor to the angiosperms and were subsquently lost.

SEE ALSO

Vascular Tissue

Vascular Bundle

Secondary Xylem

Secondary Growth

REFERENCES

Campbell, Neil A. and Jane B. Reece. 2002. ''Biology'', 6th ed., published by Benjamin Cummings.

Carlquist, S. and E.L. Schneider. 2002. The tracheid–vessel element transition in angiosperms involves multiple independent features: cladistic consequences. ''American Journal of Botany'' 89:185-195 (link to abstract here ).

Cronquist, A. 1988. The Evolution and Classification of Flowering Plants. New York, New York: The New York Botanical Garden.

Kenrick, Paul & Crane, Peter R. (1997). ''The Origin and Early Diversification of Land Plants: A Cladistic Study''. Washington, D. C.: Smithsonian Institution Press. ISBN 1-56098-730-8.

Muhammad, A.F. and R. Sattler. 1982. Vessel Structure of ''Gnetum'' and the Origin of Angiosperms. ''American Journal of Botany'' 69: 1004-1021 (available online here ).

Information About

Xylem