WB01705.gif (1157 bytes)  Xylem-1  WB01704_.gif (383 bytes)
DicotStemX-SX400.jpg (46416 bytes)
Cross-Section of a Dicot Stem
Cells in the Xylem have stained red for lignin.

Xylem and Phloem are the Vascular Tissues in MOST plants. They are usually found together. Most people are familiar with vascular tissues in stems. Thus we will start with stem cross-sections.

The vascular tissues in stems are found within bundles which are continuous over a relatively large distance. Cells in the xylem have thick lignified walls which stain red for lignin in most preparations.

The Conducting cells in the Xylem are called Tracheary Elements

Both Xylem and Phloem have cytological traits which distinguish  them from the surrounding tissues. The Lignified walls of the Tracheary Elements in the Xylem are the most distinctive of these.

TypVBLab200.jpg (39327 bytes)       TypVBX&PLab200.jpg (40103 bytes)

Xylem & Phloem are said to be "complex tissues" because they contain Fibers and Parenchyma as well as Tracheary Elements (Xylem) & Sieve Elements (Phloem).

The most specialized cells of the Xylem are called Tracheary Elements.

These serve two functions, physical support & water conduction.

Vessel Members (VM) have large openings in their end walls. These are the "Perforation Plates".

Note the ladder-like segments of cell wall which form the Perforation Plate on the end-wall of this VesselPerfPlateCombo400.jpg (36681 bytes) Member.

These restrict the flow of water but may add some strength at the point where the Vessel members connect. I used an embossing tool to generate the image on the right.

The most advanced VM have no wall obstructions between succeeding members of a Vessel. These have "Simple Perforation Plates". Both of the cells below have simple Perforation Plates. Elongated cells with a narrow diameter are better for support. Shorter wider cells are better for conduction.

VesselMembPerf200.jpg (8420 bytes)
Elongate Vessel member with Simple Perforation Plates.

 VesselMemb200.jpg (7570 bytes)
Wide Vessel member with a simple Perforation Plate. This kind of cell is better for conduction than physical support. Note the numerous PITS on the lateral walls.

Tracheary Elements also contain many pits on their side walls. This provides for Lateral transport.

Tracheids are the other type of Tracheary Element. TrachVesselLab300.jpg (15298 bytes)Tracheids are usually more elongate and narrower than Vessel Members. However, the most critical difference is that tracheids are Imperforate. This means that they lack Perforation Plates.

Their end walls contain numerous pits, however, which facilitate the longitudinal transport of water. Vessel Members TrachEndLab300.jpg (17413 bytes)are characteristic for Flowering Plants but are rare in non-flowering terrestrial plants. The most advanced angiosperms have both types of tracheary elements in their xylem.

Comparison of Tracheids and Vessel MembersTracheidVSVessel200.jpg (23333 bytes) combined in a vertical column. A Vessel is composed of several Vessel Members. There is no collective term for a longitudinal series of Tracheids. The disparity in radial and longitudinal sizes demonstrate that a group of Tracheids can supply more structural support than Vessels & that Vessels can conduct more water.
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