Xylem and Phloem PDF

9/4/2020 Xylem and Phloem Dr. J. Joel Gnanadoss Xylem tissue is used mostly for transporting water from roots to stems and leaves but also transports other dissolved compounds. Phloem is responsible for transporting food produced from photosynthesis from leaves to non- photosynthesizing parts of a plant such as roots and stems. 1 9/4/2020 Xylem can be defined as a complex tissue that is composed of four basic types of cell (tracheids, trachea, and xylem fibre and xylem parenchyma), remains in close association with phloem and has specialized functions like conduction of water and solutes, and mechanical strength. Xylem and phloem together constitute the conducting tissues in plants. They occur both in primary —and secondary vascular tissues. Accordingly their origins differ. The procambial strands of apical meristem develop into primary xylem and primary phloem. 2 9/4/2020 Xylem – types of cells Xylem Parenchyma Xylem Fibres Tracheids Vessels i. Xylem Parenchyma Parenchyma that forms one of the constituent of xylem is referred to as xylem parenchyma. Xylem parenchyma is present in primary — and secondary xylem and respectively originates from procambium and cambium. In secondary xylem xylem-parenchyma is also termed as wood parenchyma and is present as axial — and radial parenchyma that accordingly occur as parallel and perpendicular to the long axis of organ where they lie. 3 9/4/2020 Xylem parenchyma has no definite shape. It may be irregular, rectangular, round, oval and elongated etc. The cell wall is usually thin when it is composed of cellulose only. At later stage lignin may deposit and as a result cell wall becomes thick. Pits frequently occur on cell walls. It is simple when occurs between parenchyma cells. It may be simple, bordered or half bordered when occurs between parenchyma and tracheary elements (tracheids and tracheae). Xylem parenchyma possesses living protoplast and contains starch, fat, crystals and tannins, and sometimes chlorophyll also. Xylem parenchyma is mainly concerned with storage of starch, fat and ergastic substances etc. Transportation of minerals, solutes and water etc. occur through it. It gives mechanical support when turgid. The thick-walled parenchyma gives mechanical strength to the plant. 4 9/4/2020 ii. Xylem Fibre: Fibre that occurs as element of xylem is called xylem fibre. It is also referred to as xylary fibre and wood fibre. Xylary fibres are elongated cells the length of which is many times longer than breadth. The two ends of a fibre are tapering to a wedge shape. The cell wall is usually thick. Due to lignin deposition the lumen of fibre becomes narrow. ii. Xylem Fibre: Pits are present on walls and they may be simple and bordered. Fibres may be septate. Usually it is regarded that fibres lack living contents at maturity, but there are reports that wood fibres may retain living protoplasts as long as twenty years, e.g. Tamarix aphylla. Fibres may occur in primary-and secondary xylem, but proportionately their occurrences are much less in primary xylem. In primary xylem fibre originates from procambium. In secondary xylem fibres originate from fusiform initials of cambium. 5 9/4/2020 Three types of xylary fibres 1. Libriform fibre: These fibres are characterized in having elongated cell with thick cell wall, small number of simple pits on the wall and very narrow cell lumen in comparison to tracheids in which they are associated in the same plant. Bordered pit rarely occurs. The inner pit aperture usually is slit like and pit canal is more elongated than that of tracheids. The inner apertures of the pit-pairs in libriform fibre are crossed with each other. Libriform fibre (liber = phloem) simulates phloem fibre, hence, the name libriform. 2. Fibre-tracheid: This fibre has the characteristics that are intermediate between tracheids and libriform fibres. In contrast to tracheids fibre-tracheid is much elongated; the cell wall is thicker with reduced size of bordered pits. In comparison to libriform fibre fibre- tracheid is shorter in length and the cell wall is thinner with bordered pits. The inner apertures of a pit pair in fibre-tracheids are crossed with each other. The inner apertures are usually slit like. 3. Gelatinous or mucilaginous fibre: This fibre is either libriform fibre or fibre-tracheid where the secondary wall lacks lignin or contains it in very small amount. The secondary wall has a-cellulose in its innermost layer termed G-layer. As a result the wall becomes highly hygroscopic. Gelatinous fibres are characteristic of the tension wood of angiosperm. iii. Tracheids: Tracheid is long, single-celled, non-living water conducting element of xylem with hard, thick (due to lignin deposition) and pitted wall, and the two ends of cell are chisel-like, oblique, imperforate and obtuse or tapering. Tracheids occur in all groups of vascular plants. It is present exclusively in the xylem of pteridophytes and gymnosperms. Primitive angiosperms like Trochodendron, Tetracentron and Drimys etc. also have it. It occurs in primary— and secondary xylem. In primary xylem it originates from procambium whereas in secondary xylem it develops from cambium. Tracheids originate from a single cell. 6 9/4/2020 iii. Tracheids: Tracheid occurs parallel to long axis of an organ where it lies. It overlaps each other and communicates with neighbours by means of pits. Pits are present on lateral and oblique end walls. In xylem the tracheids are situated one above the other and the end walls are in contact with that of others. Water diffuses through the pits. Pits may be simple, bordered or half bordered. Bordered pit is observed in the pit pairs present between tracheids. The pit pair that occurs between tracheids and parenchyma exhibits simple pit on the parenchyma-cell wall and bordered pit on tracheid-cell wall. In ferns the bordered pit is transversely elongated termed scalariform pitting. iii. Tracheids: Tracheids are angular in cross-sectional view. The cell wall of tracheids is thick due to the deposition of lignin. Lignin does not deposit uniformly and as a result different types of pit, annular and helical sculpturing are formed. Annular and spiral thickening are observed in protoxylem. Metaxylem exhibits bordered pit and scalariform pitting. The function of tracheids is conduction of water and minerals in solution. It gives mechanical support to the organ where it lies. There is report that tracheids store water. 7 9/4/2020 iv. Vessel: Vessels (also termed tracheae; sing, trachea) are long, non-living thick walled (due to lignin deposition) elements of xylem and composed of vertical rows of single-cell units the end walls of which are perforated thus forming a continuous water-conducting tube. Vessels are exclusively present in angiosperm. They also occur in gymnosperm, e.g. Ephedra, Welivitschia and Gnetum. In pteridophyta vessels are present in Selaginella, Equisetum and in the following four ferns: Actiniopteris, Pteridium, Regnellidium, and Marsilea. The occurrence of vessel in pteridophyte and gymnosperm is regarded as anomalous. In angiosperm, vessels occur both in primary — and secondary xylem and respectfully originate from procambium and cambium. iv. Vessel: Each vessel unit is long and cylindrical in shape and lack living protoplast. Sometimes the length of a vessel unit may be shorter than breadth when it appears as drum shaped. The cell wall is thick due to deposition of lignin. Lignin does not deposit uniformly and as a result the following types of pitting are formed on the lateral walls: scalariform pitting, opposite pitting and alternate pitting. The two ends of a vessel unit are perforated. Several perforate-units are aggregated longitudinally to form a chain of cells. The chain of cells forms a tube-like system and usually referred to as trachea or vessel. 8 9/4/2020 iv. Vessel: The unit cells that make up the tube-like system are referred to as vessel members, vessel elements or vessel units. Vessel member that terminates in the tube-like system has tracheid- like terminating end, i.e. the terminating end is not perforated. Apart from terminal position perforations may be sub-terminal or lateral. Part of a vessel member bearing perforation is known as perforation plate. A perforation plate may consist of a single or more than one perforation and accordingly the following perforation plates are noted. 9

Xylem and Phloem PDF

Document Details

Tags

Related

Summary

Full Transcript

Upgrade to continue