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supporting structure of a plant, serving also to conduct and to store food materials. The stems of herbaceous and of woody plants differ: those of herbaceous plants are usually green and pliant and are covered by a thin epidermis instead of by the bark of woody plants. There is relatively more pith in herbaceous stems, and the cambiumcambium
, thin layer of generative tissue lying between the bark and the wood of a stem, most active in woody plants. The cambium produces new layers of phloem on the outside and of xylem (wood) on the inside, thus increasing the diameter of the stem.
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, which increases the diameter of woody stems, is usually almost inactive; it is therefore characteristic of herbaceous stems that, although they increase in height, their increase in diameter is small. Most herbaceous plants are annuals; some have specialized underground stems (see bulbbulb,
thickened, fleshy plant bud, usually formed under the surface of the soil, which carries the plant over from one blooming season to another. It may have many fleshy layers (as in the onion and hyacinth) or thin dry scales (as in some lilies)—both of which are highly
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, cormcorm,
short, thickened underground stem, usually covered with papery leaves. A corm grows vertically, producing buds at the upper nodes and roots from the lower surface. Corms serve as organs of food storage and in some plants (e.g.
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, rhizomerhizome
or rootstock,
fleshy, creeping underground stem by means of which certain plants propagate themselves. Buds that form at the joints produce new shoots.
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, and tubertuber,
enlarged tip of a rhizome (underground stem) that stores food. Although much modified in structure, the tuber contains all the usual stem parts—bark, wood, pith, nodes, and internodes.
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) that store food and enable the plant to survive unfavorable growing conditions. Aerial stems may be specialized as tendrils, thorns, or runners (stolons); another specialization is the fleshy, moisture-retaining stem of many arid-land plants (such as most cacti and other succulents). Aerial stems are usually erect; however, in the climbing plants they require support and in others (e.g., melons) they are prostrate. The vascular system in the stem consists chiefly of xylem (upward-conducting) and phloem (downward-conducting) tissue, usually in vascular bundles arranged concentrically on either side of the cambium—the xylem (woodwood,
botanically, the xylem tissue that forms the bulk of the stem of a woody plant. Xylem conducts sap upward from the roots to the leaves, stores food in the form of complex carbohydrates, and provides support; it is made up of various types of cells specialized for each of
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) inside, the phloem outside. In monocotyledonous plants, which generally lack cambium, the bundles are scattered throughout the stem tissue. The sap ducts are formed of elongated cells joined end to end; in the xylem the cell ends dissolve away completely to form continuous tubes and in the phloem they develop perforations and are called sieve plates. Herbaceous stems are marked externally by leaf and bud nodes; woody stems also bear lenticels (pores for transpiration), scars where leaves, twigs, and fruits have dropped off, and bud scars. The annual extension growth of a woody stem develops from a terminal bud usually protected by bud scales or stipules; when the scales fall away, a characteristic bud scar remains. The sapsap,
fluid in plants consisting of water and dissolved substances. Cell sap refers to this fluid present in the large vacuole, or cell cavity, that occupies most of the central portion of mature plant cells.
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 of certain stems contain gums, latexes, and resins used commercially; many are the source of wood of great economic importance.


The organ of vascular plants that usually develops branches and bears leaves and flowers. On woody stems a branch that is the current season's growth from a bud is called a twig. The stems of some species produce adventitious roots. See Root (botany)

General characteristics

While most stems are erect, aerial structures, some remain underground, others creep over or lie prostrate on the surface of the ground, and still others are so short and inconspicuous that the plants are said to be stemless, or acaulescent. When stems lie flattened immediately above but not on the ground, with tips curved upward, they are said to be decumbent, as in juniper. If stems lie flat on the ground but do not root at the nodes (joints), the stem is called procumbent or prostrate, as in purslane. If a stem creeps along the ground, rooting at the nodes, it is said to be repent or creeping, as in ground ivy.

Most stems are cylindrical and tapering, appearing circular in cross section; others may be quadrangular or triangular.

Herbaceous stems (annuals and herbaceous perennials) die to the ground after blooming or at the end of the growing season. They usually contain little woody tissue. Woody stems (perennials) have considerable woody supporting tissue and live from year to year. A woody plant with no main stem or trunk, but usually with several stems developed from a common base at or near the ground, is known as a shrub.

External features

A shoot or branch usually consists of a stem, or axis, and leafy appendages. Stems have several distinguishing features. They arise either from the epicotyl of the embryo in a seed or from buds. The stem bears both leaves and buds at nodes, which are separated by leafless regions or internodes, and sometimes roots and flowers (see illustration).

Winter woody twig (horse chestnut) showing apical dominanceenlarge picture
Winter woody twig (horse chestnut) showing apical dominance

The nodes are the regions of the primary stem where leaves and buds arise. The number of leaves at a node is usually specific for each plant species. In deciduous plants which are leafless during winter, the place of former attachment of a leaf is marked by the leaf scar. The scar is formed in part by the abscission zone formed at the base of the leaf petiole. The stem regions between nodes are called internodes. Internode length varies greatly among species, in different parts of the same stem, and under different growing conditions.

Lenticels are small, slightly raised or ridged regions of the stem surface that are composed of loosely arranged masses of cells in the bark. Their intercellular spaces are continuous with those in the interior of the stem, therefore permitting gas exchange similar to the stomata that are present before bark initiation.

There are three major types of stem branching: dichoto-mous, monopodial, and sympodial. Dichotomy occurs by a division of the apical meristem to form two new axes. If the terminal bud of an axis continues to grow and lateral buds grow out as branches, the branching is called monopodial. If the apical bud terminates growth in a flower or dies back and one or more axillary buds grow out, the branching is called sympodial. Often only one bud develops so that what appears to be single axis is in fact composed of a series of lateral branches arranged in linear sequence.

The large and conspicuous stems of trees and shrubs assume a wide variety of distinctive forms. Columnar stems are basically unbranched and form a terminal leaf cluster, as in palms, or lack obvious leaves, as in cacti. Branching stems have been classified either as excurrent, when there is a central trunk and a conical leaf crown, as in firs and other conifers, or as decur-rent (or deliquescent), when the trunk quickly divides up into many separate axes so that the crown lacks a central trunk, as in elm. See Tree

Internal features

The stem is composed of the three fundamental tissue systems that are found also in all other plant organs: the dermal (skin) system, consisting of epidermis in young stems and peridem in older stems of many species; the vascular (conducting) system, consisting of xylem (water conduction) and phloem (food conduction); and the fundamental or ground tissue system, consisting of parenchyma and sclerenchyma tissues in which the vascular tissues are embedded. The arrangement of the vascular tissues varies in stems of different groups of plants, but frequently these tissues form a hollow cylinder enclosing a region of ground tissue called pith and separated from the dermal tissue by another region of ground tissue called cortex. See Cortex (plant), Epidermis (plant), Phloem, Pith, Sclerenchyma, Xylem

Part of the growth of the stem results from the activity of the apical meristem located at the tip of the shoot. The derivatives of this meristem are the primary tissues; epidermis, primary vascular tissues, and the ground tissues of the cortex and pith. In many species, especially those having woody stems, secondary tissues are added to the primary. These tissues are derived from the lateral meristems, oriented parallel with the sides of the stem: cork cambium (phellogen), which gives rise to the secondary protective tissue periderm, which consists of phellum (cork), phellogen (cork cambium), and phelloderm (secondary cortex) and which replaces the epidermis; and vascular cambium, which is inserted between the primary xylem and phloem and forms secondary xylem (wood) and phloem. See Apical meristem, Lateral meristem

The vascular tissues and the closely associated ground tissues—pericycle (on the outer boundary of vascular region), interfascicular regions (medullary or pith rays), and frequently also the pith—may be treated as a unit called the stele. The variations in the arrangement of the vascular tissues serve as a basis for distinguishing the stelar types. The word stele means column and thus characterizes the system of vascular and associated ground tissues as a column. This column is enclosed within the cortex, which is not part of the stele.



in linguistics, the part of a word that bears the lexical meaning of that word. A stem does not include inflectional affixes such as endings. It may consist of one root, such as dom (“house”); of a root with one or more derivational suffixes, such as dom-ik (“house” [diminutive]), kras-n-yi (“red”; -yi is an ending), and kras-n-en’k-ii (“red” [affectionate diminutive]; -ii is an ending); of a root and a prefix, as in pri-gorod (“suburb”); or of a root, a prefix, and a suffix, such as s-del-a-t’(“to do” [perfective]; -t’ is the infinitive suffix indicating the function of the verb in its clause and is not part of the stem). In some languages the stem may also include infixes.



in higher plants, the axial organ that together with leaves constitutes a shoot. Stems transport water and other substances from the roots to the leaves. The branching of the stem and the ordered arrangement of leaves, flowers, and fruits increase the assimilative surface of a plant. Stems often participate in the storage of water and reserve nutrients and in photosynthesis. The stem regions from which lateral organs, including branches and leaves, depart are called nodes, and the areas between nodes are called internodes.

Stems may be herbaceous or woody. The main stem of woody plants is called a trunk. Stems are generally cylindrical in shape, although they may also be triangular (in sedges), quadrangular (in mints), polyhedral, or flattened (in cacti). Their habit may be erect, prostrate, creeping, or climbing. Some are aerial structures, whereas others remain underground.

Stems range in length from 1–1.5 mm (in freshwater duckweeds) to 200–300 m (in tropical rattan palms). The diameter may range from fractions of a millimeter (in mosses) to 10–11 m (in baobabs and sequoias). A stem increases in length as a result of the activity of the shoot’s apical meristem, which constitutes the growing point. Besides apical growth, grasses and other plants are characterized by intercalary growth at the bases of the internodes.

A stem is composed of an epidermis externally and a central cylinder, or stele, internally. Between the epidermis and stele is the primary cortex, whose internal parenchymatous layer is converted into the endodermis. The primary cortex borders on the peripheral part of the stele—the pericycle—which is represented by parenchymatous or mechanical tissue. The pericycle is absent in some plants.

The stele consists mostly of vascular tissues; the phloem is outside the xylem. In the center of the stem of leafy mosses there is a vascular bundle, the elements of which are only externally similar to the conducting elements of the phloem and xylem. In vascular plants the development of the procambium precedes the formation of vascular tissues. In club mosses there is no pith, and the xylem is divided into ribbonlike strands surrounded by phloem. In horsetails closed collateral bundles, with carinal cavities instead of xylem, are arranged around a central hollow cavity. In ferns vascular tissues form a ring around the pith.

The stems of seed plants have fascicular and continuous vascular systems divided by parenchymatous medullary rays that extend outward. The external part of the procambium becomes differentiated into the primary phloem, on whose periphery mechanical fibers often develop; the internal part of the procambium becomes differentiated into the primary xylem. A layer of cells forming the cambium is found between the vascular tissues. The cambium deposits elements of the secondary phloem externally and elements of the secondary xylem internally, resulting in the thickening of the stele.

Unlike the nodal part of the stem, the central part of the inter-nodes lacks leaf and branch gaps (lacunae). Trilacunar nodes are common in dicotyledons, for example, in apples. Less common are monolacunar and multilacunar nodes; the former are typical of lilacs, and the latter of elders. The most active secondary thickening is characteristic of perennial woody plants, in whose secondary xylem and, sometimes, phloem annual, or growth, rings may be observed. With age, as a result of the development of the periderm, the primary cortex and, later, the outer part of the phloem atrophy and form the cortex.

Most monocotyledons have the type of closed collateral bundles characteristic of palms; as a result the bundles are arranged diffusely in transverse sections. There is a tendency toward a circular arrangement of bundles only in a few grasses with culms, in spiderworts, and in yams. Secondary thickening is characteristic only of arborescent Liliaceae, for example, aloes and dracaena palms; the meristem, which is formed in the pericycle or primary cortex, gives rise to concentric bundles and interfascicular, often lignifying, parenchyma.


Serebriakov, I. G. Morfologiia vegetativnykh organov vysshikh rastenii. Moscow, 1952.
Meier, K. I. Morfogeniia vysshikh rastenii. Moscow, 1958.
Eames, A. Morfologiia tsvetkovykh rastenii. Moscow, 1964. (Translated from English.)
Botanika, vol. 1. Edited by L. V. Kudriashov. Moscow, 1966.
Esau, K. Anatomiia rastenii. Moscow, 1969. (Translated from English.)



The organ of vascular plants that usually develops branches and bears leaves and flowers.
The heavy iron rod acting as the connecting link between the bit and the balance of the string of tools on a churn rod.
To insert packing or tamping material in a shothole.
To make headway against an obstacle, as a current.
(naval architecture)
The foremost part of a ship's hull.




web, 1
1. The portion of a truss or girder between the chords or flanges, whose principal function is to resist shear on the span.
2. A core divider in a hollow masonry unit.


1. the main axis of a plant, which bears the leaves, axillary buds, and flowers and contains a hollow cylinder of vascular tissue
2. any similar subsidiary structure in such plants that bears a flower, fruit, or leaf
3. a corresponding structure in algae and fungi
4. a banana stalk with several bunches attached
5. a round pin in some locks on which a socket in the end of a key fits and about which it rotates
6. any projecting feature of a component: a shank or cylindrical pin or rod, such as the pin that carries the winding knob on a watch
7. Electronics the tubular glass section projecting from the base of a light bulb or electronic valve, on which the filament or electrodes are mounted
a. the main upright timber or structure at the bow of a vessel
b. the very forward end of a vessel (esp in the phrase from stem to stern)


Skiing a technique in which the heel of one ski or both skis is forced outwards from the direction of movement in order to slow down or turn


(Science, Technology, Engineering, Mathematics) An umbrella term used by the U.S. government for the major categories of highly skilled occupations. See high tech.
References in classic literature ?
After making her fast, they swarmed the sides and searched the vessel from stem to stern.
Later in the day I got together the whole crew, and told them, as they evidently thought there was some one in the ship, we would search from stem to stern.
No drooping stem or withered leaf tells of any evil thought within their fragrant bosoms, and thus from the fairest of their race have they gathered this sweet dew, as a token of their gratitude to one whose tenderness and care have kept them pure and happy; and this, the loveliest of their sisters, have I brought to place among the Fairy flowers that never pass away.
The air seemed quivering with rays of heat, which might be seen playing along the parched stems of the trees.
The bowl was of a species of red stone resembling porphyry; the stem was six feet in length, decorated with tufts of horse-hair dyed red.
Its stem will stretch to the length of three or four feet - thus preserving its head above water in the swellings of the river.
Instinctively he took refuge behind a thick oak stem, and set himself down, to watch what might occur.
So are there states, great in territory, and yet not apt to enlarge or command; and some that have but a small dimension of stem, and yet apt to be the foundations of great monarchies.
As I watched them from behind the stem of a huge tree, one of the creatures moved slowly in my direction, engaged in the occupation that seemed to be the principal business of each of them, and which consisted in running their oddly shaped hands over the surface of the sward, for what purpose I could not determine.
What a weird sensation it is to feel the stem of a ship sinking swiftly from under you and see the bow climbing high away among the clouds
For a moment the two men clung panting to the great branch, while Tarzan squatted with his back to the stem of the tree, watching them with mingled curiosity and amusement.
Swiftly it enveloped her in its embrace, covering her completely in its thick folds, and then it swayed back upon its stem.