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- Most leaves have a broad, flat part called a blade. Usually, a stalk called a petiole attaches the blade to the plant’s stem. A leaf that has only one blade is called a simple leaf. A compound leaf has two or more blades attached to the petiole.
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Leaves that do not have a petiole and are directly attached to the plant stem are called sessile (apetiolate) leaves (Figure \(\PageIndex{4}\)). In a special type of sessile leaves called perfoliate leaves, the stem passes through the center of the blade (Figure \(\PageIndex{4}\)).
- Overview
- Leaf function
- Leaf morphology
- Leaf modifications
- Senescence
leaf, in botany, any usually flattened green outgrowth from the stem of a vascular plant. As the primary sites of photosynthesis, leaves manufacture food for plants, which in turn ultimately nourish and sustain all land animals. Botanically, leaves are an integral part of the stem system. They are attached by a continuous vascular system to the res...
The main function of a leaf is to produce food for the plant by photosynthesis. Chlorophyll, the substance that gives plants their characteristic green colour, absorbs light energy. The internal structure of the leaf is protected by the leaf epidermis, which is continuous with the stem epidermis. The central leaf, or mesophyll, consists of soft-wal...
Typically, a leaf consists of a broad expanded blade (the lamina), attached to the plant stem by a stalklike petiole. In angiosperms leaves commonly have a pair of structures known as stipules, which are located on each side of the leaf base and may resemble scales, spines, glands, or leaflike structures. Leaves are, however, quite diverse in size, shape, and various other characteristics, including the nature of the blade margin and the type of venation (arrangement of veins). When only a single blade is inserted directly on the petiole, the leaf is called simple. The margins of simple leaves may be entire and smooth or they may be lobed in various ways. The coarse teeth of dentate margins project at right angles, while those of serrate margins point toward the leaf apex. Crenulate margins have rounded teeth or scalloped margins. Leaf margins of simple leaves may be lobed in one of two patterns, pinnate or palmate. In pinnately lobed margins the leaf blade (lamina) is indented equally deep along each side of the midrib (as in the white oak, Quercus alba), and in palmately lobed margins the lamina is indented along several major veins (as in the red maple, Acer rubrum). A great variety of base and apex shapes also are found. The leaf may also be reduced to a spine or scale.
Veins, which support the lamina and transport materials to and from the leaf tissues, radiate through the lamina from the petiole. The types of venation are characteristic of different kinds of plants: for example, dicotyledons such as poplars and lettuce have netlike venation and usually free vein endings; monocotyledons like lilies and bamboo have parallel venation and rarely free vein endings.
Whole leaves or parts of leaves are often modified for special functions, such as for climbing and substrate attachment, storage, protection against predation or climatic conditions, or trapping and digesting insect prey. In temperate trees leaves are simply protective bud scales; in the spring when shoot growth is resumed, they often exhibit a complete growth series from bud scales to fully developed leaves.
Spines are also modified leaves. In cacti, spines are wholly transformed leaves that protect the plant from herbivores, radiate heat from the stem during the day, and collect and drip condensed water vapour during the cooler night. In the many species of the spurge family (Euphorbiaceae), the stipules are modified into paired stipular spines and the blade develops fully. In ocotillo (Fouquieria splendens), the blade falls off and the petiole remains as a spine.
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Many desert plants, such as Lithops and aloe, develop succulent leaves for water storage. The most common form of storage leaves are the succulent leaf bases of underground bulbs (e.g., tulip and Crocus) that serve as either water- or food-storage organs or both. Many nonparasitic plants that grow on the surfaces of other plants (epiphytes), such as some of the bromeliads, absorb water through specialized hairs on the surfaces of their leaves. In the water hyacinth (Eichhornia crassipes), swollen petioles keep the plant afloat.
Leaves or leaf parts may be modified to provide support. Tendrils and hooks are the most common of these modifications. In the flame lily (Gloriosa superba), the leaf tip of the blade elongates into a tendril and twines around other plants for support. In the garden pea (Pisum sativum), the terminal leaflet of the compound leaf develops as a tendril. In nasturtium (Tropaeolum majus) and Clematis, the petioles coil around other plants for support. In catbrier (Smilax), the stipules function as tendrils. Many monocotyledons have sheathing leaf bases that are concentrically arranged and form a pseudotrunk, as in banana (Musa). In many epiphytic bromeliads, the pseudotrunk also functions as a water reservoir.
Leaves are essentially short-lived structures. Even when they persist for two or three years, as in coniferous and broad-leaved evergreens, they make little contribution to the plant after the first year. The fall of leaves, whether in the first autumn in most deciduous trees or after several years in evergreens, results from the formation of a weak zone, the abscission layer, at the base of the petiole. Abscission layers may also form when leaves are seriously damaged by insects, disease, or drought. As a result, a zone of cells across the petiole becomes softened until the leaf falls. A healing layer then forms on the stem and closes the wound, leaving the leaf scar, a prominent feature in many winter twigs and an aid in identification.
In perennial plants, leaf fall is usually associated with approaching winter dormancy. In many trees leaf senescence is brought about by declining day length and falling temperature toward the end of the growing season. Chlorophyll production in deciduous plants slows as the days get shorter and cooler, and eventually the pigment is broken down completely. Yellow and orange pigments called carotenoids become more conspicuous, and, in some species, anthocyanin pigments accumulate. Tannins give oak leaves and certain other plants their dull brown colour. These changes in leaf pigments are responsible for the autumn colours of leaves. There are some indications that day length may control leaf senescence in deciduous trees through its effect on hormone metabolism; both gibberellins and auxins have been shown to retard leaf fall and to preserve the greenness of leaves under the short-day conditions of autumn.
- The Editors of Encyclopaedia Britannica
Jul 12, 2023 · Imparipinnate leaves are laid out in pairs along the midrib but only have a single leaf at the very tip. Paripinnate leaves are laid in pairs along the midvein, and at the end of the vein, there is one final pair.
Jul 27, 2022 · Some leaves have no petiole at all, and are termed sessile. In contrast to the blade-petiole structure, grasses have a sheath-type structure in which the blade attaches to an envelope of leaf tissue that wraps around the shoot of the plant and then attaches to a lower node on the stem.
Oct 31, 2023 · Each leaf typically has a leaf blade ( lamina ), stipules, a midrib, and a margin. Some leaves have a petiole, which attaches the leaf to the stem; leaves that do not have petioles are directly attached to the plant stem and are called sessile leaves.
Dec 21, 2018 · Most leaves have two main parts: (1) the blade and (2) the petiole, or leafstalk. The leaves of some kinds of plants also have a third part, called the stipules. The Blade, or lamina, is the broad, flat part of the leaf. Photosynthesis occurs in the blade, which has many green food-making cells.
A leaf that has only one blade on its petiole is called a simple leaf. A leaf that has multiple blades is called a compound leaf. Two common types of compound leaves are the palmately compound leaf and the pinnately compound leaf. Leaves are arranged along a stem in one of four major ways.
