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The Elements of Botany Part 3

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64. On the other hand, the main stem of Firs and Spruces, unless destroyed by some injury, is carried on in a direct line throughout the whole growth of the tree, by the development year after year of a terminal bud: this forms a single, uninterrupted shaft,--an _excurrent_ trunk, which cannot be confounded with the branches that proceed from it. Of such _spiry_ or _spire-shaped_ trees, the Firs or Spruces are characteristic and familiar examples. There are all gradations between the two modes.

Section V. ROOTS.

65. It is a property of stems to produce roots. Stems do not spring from roots in ordinary cases, as is generally thought, but roots from stems.

When perennial herbs arise from the ground, as they do at spring-time, they rise from subterranean stems.

66. =The Primary Root= is a downward growth from the root-end of the caulicle, that is, of the initial stem of the embryo (Fig. 5-7, 81). If it goes on to grow it makes a _main_ or _tap-root_, as in Fig. 37, etc.



Some plants keep this main root throughout their whole life, and send off only small side branches; as in the Carrot and Radish: and in various trees, like the Oak, it takes the lead of the side-branches for several years, unless accidentally injured, as a strong tap-root. But commonly the main root divides off very soon, and is lost in the branches. _Multiple primary roots_ now and then occur, as in the seedling of Pumpkin (Fig. 27), where a cl.u.s.ter is formed even at the first, from the root-end of the caulicle.

[Ill.u.s.tration: Fig. 81. Seedling Maple, of the natural size; the root well supplied with root hairs, here large enough to be seen by the naked eye. 82. Lower end of this root, magnified, the root seen just as root-hairs are beginning to form a little behind the tip.]

67. =Secondary Roots= are those which arise from other parts of the stem. Any part of the stem may produce them, but they most readily come from the nodes. As a general rule they naturally spring, or may be made to spring, from almost any young stem, when placed in favorable circ.u.mstances,--that is, when placed in the soil, or otherwise supplied with moisture and screened from the light. For the special tendency of the root is to avoid the light, seek moisture, and therefore to bury itself in the soil. _Propagation by division_, which is so common and so very important in cultivation, depends upon the proclivity of stems to strike root. Stems or branches which remain under ground give out roots as freely as roots themselves give off branches. Stems which creep on the ground most commonly root at the joints; so will most branches when bent to the ground, as in propagation by _layering_; and propagation by _cuttings_ equally depends upon the tendency of the cut end of a shoot to produce roots. Thus, a piece of a plant which has stem and leaves, either developed or in the bud, may be made to produce roots, and so become an independent plant.

68. =Contrast between Stem and Root.= Stems are ascending axes; roots are descending axes. Stems grow by the successive development of internodes (13), one after another, each leaf-bearing at its summit (or node); so that it is of the essential nature of a stem to bear leaves.

Roots bear no leaves, are not distinguishable into nodes and internodes, but grow on continuously from the lower end. They commonly branch freely, but not from any fixed points nor in definite order.

69. Although roots generally do not give rise to stems, and therefore do not propagate the plant, exceptions are not uncommon. For as stems may produce advent.i.tious buds, so also may roots. The roots of the Sweet Potato among herbs, and of the Osage Orange among trees freely produce advent.i.tious buds, developing into leafy shoots; and so these plants are propagated by _root-cuttings_. But most growths of subterranean origin which pa.s.s for roots are forms of stems, the common Potato for example.

70. Roots of ordinary kinds and uses may be roughly cla.s.sed into _fibrous_ and _fleshy_.

71. =Fibrous Roots=, such as those of Indian Corn (Fig. 70), of most annuals, and of many perennials, serve only for absorption: these are slender or thread-like. Fine roots of this kind, and the fine branches which most roots send out are called ROOTLETS.

72. The whole surface of a root absorbs moisture from the soil while fresh and new; and the newer roots and rootlets are, the more freely do they imbibe. Accordingly, as long as the plant grows above ground, and expands fresh foliage, from which moisture largely escapes into the air, so long it continues to extend and multiply its roots in the soil beneath, renewing and increasing the fresh surface for absorbing moisture, in proportion to the demand from above. And when growth ceases above ground, and the leaves die and fall, or no longer act, then the roots generally stop growing, and their soft and tender tips harden.

From this period, therefore, until growth begins anew the next spring, is the best time for transplanting; especially for trees and shrubs.

73. The absorbing surface of young roots is much increased by the formation, near their tips, of ROOT-HAIRS (Fig. 81, 82), which are delicate tubular outgrowths from the surface, through the delicate walls of which moisture is promptly imbibed.

[Ill.u.s.tration: Fig. 83-85. Forms of tap-root.]

74. =Fleshy Roots= are those in which the root becomes a storehouse of nourishment. Typical roots of this kind are those of such biennials as the turnip and carrot; in which the food created in the first season's vegetation is acc.u.mulated, to be expended the next season in a vigorous growth and a rapid development of flowers, fruit, and seed. By the time the seed is matured the exhausted root dies, and with it the whole plant.

75. Fleshy roots may be single or multiple. The single root of the commoner biennials is the primary root, or tap-root, which begins to thicken in the seedling. Names are given to its shapes, such as

_Conical_, when it thickens most at the crown, or where it joins the stem, and tapers regularly downwards to a point, as in the Parsnip and Carrot (Fig. 84);

_Turnip-shaped_ or _napiform_, when greatly thickened above, but abruptly becoming slender below; as the Turnip (Fig. 83); and

_Spindle-shaped_, or _Fusiform_, when thickest in the middle and tapering to both ends; as the common Radish (Fig. 85).

76. These examples are of primary roots. It will be seen that turnips, carrots, and the like, are not pure root throughout; for the caulicle, from the lower end of which the root grew, partakes of the thickening, perhaps also some joints of stem above: so the bud-bearing and growing top is stem.

[Ill.u.s.tration: Fig. 86. Sweet-Potato plant forming thickened roots. Some in the middle are just beginning to thicken; one at the left has grown more; one at the right is still larger.]

[Ill.u.s.tration: Fig. 87. Fascicled fusiform roots of a Dahlia: _a_, _a_, buds on base of stem.]

77. A fine example of secondary roots (67), some of which remain fibrous for absorption, while a few thicken and store up food for the next season's growth, is furnished by the Sweet Potato (Fig. 86). As stated above, these are used for propagation by cuttings; for any part will produce advent.i.tious buds and shoots. The Dahlia produces _fascicled_ (i. e. cl.u.s.tered) fusiform roots of the same kind, at the base of the stem (Fig. 87): but these, like most roots, do not produce advent.i.tious buds. The buds by which Dahlias are propagated belong to the surviving base of the stem above.

78. =Anomalous Roots=, as they may be called, are those which subserve other uses than absorption, food-storing, and fixing the plant to the soil.

_Aerial Roots_, i. e. those that strike from stems in the open air, are common in moist and warm climates, as in the Mangrove which reaches the coast of Florida, the Banyan, and, less strikingly, in some herbaceous plants, such as Sugar Cane, and even in Indian Corn. Such roots reach the ground at length, or tend to do so.

_Aerial Rootlets_ are abundantly produced by many climbing plants, such as the Ivy, Poison Ivy, Trumpet Creeper, etc., springing from the side of stems, which they fasten to trunks of trees, walls, or other supports. These are used by the plant for climbing.

[Ill.u.s.tration: Fig. 88. Epiphytes of Florida and Georgia, viz., Epidendrum conopseum, a small Orchid, and Tillandsia usneoides, the so-called Long Moss or Black Moss, which is no moss, but a flowering plant, also _T. recurvata_; on a bough of Live Oak.]

79. =Epiphytes, or Air-Plants= (Fig. 88), are called by the former name because commonly growing upon the trunks or limbs of other plants; by the latter because, having no connection with the soil, they must derive their sustenance from the air only. They have aerial roots, which do not reach the ground, but are used to fix the plant to the surface upon which the plant grows: they also take a part in absorbing moisture from the air.

80. =Parasitic Plants=, of which there are various kinds, strike their roots, or what answer to roots, into the tissue of foster plants, or form attachments with their surface, so as to prey upon their juices. Of this sort is the Mistletoe, the seed of which germinates on the bough where it falls or is left by birds; and the forming root penetrates the bark and engrafts itself into the wood, to which it becomes united as firmly as a natural branch to its parent stem; and indeed the parasite lives just as if it were a branch of the tree it grows and feeds on. A most common parasitic herb is the Dodder; which abounds in low grounds in summer, and coils its long and slender, leafless, yellowish stems--resembling tangled threads of yarn--round and round the stalks of other plants; wherever they touch piercing the bark with minute and very short rootlets in the form of suckers, which draw out the nouris.h.i.+ng juices of the plants laid hold of. Other parasitic plants, like the Beech-drops and Pine-sap, fasten their roots under ground upon the roots of neighboring plants, and rob them of their juices.

81. Some plants are partly parasitic; while most of their roots act in the ordinary way, others make suckers at their tips which grow fast to the roots of other plants and rob them of nourishment. Some of our species of Gerardia do this (Fig. 89).

[Ill.u.s.tration: Fig. 89. Roots of Yellow Gerardia, some attached to and feeding on the root of a Blueberry-bush.]

82. There are phanerogamous plants, like Monotropa or Indian Pipe, the roots of which feed mainly on decaying vegetable matter in the soil.

These are SAPROPHYTES, and they imitate Mushrooms and other Fungi in their mode of life.

83. =Duration of Roots, etc.= Roots are said to be either _annual_, _biennial_, or _perennial_. As respects the first and second, these terms may be applied either to the root or to the plant.

84. =Annuals=, as the name denotes, live for only one year, generally for only a part of the year. They are of course herbs; they spring from the seed, blossom, mature their fruit and seed, and then die, root and all. Annuals of our temperate climates with severe winters start from the seed in spring, and perish at or before autumn. Where the winter is a moist and growing season and the summer is dry, _winter annuals_ prevail; their seeds germinate under autumn or winter rains, grow more or less during winter, blossom, fructify, and perish in the following spring or summer. Annuals are fibrous-rooted.

85. =Biennials=, of which the Turnip, Beet, and Carrot are familiar examples, grow the first season without blossoming, usually thicken their roots, laying up in them a stock of nourishment, are quiescent during the winter, but shoot vigorously, blossom, and seed the next spring or summer, mainly at the expense of the food stored up, and then die completely. Annuals and biennials flower only once; hence they have been called _Monocarpic_ (that is, once-fruiting) plants.

86. =Perennials= live and blossom year after year. A perennial herb, in a temperate or cooler climate, usually dies down to the ground at the end of the season's growth. But subterranean portions of stem, charged with buds, survive to renew the development. Shrubs and trees are of course perennial; even the stems and branches above ground live on and grow year after year.

87. There are all gradations between annuals and biennials, and between these and perennials, as also between herbs and shrubs; and the distinction between shrubs and trees is quite arbitrary. There are perennial herbs and even shrubs of warm climates which are annuals when raised in a climate which has a winter,--being destroyed by frost. The Castor-oil plant is an example. There are perennial herbs of which only small portions survive, as off-shoots, or, in the Potato, as tubers, etc.

Section VI. STEMS.

88. =The Stem= is the axis of the plant, the part which bears all the other organs. Branches are secondary stems, that is, stems growing out of stems. The stem at the very beginning produces roots, in most plants a single root from the base of the embryo-stem, or caulicle. As this root becomes a _descending axis_, so the stem, which grows in the opposite direction is called the _ascending axis_. Rising out of the soil, the stem bears leaves; and leaf-bearing is the particular characteristic of the stem. But there are forms of stems that remain underground, or make a part of their growth there. These do not bear leaves, in the common sense; yet they bear rudiments of leaves, or what answers to leaves, although not in the form of foliage. The so-called stemless or _acaulescent_ plants are those which bear no obvious stem (_caulis_) above ground, but only flower-stalks, and the like.

89. =Stems above ground=, through differences in duration, texture, and size, form herbs, shrubs, trees, etc., or in other terms are

_Herbaceous_, dying down to the ground every year, or after blossoming.

_Suffrutescent_, slightly woody below, there surviving from year to year.

_Suffruticose_ or _Frutescent_, when low stems are decidedly woody below, but herbaceous above.

_Fruticose_ or _Shrubby_, woody, living from year to year, and of considerable size,--not, however, more than three or four times the height of a man.

_Arborescent_, when tree-like in appearance or mode of growth, or approaching a tree in size.

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The Elements of Botany Part 3 summary

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