Elements of Structural and Systematic Botany Part 17
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The plant grows abundantly in waste places, and is in flower nearly the year round, sometimes being found in flower in midwinter, after a week or two of warm weather. It is, however, in best condition for study in the spring and early summer. The plant may at once be recognized by the heart-shaped pods and small, white, four-petaled flowers. The plant begins to flower when very small, but continues to grow until it forms a much-branching plant, half a metre or more in height. On pulling up the plant, a large tap-root (Fig. 93, _A_, _r_) is seen, continuous with the main stem above ground. The first root of the seedling plant continues here as the main root of the plant, as was the case with the gymnosperms, but not with the monocotyledons.
From this tap-root other small ones branch off, and these divide repeatedly, forming a complex root system. The main root is very tough and hard, owing to the formation of woody tissue in it. A cross-section slightly magnified (Fig. 93, _M_), shows a round, opaque, white, central area (_x_), the wood, surrounded by a more transparent, irregular ring (_ph._), the phloem or bast; and outside of this is the ground tissue and epidermis.
The lower leaves are crowded into a rosette, and are larger than those higher up, from which they differ also in having a stalk (petiole), while the upper leaves are sessile. The outline of the leaves varies much in different plants and in different parts of the same plant, being sometimes almost entire, sometimes divided into lobes almost to the midrib, and between these extremes all gradations are found. The larger leaves are traversed by a strong midrib projecting strongly on the lower side of the leaf, and from this the smaller veins branch.
The upper leaves have frequently two smaller veins starting from the base of the leaf, and nearly parallel with the midrib (_C_ i). The surface of the leaves is somewhat roughened with hairs, some of which, if slightly magnified, look like little white stars.
Magnifying slightly a thin cross-section of the stem, it shows a central, ground tissue (pith), whose cells are large enough to be seen even when very slightly enlarged. Surrounding this is a ring of fibro-vascular bundles (_L_, _fb._), appearing white and opaque, and connected by a more transparent tissue. Outside of the ring of fibro-vascular bundles is the green ground tissue and epidermis.
Comparing this with the section of the seedling pine stem, a resemblance is at once evident, and this arrangement was also noticed in the stem of the horse-tail.
Branches are given off from the main stem, arising at the point where the leaves join the stem (axils of the leaves), and these may in turn branch. All the branches terminate finally in an elongated inflorescence, and the separate flowers are attached to the main axis of the inflorescence by short stalks. This form of inflorescence is known technically as a "raceme." Each flower is really a short branch from which the floral leaves arise in precisely the same way as the foliage leaves do from the ordinary branches. There are five sets of floral leaves: I. four outer perigone leaves (sepals) (_F_), small, green, pointed leaves traversed by three simple veins, and together forming the calyx; II. four larger, white, inner perigone leaves (petals) (_G_), broad and slightly notched at the end, and tapering to the point of attachment. The petals collectively are known as the "corolla." The veins of the petals fork once; III. and IV. two sets of stamens (_E_), the outer containing two short, and the inner, four longer ones arranged in pairs. Each stamen has a slender filament (_H_, _f_) and a two-lobed anther (_an._). The innermost set consists of two carpels united into a compound pistil. The ovary is oblong, slightly flattened so as to be oval in section, and divided into two chambers. The style is very short and tipped by a round, flattened stigma.
The raceme continues to grow for a long time, forming new flowers at the end, so that all stages of flowers and fruit may often be found in the same inflorescence.
The flowers are probably quite independent of insect aid in pollination, as the stamens are so placed as to almost infallibly shed their pollen upon the stigma. This fact, probably, accounts for the inconspicuous character of the flowers.
After fertilization is effected, and the outer floral leaves fall off, the ovary rapidly enlarges, and becomes heart-shaped and much flattened at right angles to the part.i.tion. When ripe, each half falls away, leaving the seeds attached by delicate stalks (funiculi, sing.
funiculus) to the edges of the membranous part.i.tion. The seeds are small, oval bodies with a s.h.i.+ning, yellow-brown sh.e.l.l, and with a little dent at the end where the stalk is attached. Carefully dividing the seed lengthwise, or crus.h.i.+ng it in water so as to remove the embryo, we find it occupies the whole cavity of the seed, the young stalk (_st._) being bent down against the back of one of the cotyledons (_f_).
[Ill.u.s.tration: FIG. 94.--_A_, cross-section of the stem of the shepherd's-purse, including a fibro-vascular bundle, 150. _ep._ epidermis. _m_, ground tissue. _sh._ bundle sheath. _ph._ phloem.
_xy._ xylem. _tr._ a vessel. _B_, a young root seen in optical section, 150. _r_, root cap. _d_, young epidermis. _pb._ ground.
_pl._ young fibro-vascular bundle. _C_ cross section of a small root, 150. _fb._ fibro-vascular bundle. _D_, epidermis from the lower side of the leaf, 150. _E_, a star-shaped hair from the surface of the leaf, 150. _F_, cross-section of a leaf, 150. _ep._ epidermis.
_m_, ground tissue. _fb._ section of a vein.]
A microscopic examination of a cross-section of the older root shows that the central portion is made up of radiating lines of thick-walled cells (fibres) interspersed with lines of larger, round openings (vessels). There is a ring of small cambium cells around this merging into the phloem, which is composed of irregular cells, with pretty thick, but soft walls. The ground tissue is composed of large, loose cells, which in the older roots are often ruptured and partly dried up. The epidermis is usually indistinguishable in the older roots. To understand the early structure of the roots, the smallest rootlets obtainable should be selected. The smallest are so transparent that the tips may be mounted whole in water, and will show very satisfactorily the arrangement of the young tissues. The tissues do not here arise from a single, apical cell, as we found in the pteridophytes, but from a group of cells (the shaded cells in Fig. 94, _B_). The end of the root, as in the fern, is covered with a root cap (_r_) composed of successive layers of cells cut off from the growing point. The rest of the root shows the same division of the tissues into the primary epidermis (dermatogen) (_d_), young fibro-vascular cylinder (plerome) (_pl._), and young ground tissue (periblem) (_pb._). The structure of the older portions of such a root is not very easy to study, owing to difficulty in making good cross-sections of so small an object. By using a very sharp razor, and holding perfectly straight between pieces of pith, however, satisfactory sections can be made. The cells contain so much starch as to make them almost opaque, and potash should be used to clear them. The fibro-vascular bundle is of the radial type, there being two ma.s.ses of xylem (_xy._) joined in the middle, and separating the two phloem ma.s.ses (_ph._), some of whose cells are rather thicker walled than the others. The bundle sheath is not so plain here as in the fern. The ground tissue is composed of comparatively large cells with thickish, soft walls, that contain much starch. The epidermis usually dies while the root is still young. In the larger roots the early formation of the cambium ring, and the irregular arrangement of the tissues derived from its growth, soon obliterate all traces of the primitive arrangement of the tissues. Making a thin cross-section of the stem, and magnifying strongly, we find bounding the section a single row of epidermal cells (Fig. 94, _A_, _ep._) whose walls, especially the outer ones, are strongly thickened. Within these are several rows of thin-walled ground-tissue cells containing numerous small, round chloroplasts.
The innermost row of these cells (_sh._) are larger and have but little chlorophyll. This row of cells forms a sheath around the ring of fibro-vascular bundles very much as is the case in the horse-tail. The separate bundles are nearly triangular in outline, the point turned inward, and are connected with each other by ma.s.ses of fibrous tissue (_f_), whose thickened walls have a peculiar, silvery l.u.s.tre. Just inside of the bundle sheath there is a row of similar fibres marking the outer limit of the phloem (_ph._). The rest of the phloem is composed of very small cells. The xylem is composed of fibrous cells with yellowish walls and numerous large vessels (_tr._). The central ground tissue (pith) has large, thin-walled cells with numerous intercellular s.p.a.ces, as in the stem of _Erythronium_. Some of these cells contain a few scattered chloroplasts in the very thin, protoplasmic layer lining their walls, but the cells are almost completely filled with colorless cell sap.
A longitudinal section shows that the epidermal cells are much elongated, the cells of the ground tissue less so, and in both the part.i.tion walls are straight. In the fibrous cells, both of the fibro-vascular bundle and those lying between, the end walls are strongly oblique. The tracheary tissue of the xylem is made up of small, spirally-marked vessels, and larger ones with thickened rings or with pits in the walls. The small, spirally-marked vessels are nearest the centre, and are the first to be formed in the young bundle.
The epidermis of the leaves is composed of irregular cells with wavy outlines like those of the ferns. Breathing pores, of the same type as those in the ferns and monocotyledons, are found on both surfaces, but more abundant and more perfectly developed on the lower surface of the leaf. Owing to their small size they are not specially favorable for study. The epidermis is sparingly covered with unicellular hairs, some of which are curiously branched, being irregularly star-shaped. The walls of these cells are very thick, and have little protuberances upon the outer surface (Fig. 93, _E_).
Cross-sections of the leaf may be made between pith as already directed; or, by folding the leaf carefully several times, the whole can be easily sectioned. The structure is essentially as in the adder-tongue, but the epidermal cells appear more irregular, and the fibro-vascular bundles are better developed. They are like those of the stem, but somewhat simpler. The xylem lies on the upper side.
The ground tissue is composed, as in the leaves we have studied, of chlorophyll-bearing, loose cells, rather more compact upon the upper side. (In the majority of dicotyledons the upper surface of the leaves is nearly or quite dest.i.tute of breathing pores, and the cells of the ground tissue below the upper epidermis are closely packed, forming what is called the "palisade-parenchyma" of the leaf.)
[Ill.u.s.tration: FIG. 95.--_A-D_, successive stages in the development of the flower of _Capsella_, 50. _A_, surface view. _B-D_, optical sections. _s_, sepals, _p_, petals. _an._ stamens. _gy._ pistil. _E_, cross-section of the young anther, 180. _sp._ spore mother cells.
_F_, cross-section of full-grown anther. _sp._ pollen spores, 50.
_F'_, four young pollen spores, 300. _F"_, pollen spores germinating upon the stigma, 300. _pt._ pollen tube. _G_, young pistil in optical section, 25. H, cross-section of a somewhat older one. _ov._ ovules. _I-L_, development of the ovule. _sp._ embryo sac (macrospore). _I-K_, 150. _L_, 50. _M_, embryo sac of a full-grown ovule, 150. _Sy._ _Synergidae_. _o_, egg cell. _n_, endosperm nucleus. _ant._ antipodal cells. _N-Q_, development of the embryo, 150. _sus._ suspensor.]
The shepherd's-purse is an admirable plant for the study of the development of the flower which is much the same in other angiosperms. To study this, it is only necessary to teaze out, in a drop of water, the tip of a raceme, and putting on a cover gla.s.s, examine with a power of from fifty to a hundred diameters. In the older stages it is best to treat with potash, which will render the young flowers quite transparent. The young flower (Fig. 95, _A_) is at first a little protuberance composed of perfectly similar small cells filled with dense protoplasm. The first of the floral leaves to appear are the sepals which very early arise as four little buds surrounding the young flower axis (Fig. 95, _A_, _B_). The stamens (_C_, _an._) next appear, being at first entirely similar to the young sepals. The petals do not appear until the other parts of the flower have reached some size, and the first tracheary tissue appears in the fibro-vascular bundle of the flower stalk (_D_). The carpels are more or less united from the first, and form at first a sort of shallow cup with the edges turned in (_D_, _gy._). This cup rapidly elongates, and the cavity enlarges, becoming completely closed at the top where the short style and stigma develop. The ovules arise in two lines on the inner face of each carpel, and the tissue which bears them (placenta) grows out into the cavity of the ovary until the two placentae meet in the middle and form a part.i.tion completely across the ovary (Fig. 95, _H_).
The stamens soon show the differentiation into filament and anther, but the former remains very short until immediately before the flowers are ready to open. The anther develops four sporangia (pollen sacs), the process being very similar to that in such pteridophytes as the club mosses. Each sporangium (Fig. _E_, _F_) contains a central ma.s.s of spore mother cells, and a wall of three layers of cells. The spore mother cells finally separate, and the inner layer of the wall cells becomes absorbed much as we saw in the fern, and the ma.s.s of mother cells thus floats free in the cavity of the sporangium. Each one now divides in precisely the same way as in the ferns and gymnosperms, into four pollen spores. The anther opens as described for _Erythronium_.
By carefully picking to pieces the young ovaries, ovules in all stages of development may be found, and on account of their small size and transparency, show beautifully their structure. Being perfectly transparent, it is only necessary to mount them in water and cover.
The young ovule (_I_, _J_) consists of a central, elongated body (nucellus), having a single layer of cells enclosing a large central cell (the macrospore or embryo sac) (_sp._). The base of the nucellus is surrounded by two circular ridges (i, ii) of which the inner is at first higher than the outer one, but later (_K_, _L_), the latter grows up above it and completely conceals it as well as the nucellus. One side of the ovule grows much faster than the other, so that it is completely bent upon itself, and the opening between the integuments is brought close to the base of the ovule (Fig. 95, _L_). This opening is called the "micropyle," and allows the pollen tube to enter.
The full-grown embryo sac shows the same structure as that already described in _Monotropa_ (page 276), but as the walls of the full-grown ovule are thicker here, its structure is rather difficult to make out. The ripe stigma is covered with little papillae (Fig. 95, _F_) that hold the pollen spores which may be found here sending out the pollen tube. By carefully opening the ovary and slightly crus.h.i.+ng it in a drop of water, the pollen tube may sometimes be seen growing along the stalk of the ovule until it reaches and enters the micropyle.
To study the embryo a series of young fruits should be selected, and the ovules carefully dissected out and mounted in water, to which a little caustic potash has been added. The ovule will be thus rendered transparent, and by pressing gently on the cover gla.s.s with a needle so as to flatten the ovule slightly, there is usually no trouble in seeing the embryo lying in the upper part of the embryo sac, and by pressing more firmly it can often be forced out upon the slide. The potash should now be removed as completely as possible with blotting paper, and pure water run under the cover gla.s.s.
The fertilized egg cell first secretes a membrane, and then divides into a row of cells (_N_) of which the one nearest the micropyle is often much enlarged. The cell at the other end next enlarges and becomes divided by walls at right angles to each other into eight cells. This globular ma.s.s of cells, together with the cell next to it, is the embryo plant, the row of cells to which it is attached taking no further part in the process, and being known as the "suspensor." Later the embryo becomes indented above and forms two lobes (_Q_), which are the beginnings of the cotyledons. The first root and the stem arise from the cells next the suspensor.
CHAPTER XVIII.
CLa.s.sIFICATION OF DICOTYLEDONS.
DIVISION I.--_Choripetalae_.
Nearly all of the dicotyledons may be placed in one of two great divisions distinguished by the character of the petals. In the first group, called _Choripetalae_, the petals are separate, or in some degenerate forms entirely absent. As familiar examples of this group, we may select the b.u.t.tercup, rose, pink, and many others.
The second group (_Sympetalae_ or _Gamopetalae_) comprises those dicotyledons whose flowers have the petals more or less completely united into a tube. The honeysuckles, mints, huckleberry, lilac, etc., are familiar representatives of the _Sympetalae_, which includes the highest of all plants.
[Ill.u.s.tration: FIG. 96.--Iuliflorae. _A_, male; _B_, female inflorescence of a willow, _Salix_ (_Amentaceae_), . _C_, a single male flower, 2. _D_, a female flower, 2. _E_, cross-section of the ovary, 8. _F_, an opening fruit. _G_, single seed with its hairy appendage, 2.]
The _Choripetalae_ may be divided into six groups, including twenty-two orders. The first group is called _Iuliflorae_, and contains numerous, familiar plants, mostly trees. In these plants, the flowers are small and inconspicuous, and usually crowded into dense catkins, as in willows (Fig. 96) and poplars, or in spikes or heads, as in the lizard-tail (Fig. 97, _G_), or hop (Fig. 97, _I_). The individual flowers are very small and simple in structure, being often reduced to the gyncium or andraecium, carpels and stamens being almost always in separate flowers. The outer leaves of the flower (sepals and petals) are either entirely wanting or much reduced, and never differentiated into calyx and corolla.
[Ill.u.s.tration: FIG. 97.--Types of _Iuliflorae_. _A_, branch of hazel, _Corylus_ (_Cupuliferae_), 1. ?, male; ?, female inflorescence. _B_, a single male flower, 3. _C_, section of the ovary of a female flower, 25. _D_, acorn of red oak, _Quercus_ (_Cupuliferae_), .
_E_, seed of white birch, _Betula_ (_Betulaceae_), 3. _F_, fruit of horn-bean, _Carpinus_ (_Cupuliferae_), 1. G, lizard-tail, _Saururus_ (_Saurureae_), . _H_, a single flower, 2. _I_, female inflorescence of the hop, _Humulus_ (_Cannabineae_), 1. _J_, a single scale with two flowers, 1. _K_, a male flower of a nettle, _Urtica_ (_Urticaceae_), 5.]
In the willows (Fig. 96) the stamens are bright-colored, so that the flowers are quite showy, and attract numerous insects which visit them for pollen and nectar, and serve to carry the pollen to the pistillate flowers, thus insuring their fertilization. In the majority of the group, however, the flowers are wind-fertilized. An excellent example of this is seen in the common hazel (Fig. 97, _A_). The male flowers are produced in great numbers in drooping catkins at the ends of the branches, shedding the pollen in early spring before the leaves unfold. The female flowers are produced on the same branches, but lower down, and in much smaller numbers. The stigmas are long, and covered with minute hairs that catch the pollen which is shaken out in clouds every time the plant is shaken by the wind, and falls in a shower over the stigmas. A similar arrangement is seen in the oaks, hickories, and walnuts.
There are three orders of the _Iuliflorae_: _Amentaceae_, _Piperineae_, and _Urticinae_. The first contains the birches (_Betulaceae_); oaks, beeches, hazels, etc. (_Cupuliferae_); walnuts and hickories (_Juglandeae_); willows and poplars (_Salicaceae_). They are all trees or shrubs; the fruit is often a nut, and the embryo is very large, completely filling it.
The _Piperineae_ are mostly tropical plants, and include the pepper plant (_Piper_), as well as other plants with similar properties. Of our native forms, the only common one is the lizard-tail (_Saururus_), not uncommon in swampy ground. In these plants, the calyx and corolla are entirely absent, but the flowers have both carpels and stamens (Fig. 97, _H_).
The _Urticinae_ include, among our common plants, the nettle family (_Urticaceae_); plane family (_Plataneae_), represented by the sycamore or b.u.t.tonwood (_Plata.n.u.s_); the hemp family (_Cannabineae_); and the elm family (_Ulmaceae_). The flowers usually have a calyx, and may have only stamens or carpels, or both. Sometimes the part of the stem bearing the flowers may become enlarged and juicy, forming a fruit-like structure. Well-known examples of this are the fig and mulberry.
The second group of the _Choripetalae_ is called _Centrospermae_, and includes but a single order comprising seven families, all of which, except one (_Nyctagineae_), are represented by numerous native species.
The latter comprises mostly tropical plants, and is represented in our gardens by the showy "four-o'clock" (_Mirabilis_). In this plant, as in most of the order, the corolla is absent, but here the calyx is large and brightly colored, resembling closely the corolla of a morning-glory or petunia. The stamens are usually more numerous than the sepals, and the pistil, though composed of several carpels, has, as a rule, but a single cavity with the ovules arising from the base, though sometimes the ovary is several celled.
[Ill.u.s.tration: FIG. 98.--Types of _Centrospermae_. _A_, plant of spring-beauty, _Claytonia_ (_Portulacaceae_), . _B_, a single flower, 1. _C_, fruit, with the sepals removed, 2. _D_, section of the seed, showing the curved embryo (_em._), 5. _E_, single flower of smart-weed, _Polygonum_ (_Polygonaceae_), 2. _F_, the pistil, 2.
_G_, section of the ovary, showing the single ovule, 4. _H_, section of the seed, 2. _I_, base of the leaf, showing the sheath, 1. _J_, flower of pig-weed, _Chenopodium_ (_Chenopodiaceae_), 3: i, from without; ii, in section. _K_, flower of the poke-weed, _Phytolacca_ (_Phytolaccaceae_), 2. _L_, fire-pink, _Silene_ (_Caryophyllaceae_), . _M_, a flower with half of the calyx and corolla removed, 1.
_N_, ripe fruit of mouse-ear chick-weed, _Cerastium_ (_Caryophyllaceae_), opening by ten teeth at the summit, 2. _O_, diagram of the flower of _Silene_.]
The first family (_Polygoneae_) is represented by the various species of _Polygonum_ (knotgra.s.s, smart-weed, etc.), and among cultivated plants by the buckwheat (_f.a.gopyrum_). The goose-foot or pig-weed (_Chenopodium_) among native plants, and the beet and spinach of the gardens are examples of the family _Chenopodiaceae_. Nearly resembling the last is the amaranth family (_Amarantaceae_), of which the showy amaranths and c.o.xcombs of the gardens, and the coa.r.s.e, green amaranth or pig-weed are representatives.
The poke-weed (_Phytolacca_) (Fig. 98, _K_), so conspicuous in autumn on account of its dark-purple cl.u.s.ters of berries and crimson stalks, is our only representative of the family _Phytolaccaceae_. The two highest families are the purslane family (_Portulacaceae_) and pink family (_Caryophylleae_). These are mostly plants with showy flowers in which the petals are large and conspicuous, though some of the pink family, _e.g._ some chick-weeds, have no petals. Of the purslane family the portulacas of the gardens, and the common purslane or "pusley," and the spring-beauty (_Claytonia_) (Fig. 98, _A_) are the commonest examples. The pink family is represented by many common and often showy plants. The carnation, j.a.panese pinks, and sweet-william, all belonging to the genus _Dianthus_, of which there are also two or three native species, are among the showiest of the family. The genera _Lychnis_ and _Silene_ (Fig. 98, _L_) also contain very showy species.
Of the less conspicuous genera, the chick-weeds (_Cerastium_ and _Stellaria_) are the most familiar.
The third group of the _Choripetalae_ (the _Aphanocyclae_) is a very large one and includes many common plants distributed among five orders. The lower ones have all the parts of the flower entirely separate, and often indefinite in number; the higher have the gyncium composed of two or more carpels united to form a compound pistil.
The first order (_Polycarpae_) includes ten families, of which the b.u.t.tercup family (_Ranunculaceae_) is the most familiar. The plants of this family show much variation in the details of the flowers, which are usually showy, but the general plan is much the same. In some of them, like the anemones (Fig. 99, _A_), clematis, and others, the corolla is absent, but the sepals are large and brightly colored so as to appear like petals. In the columbine (_Aquilegia_) (Fig. 99, _F_) the petals are tubular, forming nectaries, and in the larkspur (Fig. 99, _T_) one of the sepals is similarly changed.
Representing the custard-apple family (_Anonaceae_) is the curious papaw (_Asimina_), common in many parts of the United States (Fig. 100, _A_). The family is mainly a tropical one, but this species extends as far north as southern Michigan.
[Ill.u.s.tration: FIG. 99.--Types of _Aphanocyclae_ (_Polycarpae_), family _Ranunculaceae_. _A_, Rue anemone (_Anemonilla_), . _B_, a fruit, 2. _C_, section of the same. _D_, section of a b.u.t.tercup flower (_Ranunculus_), 1. _E_, diagram of b.u.t.tercup flower. _F_, wild columbine (_Aquilegia_), . _G_, one of the spur-shaped petals, 1.
Elements of Structural and Systematic Botany Part 17
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