The Story of the Cotton Plant - LightNovelsOnl.com
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Now this statement is interesting as showing one or two important features. The weight of the seed is seen to be nearly a quarter of the whole plant, while the stems and leaves together take up nearly one half. A very small proportion by weight of the plant is taken by the lint.
A chemical a.n.a.lysis of the mature Cotton plant yielded the following substances:--
Water. Potash.
Ash. Lime.
Nitrogen. Magnesia.
Phosphoric acid. Sulphuric acid.
Insoluble matter.
Of ten a.n.a.lyses made with the cotton lint (which takes up about 10-1/2 per cent. of the whole) M'Bryde states that the average amount of water found was 6.77, ash 1.8, nitrogen .2, phosphoric acid .05, potash .85, lime .15, and magnesia .16.
He very pertinently remarks also "that if the lint were the only part of the plant removed from the land on which it is grown, cotton would be one of the least exhaustive of farm crops. The only other part which need be permanently lost to the soil is the oil, which also contains very small amounts of fertilising const.i.tuents." In connection with this he further says "that even when the seed is taken away along with the lint, cotton still removes smaller amounts of fertilising materials from the soil than either oats or corn." It should be borne in mind that the soil upon which cotton is cultivated lies fallow for a greater part of the year, and the fact of absence of cultivation, with consequent non-fertilising and non-enriching of land, must tend in the direction of soil exhaustion by the Cotton plant.
Another useful and important fact in connection with the Cotton plant is the medicinal use to which the roots are put. According to the _American Journal of Pharmacy_, the bark from the roots of the Cotton plant contain an active ingredient which in its effects is very much like ergot.
Chemical investigations have conclusively proved that the ripe fibre of the Cotton plant is composed of the following substances:--
Carbon, Hydrogen, Oxygen, and they tell us that when cotton is fully ripe it is almost pure cellulose.
Dr. Bowman has pointed out that the percentage of water in cotton fibre "varies with different seasons from 1 to 4 per cent. in the new crop, and rather less as the season advances. Above 2 per cent. of moisture, however, seems to be an excessive quant.i.ty even in a new crop cotton, and when more than this is present it is either the result of a wet season and the cotton has been packed before drying, or else it has been artificially added."
About one fifth of the whole plant by weight consists of the seed, and an a.n.a.lysis of this shows them to be composed of water, ash, nitrogen, phosphoric acid, potash, soda, lime, magnesia, sulphuric acid, ferric oxide, chlorine, and insoluble matter.
As a commercial product seeds are exceedingly valuable, and yield the following substances:--oil, meal, hulls, and linters. When the hulls are ground they receive the name of cotton seed bran. The inside of the seed, when the hull has been removed, is often called the kernel and is sometimes also designated peeled seed, hulled seed, and meats. It is this kernel seed which, when properly treated, yields large supplies of oil and meal.
CHAPTER II.
COTTON-PLANT DISEASES AND PESTS.
There are several cla.s.ses of agents all of which act injuriously more or less on the Cotton plant.
1. Climatic changes, including hygrometric variations of the atmosphere, and extremes of heat and cold.
2. Insect pests.
3. Physiological diseases of the plant.
4. Blights caused by fungi.
It has been pointed out in the early pages of this story, how very sensible to changes of heat and cold, the Cotton plant is, especially in the early growing period. When the plant has just risen above the ground, and is beginning to spread its roots, too great an amount of heat would be fatal to its further growth.
Instances could be given where very serious decreases in the production of cotton in the States especially have taken place, due entirely to unusually high temperatures which obtained during the early growing period of the Cotton plant.
Extremes of frost are likewise fatal to the growth of the young plant.
By the beginning of April, frosts have as a rule disappeared, and no further fear need be felt on that account, though if the end of winter has been abnormally warm, and the young plants have been making leaf too quickly, it will be readily seen how fatal a sharp frost or two must be to the young and tender plant. There are cases, however, when a frost is beneficial.
Then again, while rain is needed in fair quant.i.ty, too much of it is followed by rot and myriads of pests. If the planter desires anything at all when his crop is ripe, it is fine weather in which to gather his harvest.
Frequently large quant.i.ties of cotton are left on the plantations, because it is too wet to gather it. This happened a few years ago to an unusual extent, when a vast quant.i.ty of cotton had to be left upon the fields.
Of all the injurious agents most dreaded in the cotton-growing districts of the globe, none are so widely spread or so disastrous as "insect pests."
They attack different parts of the plant during its growth, and when the bolls are formed they commit great havoc among these by boring through and completely ruining the immature fibre. Then again, while the plant is young, they may attack the most tender portion of the plant, viz., the new and young leaves found at or near the top. This they soon clear and make their way as caterpillars down the plant, and they frequently clear it as though the leaves had been plucked off.
So completely do they do their work that it has been calculated in certain years the loss on this account alone cannot have been far short in America of 3-1/2 million pounds in one year.
Of the chief forms of insect pests, two specially stand out into prominence, both of which belong to the moth tribe of insects, viz., _Alethia argillacea_ or Cotton Caterpillar, and the _Heliothis armiger_ or Cotton Boll-Caterpillar.
The operations of the former are mostly confined to devastating the leaves and buds, while the latter confines its special attention to the bolls which, were they allowed to ripen, would burst with cotton.
The eggs of the former, too, are laid on the under side of the upper leaves and vast numbers are deposited. The moth flies by night, and the eggs laid are extremely difficult to discover--indeed it takes an expert to quickly find them.
Usually, about midsummer, the eggs are hatched in three or four days and then comes the period for spoliation.
All that is tender is a.s.similated, usually the under side of the young tender leaves found at the top of the plant.
During this stage of its existence the caterpillar moults five times and the larva period varies somewhat according to the weather from one to three weeks.
The chrysalis or pupa state covers from one week to four, and at last emerges as a beautiful olive gray moth with a purplish l.u.s.tre.
In about four days the female commences to lay eggs very rapidly and will lay sometimes as many as six hundred during its life. No wonder, then, with several generations during a season and vast numbers of moths, that untold damages can be wrought by these particular insects in a single season.
A number of remedies has been successfully applied in the direction of spraying various chemical solutions, and in sowing plants which have had the direct effect of reducing the spread of this terrible pest. Its method of working can be seen on referring to Fig. 4.
Now the Boll-Caterpillar, though it lives much in the same way as the Alethia, has a very different method of procedure so far as its destructive habits are concerned.
And its fields and pastures, too, are by no means confined to one continent, or to one kind of plant, for it attacks both the tomato and corn plants. According to Dr. Howard, "It feeds upon peas, beans, tobacco, pumpkin, squash, okra, and a number of garden flowering plants, such as cultivated geranium, gladiolus, mignonette, as well as a number of wild plants." As the name indicates, the Boll-Caterpillar makes the boll its happy hunting-ground. The eggs are laid in the same way by the parent moth as the Cotton Caterpillar or Alethia, and when hatched the young powerfully jawed caterpillar makes its way to the newly-formed boll, and applying itself vigorously, very soon gains an entrance. Here it rests for a time, eating away at the best it can find. It ultimately emerges and is transformed into the pupa, taking up its quarters in the ground, until the next change takes place, when in a week or two's time it appears as a moth much the same in size as its cousin the Alethia, but coloured ochre yellow to dull olive-green and being more varied in its markings. It will lay during one season about 500 eggs.
Many remedies have been applied for the extirpation of this particular insect, but these only seem to have met with partial success. It will readily be seen how much more difficult this pest is to deal with than the preceding one. Living as it does in the boll and in the ground for a great part of its existence, it will be exceedingly difficult to get at.
In Mexico what is known as the Cotton-Boll Weevil (_Anthonomus grundis_) appears to do great mischief to the Cotton plant. It does most damage during the larvae stage, eating up the tender portions of the boll while in residence here. When matured it is only a little under half an inch in length.
Many other insects act injuriously upon the Cotton plant, but the following may be taken as the chief: Cotton Cutworm (_Feltia malefida_); Cotton lice (_Aphis gossypii_). Among the lepidoptera may be mentioned, _Cocaecia rosaceana_, or "Leaf-roller," so called from its habit of curiously rolling the leaves of the Cotton plant and then feeding inside the roll. Then gra.s.shoppers and locusts occasionally do some damage, as well as a beetle named _Ataxia crypta_, which is noted for attacking the stalks of the Cotton plants, but it should be pointed out this beetle does not prey upon healthy and vigorous plants at all.
Scores of other insects could be mentioned as injurious, though some of them do but very slight damage indeed to the Cotton plant.
It does appear, however, from long years of experiment and observations, that little damage needs to be feared if the plants, while growing, and during the formation of the boll, can be carefully watched and guarded.
The plants when matured are better able to withstand the onslaughts which these predaceous insects make upon them.
Then again, there are large numbers of physiological diseases of the cotton due to inherent weakness of the plant or failure of a.s.similative processes.
And lastly, vast numbers of fungi, too numerous to mention here, work serious injury to leaf, flower and boll in certain seasons of the year.