"Turning to Gilbert's intellectual, artistic and esthetic life, we discover that this gifted boy finds the same source of comfort and amus.e.m.e.nt in his devotion to the art of music. In this branch of accomplishments, you, my dear Fern! have had occasion to observe how important a factor he has become, in organized social life at Solaris.

He is such a general favorite, that without an effort, he has been able to so impress the strong individuality of his n.o.ble character upon the minds of our farm people, that the effect for good has been truly wonderful!"

"This is exceedingly interesting, Fillmore! How charmed I am with your completed story of this marvelously gifted boy! All that you have told me about Gilbert, only seems to confirm my previous convictions, that he is really one of the most astonishing products of Solaris farm! No wonder he is such a general favorite! He has n.o.bly earned the t.i.tle!

With such intelligence and genius, possessed, embodied and expressed by its weaker units; is it any cause for wonder, that the success of Solaris as a co-operative colony, is so p.r.o.nounced?"

CHAPTER x.x.x.

OUR HERO AND HEROINE DISCUSS AGRICULTURAL STATISTICS.

On the day following the festival, we find Fillmore Flagg in the office of the farm, going over the books of the company with Fern Fenwick. To most women, such a task would soon prove unbearably monotonous and tiresome. However, she neither grew restless or inattentive. At all times on the alert to note each new point of interest; her questions on every subject indicated a remarkably intelligent conception of the general plan of the work. Finally, having satisfied herself that she understood the status of the farm well enough to enable her to propound her list of queries in the proper order, and in such a manner, as would most successfully bring to her the information she wished to obtain: with note-book in hand, she commenced by saying: "Now Fillmore, I am ready to take up my series of questions about Solaris, which you have kindly consented to answer. I promise in advance to be good; to try to refrain from untimely interruptions, by asking a host of irrelevant questions at inopportune moments!

"First, I wish you would tell me just what is represented by the one thousand shares of capital stock, of the Solaris Farm Company?"

"The corporation, as you know, is so limited," said Fillmore, "that the land cannot be sold, and the stock can only be sold to the Company; nevertheless, the original cost of the land is covered by the stock. The entire capitalization of $250,000, which I think will fairly represent the financial status of the farm at the end of the first five years, is divided as follows:

Purchase price of land $ 32,000

Improvements 68,000

Buildings 100,000

Live stock, equipment and machinery 50,000 -------- $250,000

Of the last named item, about $25,000 is estimated for machinery.

However, this amount does not fully represent its real value. In many instances, it only gives the actual cost of the raw material used in construction. This capitalization does not seem so large, when we consider the small individual holdings. Having a par value of $250 a share, we have only $500, in the two shares, for each one of the five hundred co-operators. I think it has been wisely determined by a majority vote, that as the resources of the farm continue to develop and mature, the increase of profits shall come to the individual stockholder in the shape of larger wages, instead of by dividends on stock. Although this is not a money-making inst.i.tution, and was not so intended from the beginning; a fact properly emphasized by the foregoing. Yet, by the way of arriving at some estimate of its future value, I feel safe in predicting, that, if the stock should be offered in the markets of the world, and dividends declared in the usual way, twenty years hence, these certificates of stock would be worth $1,500 per share. In other words, would have doubled in value six times during that period."

"Judging by what I already know of the farm and its resources," said Fern, "I quite agree with you in this view of the matter.

"In considering the future needs of such a large number of co-operators, which in ten years may be increased by pensioners and children, to one thousand people; do you think this farm is large enough to meet the demand?"

"For the purpose in view it is ample," said Fillmore. "Operated in connection with so many allied industries, I think a farm of 5,000 acres would be sufficient. That would be ten acres for each one. Here in Solaris, we have 12-8/10 acres of land for every adult member of the company. By carrying the process of intensive farming to a very high state of perfection; Prof. Grandeau, at Capelle, France, has actually demonstrated, that it is possible to grow 8 bushels of wheat--one man's bread food for the year--on one-twentieth part of an acre of land.

Armed with so many advantages, with better conditions, superior methods, and more intelligent workers; I feel sure we can easily accomplish here, all that Grandeau has done in France, and more. Besides, you must remember, that we shall have the additional support of quite a large number of profitable industries, to help us in meeting the demands of an increased number of consumers."

"That sounds logical and reasonable," said Fern. "I now remember, that while traveling in Europe with my father, gathering agricultural statistics: the Capelle experiments were brought to our attention at that time, as worthy of careful consideration. I am greatly pleased to know that you are already familiar with them. To continue the subject, I wish to say that I am much impressed with the outlook for intensive farming at Solaris. Aided by the wonderful power of applied co-operative thinking, combined with your careful and comprehensive system of book-keeping, which embraces every field and department of the farm! I believe that ten years hence, you will be able to give to the world, some very valuable statistics on the whole subject of farming, both intensive and diversified.

"I have noticed with an unusual degree of interest, the apparently lavish use of electric power in operating the factory works and farm machinery. I am really quite curious to know just how it is generated."

"That is a very large question!" said Fillmore. "At different times since the commencement of our work, we have used three methods for generating electricity. First, the old fashioned steam dynamo. Second, the direct conversion of coal into electricity. Third, the gathering of great quant.i.ties of this subtle force from the atmosphere, through a certain vibratory action, set up by intense concentration of the sun's rays. As a result of a vast deal of co-operative thinking and careful experimentation; the last named process, has been so perfected and cheapened, as to entirely supersede the first two. The powerful batteries of Solaris concentrators, which you see around the power-house, and at various points on the farm, are important factors in this work. I confess, that I am rather proud of the remarkable success, which we have achieved in this line of invention. When I gave a t.i.tle to the farm, I had a premonition, that solar heat and force would be so successfully harnessed to both industrial and agricultural work, that the suggestive name of Solaris, would soon become as famous, as it was fitting and well earned.

"In applying this power to all kinds of farm and factory work, we have succeeded far beyond my most sanguine expectations. With a plant almost entirely built by our own co-operative labor, we are able to generate an abundance of cheap power, which can be easily and safely conducted to the most distant portions of the farm. This power is readily available at any desired point, and for all kinds of work; becoming the magic motor by which we operate trains of trolley cars, for handling grain, hay, corn and all heavy crops; great gang-plows, rollers, harrows, cultivators, planters, drills, reapers, threshers and motor wagons; all so perfectly constructed and so easily controlled; that with them a woman, fittingly dressed and gloved, protected from the heat of the sun by a canopy, comfortably seated on cushions and springs, may accomplish the roughest and heaviest kind of farm work, without fatigue or discomfort. In fact, our women soon find it the most delightfully, fascinating work on the farm.

"In connection with such a powerful motor, a single person, operating one of these improved agricultural machines, can do an amount of work in six hours, which under the old system would require ten hours of severe toil by six men and twelve horses. Of course, such machinery can only be produced and operated by large co-operative farms like this; with a carefully chosen force of co-operators, who are thinkers as well as workers; who are intellectually, physically and socially prepared to invent and construct machines that are perfectly fitted to do this particular kind of work."

"Really!" said Fern, "this is as interesting as it is remarkable! This sun-generated force, this magic motor, so perfectly adjusted to agricultural work, under the test of practical use; which has proved so easily controlled; together with the tireless host of wonder-working machines, which this force has called into being; is truly a marvel worthy of the twentieth century!

"Tell me, Fillmore! Why is it that these things have not been done before?"

"There are many reasons. I think I can give you the princ.i.p.al one. From a remote period of time, a large majority of the people of this planet have gained a living by following agricultural pursuits. Bowed down under the weight of severe toil, hopeless under the pressure of a belief, that labor was a curse which they might not seek to escape; confined by ignorance to a narrow sphere of action, which kept them from looking upward and outward; it is not strange, that so many pa.s.sing generations of these people, should never once dream of adopting a series of progressive changes for the betterment of their condition.

"Such people were incapable of understanding, that, in order to secure the best and most successful results from agricultural work, it requires a systematic application of the highest order of brain work: that this brain work, must inspire a harmonious collection of trained, muscular workers, operating under the most favorable conditions. By the way of a contrast, how helpless were the lives of these farmers! As a rule they worked under the most discouraging conditions, distrustful and envious, uneducated and narrow minded; how could they be prepared to comprehend that basic law of progress, which is embodied in the idea of unselfish co-operation?

"For these reasons, co-operative thinking and co-operative farming, have not heretofore been successfully combined. Here and now, in the first decade of the twentieth century, a few unselfish souls, the advance guard of the coming army, responding to the pressure of progressive evolution, have risen to such intellectual heights as has enabled them to discover, that by the aid of a harmonious union of thought and labor, a collection of people, working the soil unselfishly together, can easily attain results which, the most brilliant individual effort, armed with the wealth of a millionaire, could never hope to accomplish.

Inspired with this idea, the people of Solaris, as pioneers in the work, are striving earnestly to demonstrate the absolute success of co-operative farming."

"What I have seen with my own eyes, I know as a verity!" said Fern, enthusiastically. "Therefore I feel like shouting in the ears of our people: Well done, good and faithful servants in the cause of progress!

The victory is already won! It is yours!

"Your explanation of the cause of the late coming of practical co-operation in agriculture, appeals to my mind, as a very clear one.

That the ignorance and selfishness of the individual, has from the beginning, proved the real obstacle, is now quite plain to me.

"However, returning to my list of questions. How is it, that the fields and cultivated grounds at Solaris, are so free from weeds?"

"Ah!" said Fillmore. "The answer to that question, is another argument in favor of co-operative farming. Weeds have always been counted by farmers, as among the worst of the pests which they have been obliged to contend with. Under the most adverse conditions, weeds will grow, flourish, and ripen an appalling quant.i.ty of seed; where all useful plants will languish and finally perish. To keep them down, is a task which requires a great deal of hard work. To destroy them, root and branch, is a problem which has occupied the minds of our people for the past thirty months. After much thoughtful work, we have reached a solution.

"During the period of frost, from the first of December to the first of March, the weedy ground is thoroughly stirred several times. After each stirring, the ground is swept by a broad stream of concentrated heat-rays--both light and dark. These rays are generated by a number of batteries of Solaris mirrors, or great sun gla.s.ses. This operation soon warms the ground and causes the weeds to put forth a tender growth.

After such a growth, a week of frosty weather kills it down. This process is repeated until the weeds are all gone. When the necessary frosts do not appear, or when the work is carried on during warmer weather, a scorching from the sun gla.s.ses, kills the weeds even more effectively than frost. In this way the cultivated ground on the farm, has been entirely freed from weeds. As a result, the yield of crops has been largely increased, while the labor of cultivation has been correspondingly reduced. That back-aching work of hoeing, has been almost entirely dispensed with. Machine culture does the work.

"The great advantage gained by cropping soil free from weeds, is most apparent in case of wheat culture. In such soils, the wheat can be deeply sown by the drill, beyond the reach of predatory birds. This develops a strong root-growth in the young plant, which as a consequence requires more s.p.a.ce. To meet this demand, care is taken to have the drill-rows made one foot apart--running north and south. These wide rows allow free access of air and sunlight to the soil, which may then be cultivated. Under the old system this s.p.a.ce would be full of weeds; therefore impracticable. This gives the young wheat a chance to spread out, to send up from twenty to forty stout stems from the root-system of a single grain of seed. The growing stems become more st.u.r.dy, bear larger heads, heads with more and larger kernels, of heavier, brighter wheat. With this culture, the yield is increased one-third--many times one-half--and the quality wonderfully improved. Fully one-half of the usual quant.i.ty of seed is saved.

"By repeating this method for a few years, carefully choosing the seed for each planting from the best kernels borne by the largest heads, the ordinary wheat-crop, without extra fertilization, may easily be doubled two and one-half times; while the quality of the entire crop is raised to the grade of extra fine, which will readily sell at fancy prices for seed wheat. The net gain, is a large cash balance in favor of cultivating a weedless soil. What is true of wheat culture in such soils, is true in a large measure with most other crops; more especially with corn, cotton and all kinds of garden crops."

"Stop a moment, Fillmore!

"Did I understand you to say that these immense discs, these mammoth, weed-scorching mirrors, were made here at Solaris? How can such expensive things be made, for a price that would allow so many to be used?"

"Yes, these concentrating mirrors and burning gla.s.ses combined, are the product of the inventive genius and skillful work of our people. A combination of brain and muscular work so successful, that these discs, although they are of such great size and weight, are quickly and cheaply made from thick plates of flat gla.s.s, which we manufacture from our abundant supply of excellent sand! The quality of the gla.s.s in these plates is of the best; clear, soft, and tough, just the kind that will most readily take the proper concave and convex surfaces, when treated by the evenly applied heat of swiftly revolving electric brushes. With plenty of strong machinery to handle these heavy plates, a few skilled workers, can with ease, soon transform them into perfect, lense-shaped discs. Similar discs, made by the slow, tedious process of nineteenth century methods, would cost many thousands of dollars for each one."

"You have answered my question both briefly and perfectly! I recognize in these great mirrors, a swift, wonder-working agency, that shall make possible a new system of farming; which means, in the improved conditions for mankind that must follow, a revolution in social methods, calculated to bring them quickly into harmony with a rate of progress demanded by the twentieth century.

"I will take up another question. It is in connection with the large amount of cultivated ground devoted to vegetables. How do you manage to make it profitable to grow such a quant.i.ty of perishable things?"

"That is another important question, which will require an answer so lengthy, that perhaps you may grow weary before I have finished.

However, I will try to be brief. During the past year, we have taken from the ground devoted to vegetable growing, more than 100,000 bushels of cabbage, cauliflower, onions, beets, mangel-wurzel, carrots, parsnips, salsify, potatoes, sweet-potatoes, ca.s.sava, turnips, kohlrabi and artichokes. The best part of the story is, that this heavy crop has proved profitable, to a degree far beyond our expectations! As a rule, this cla.s.s of vegetables, so heavy and so perishable, cannot be profitably grown in large quant.i.ties, except in locations near a large market town. This advantage, Solaris does not possess. To overcome this difficulty, was an additional task, which must be conquered, by the allied forces of co-operative thinking and co-operative working. In the solution of this puzzling question which was finally reached, the great mirrors and burning gla.s.ses of the Solaris concentrators, were again called upon to play an important part.

"The first necessity, was to reduce the weight of the vegetables, and at the same time, to arrest all tendency to decay. The second was to protect them from the attack of insects, by placing them in neat, strong, insect-proof packages.

"A large curing establishment was built and equipped with machinery; most of which was made at Solaris, from especially devised patterns.

Convenient trolley lines, connected the curing-house with the fields.

The vegetables, crisp and fresh from the ground, were quickly brought to the washing machines, on trains of cars laden with shallow trays, which permitted them to be swiftly handled without bruising. In these machines, they were thoroughly cleansed, sc.r.a.ped, and freed from tops, rootlets and imperfections. This process complete, they were placed in trays on traveling carriers, which delivered them to the dicing machines. In the dicing machines, they were soon reduced to inch-cubes.

"In pa.s.sing from these machines, the cubes fell on traveling screens of fine wire, which formed the first of a long series of drying rollers.

The drying rollers, on the way to the packing rooms in the large store-house, pa.s.sed through a long system of sheet-iron conduits, which were well heated by the concentrated rays of the sun from the mirrors and sungla.s.ses. So well did the drying rollers do their work, that by the time the cubes had reached the store-house, and were delivered by the elevators into the storing-bins in the packing house, they were reduced to a dry, hard kernel. They had lost three-fourths in bulk, and about the same proportion in weight.