Many years ago I published, in the Nile Tributaries of Abyssinia, my ideas for the control of the Nile and the submersion of the cataracts by a series of weirs, with water-gates for the facility of navigation; which with certain modifications will some day assuredly be carried out, and will render Egypt the most favoured country of the world, as absolute mistress of the river which is now at the same time a tyrant and a slave. The Pedias of Cyprus may during some terrific rainfall assume proportions that would convey a most erroneous impression to the mind of a stranger, who, upon regarding the boiling torrent overspreading a valley of some miles in width in its impetuous course towards ancient Salamis, might conclude that it was a river of the first importance. The fact is that no RIVER exists in Cyprus: what should be rivers are mere channels, watercourses, brooks, torrents, or any of the multifarious names for stream-beds that may be discovered in an English dictionary. At the same time that the natural channels are dry during the summer months, through the want of power in the water-head to overcome the absorption of the porous soil throughout its course, it must not be forgotten that a certain supply exists at the fountain head, within practicable distance, which might be stored and led from the mountains to the lower lands for the purposes of irrigation. When we reflect that in the proverbially wet climate of England there is a considerable difficulty in assuring a supply of wholesome water, and that the various water companies have made enormous profits, it is not surprising that in a neglected island like Cyprus there should be distress in the absence of abundant rain. The uninitiated in England seldom appreciate the labour and expenditure that has supplied the response to the simple turning of a tap within an ordinary house. If they would follow the artificial stream from the small leaden pipe to the distant reservoir, they would discover that a glen or valley has been walled in by a stupendous dam, which imprisons a hill-rivulet before it can have descended to the impurities of habitations, and that the pressure of waters thus stored at an elevated level forces a supply to a town at a distance of many miles. This same principle might be adopted in numerous localities among the mountains of Cyprus, where the streams are perennial, but are now exhausted by the absorption of the sandy beds before they have time to reach the villages in the lower lands. Iron pipes might be laid to convey a water-supply to certain districts, upon which a rate would be levied per acre and the crops would be ensured.

The government at the present moment obtains a revenue in kind, or in a money valuation of the corn taken at the threshing-floor; thus in the absence of a crop through drought, or other accident, the revenue suffers directly together with the owner: no crop, no revenue. The main strength of a country lies in an annual income free from serious fluctuations, and the extreme instability of Cyprus is the result of the peculiar uncertainty of seasons which is a special feature in its meteorological condition. It is therefore incumbent upon the government, as an act of self-preservation, to take such measures of precaution as will render certain the supply of water, which is all that is required to ensure the average produce of the soil, and thereby to sustain the revenue.

I do not indulge in engineering details, but, from the experience I have gained by a personal examination of the localities, I am convinced that no difficulty whatever exists that would not be overcome with a very moderate outlay. The mountains are admirably situated, with a watershed upon all sides, thus offering the greatest facilities for reservoirs and pipes that would radiate in every direction. This subject will demand a careful inquiry by hydraulic engineers, as it is a special branch of the profession that requires wide experience, and large sums may be fruitlessly expended through ignorance, where a trifling amount well administered might achieve great results.

One of the first necessary steps in an examination of the subterranean water-supply of Cyprus will be "borings" that will test the existence of artesian springs. There are in many portions of the island extensive plateaux at high altitudes that would absorb a considerable rainfall, in addition to a large superficial area of mountains and hills that would exert the requisite pressure to force the water above the surface of a lower level upon boring, should it now lie beneath some impervious stratum. Boring will alone solve this question. Should artesian wells be practicable in certain localities, an immense blessing will be conferred upon the island.

In the meantime the native method already described, of connecting chains of wells from different springs converging to a main channel or subterranean tunnel, is an original form of Cyprian engineering thoroughly understood by the population, which should be strenuously encouraged. It is a common fault among English people to ignore the value of native methods, and to substitute some costly machinery which requires skilled labour and expense in working; this must in time get out of order and necessitate delay and extra outlay in repairs; generally at a period when the machine is most required.

It is a curious fact that the shadoof or lever and bucket worked by hand, which is so generally used throughout Egypt, is unknown in Cyprus, where in many localities it would be easily worked when water is within five to eight feet of the surface. This arrangement only requires a pole of about twenty feet in length supported upon an upright post, so as to play like a pump-handle by the balance of a weight attached to one end to counterbalance the pail of water suspended to a long stick and short rope at the other extremity. In Egypt the weight at the short end is merely a mass of clay tempered with chopped straw beaten together to represent about 150 lbs. or whatever may be required; this adheres, and forms a knob to the end of the lever.

A man holds the long thin stick suspended at the other extremity to which the bucket is attached, and pulls it down hand over hand until the utensil is immersed in the water; when full, it is so nearly counterbalanced by the weight at the end of the lever that a very slight exertion raises it to the desired level, where it is emptied into a receiver. Many years ago, when at Gondokoro, I arranged a double shadoof of parallel levers and two galvanised iron buckets of four gallons each, worked by two men. I timed the labour of this simple machine, and proved that the two men delivered 3600 gallons within an hour. The men exerted themselves to a degree that could not have been continued throughout the day, and the buckets, of English make, were far more capacious than the simple leather stretched upon a hoop of sticks that is used in Egypt; but there is no reason for such inferior adjuncts. It may be safely assumed that with proper appliances the double shadoof, worked by two men, will deliver 2000 gallons an hour for a working day of six active hours, or a total of 12,000 gallons. In Cyprus the wages of a labourer are one shilling a day, therefore the cost of raising 12,000 gallons would be only two shillings, provided the water is only five feet from the surface. There are many portions of the Messaria plain where the water is even nearer, but the shadoof could work profitably at six, and even at eight feet, and it possesses the advantage of such extreme cheapness of original cost that the outlay is insignificant.

Where fuel is expensive, and cattle and human labour cheap, the ancient Egyptian water-wheel will deliver a supply at a cheaper rate than steam. It has the merit of being always ready; there is no delay in lighting fires and getting up the steam; there is no expensive engineer who may be sick or absent when required; but the wheel is turned either by night or day by mules or oxen, driven by a child. Wind vanes might be attached to this principle, and could be connected on favourable occasions.

The peculiarity throughout the lower levels in Cyprus (specially exhibited in the plain of Messaria) of a water-supply within a few feet of the surface, at the same time that the crops may be perishing from drought, is in favour of the general adoption of the Egyptian wheel. Although this simple construction is one of the oldest inventions for raising water, and is generally understood, I may be excused for describing it when upon the important topic of irrigation.

A large pit is sunk to about three feet below the level of the water, and should the earth not be sufficiently tenacious for self-support, the sides are walled with masonry; this pit would usually be about twenty feet long, four feet wide, and twenty feet deep for a first-class wheel. When the wooden wheel of about seventeen feet diameter has been fixed upon its horizontal shaft, it is arranged with a chain of large earthen jars; those of Egypt contain about three gallons each, but the Cyprian pots are very inferior, scarcely exceeding the same number of quarts.