MANNI 694 .C64 1894 CORNELL UNIVERSITY LIBRARY 3 1924 085 807 323 DATE DUE 1 GAVLORD PRINTED IN U.S.A aPEiT^ramuPMW :omcLL'yiffli¥Ciinn I 'I / MANUFACTURED BY P. C. LEWIS l\n. CO., CAT5K1LL, N.y., U.S. A. . 3ntrobuctory : . Hl'XE are so many Spray Pumps oh the market that it is a little confusing to those who are unacquainted with the different makes qf pumps, or who have never sprayed their trees, to determine JUST WHAT KIND of pump they need or. WHICH make of Ijump IS BEST. It is to such that these tew lines are addressed. We will state the ease clearly and leave YOU to decide whether to buy a "cat in a bag," or buy of firms whoi give an ABSOLUTE GUARANTEE that in case the Spray Pump purchased is not PERFECTLY SATISFACTORY IN ALL RESPECTiS, it, may be retiimed and your money refunded. It is but natural that those who intend purchasing a Spray Pump should wish to buy the BEST PUMP on ihe ?tiarket for the LEAST MONEY, and in otier to sat- isfy themselves on this point, many will send for catalogues and circulars of the different manufacturers gf Spray, Pumps, each of whom will claim that they make the best. Some of these agents or manufacturers will list ten to tvireatj different styles of lever pumps to choose from. Noiw these .pumps are all used for the same purpose, that is, spraying fruit trees and vipeS, and some ONE of these ten to. twenty different styles IS BEST OF THAT PARTICULAR MANUFACTURER'S MAKE, but YOU are left IN THE DARK as to WHICH STYLE this is. Now our argument is this way: Why list any but the ONE BEST STYLE OF PUMP for this work and save buyer the trouble of choosing from a half dozen different styles, with chances "two to one " that he DOES NOT GET what he wants. \ We are in a position to KNOW that many Of the lever pumps being sold for ' spraying purposes lack nearly every qualification of a, good Spray Pump. That is,. they are made with iron cylinders instead of brass, and the chemicals used in spraying will soon eat the iron cylinder and make it worthless. Many of them have no automatic mixer or agitator. Many of them are complicated and incase you wish to put in a new valve, you would have to get an expert to do the work. Others put in THIN SHEET BRASS lining, instead of MANDREL DRAWN, OR SEAMLESS BRASS TUBING. Uthers are using cheap iron check valves and valve seats, which soon rust or corrode and beicome worthless. These cheap pumps, and many of the higher priced ones, do not have expansion . valves. ' Now ALL of these things are ABSOLUTELY NECESSARY in a good Spray Pump and NO ONE should buy a Spray Pump that is lacking in any of these important particulars. j RellaWe msectlcIilBS, Fungicides, Etc. TO OUR PATRONS : In order to get the best results from spraying, it is necessary that you have ABSOLUTELY RELIABLE articles in the shape of insecticides and fungicides, for combat- ing fungus diseases and insect ravages on fruit trees, vines and their fruits, and farm crops. We have had a large and constantly growing demand for reliable spraying mixtures in handy shapes for immediate use, to be used in connection with our spraying outfits. To meet this demand, and to accommodate our customers, we have had made, by a firm of leading agricultural chemists, the list of articles given below. The formula for each has been practically tested for the past three seasons, and we guarantee that the different preparations will do all we claim for them. At the prices quoted, they do not cost you much more than the home-made article, and you have the satisfaction of knowing that you are using standard goods. Our agents should recommend and use these articles in connection with the sale of our pump. By using them parties are assured of success, and the consequence will be a much larger sale for pumps the coming season. Full directions on each package. LEWIS'S KILLINE POWDER. 25-pound boxes, 6 cents per pound. $1.50 per box. For Potato Blight, Potato Rot, Grape Vine Flea Beetle, Potato Bugs, Pear and Cherry Slugs, Codling IVIoths, Curculio and Strawberry Crown Borers. Can be used either dry or in solution. LEWIS'S AMMONIACAL SOLUTION CARBONATE COPPER. i-gallon cans (makes 100 gallons wash), $1.50 per can. For Black Rot, Downy Mildew and Anthracnose of the Grape, Pear-Leaf Blight, Pear Scab, Apple Scab, Powdery Mildew, Celery Carnation ancl Violet Rusl. LEWIS'S BORDEAUX MIXTURE. 20-pounQ packages (50 gallons wash), $1.00 per package. For Bl''ck Rot, Downy Mildew and Anthracnose of the Grape, Potato Blight, Potato Rot, Leaf Blight of Cherry, Pear and Quince, and other Fungus diseases. LEWIS'S KEROSENE EMULSION. 5-gallon buckets (makes 75 gallons wash), $1.25 per bucket. For Plant Lice of any kind, Cabbage Worms, Scale Insects on Apple, Pear, Orange, Lemon and other Trees, Horn Flies. LEWIS'S HOP AND APHIS MIXTURE. l-gallon cans (100 gallons wash), $1.50 per can. This is a Concentrated Fluid Extract Quassia, held in suspension by Whale-Oil Soap. A cheap and reliable non-poisonous Insecticide for Hop Lice, Aphis and all Scale Insects. Nothing better for Rose Bushes and House Plants. LEWIS'S CARBOLIZED SOAP. i-gallon cans (makes 12 gallons paint), Si-oo per can. For Peach, Apple and other Tree-borers; also for washing trees to prevent at- tacks of animals or vermin. LEWIS'S SULPHO-STEATITE POWDER. 25-pound boxes (used as a dust), 8" cents per lb. For Lettuce Mildew, Powdery and Downy Mildew of the Grape, Rose Mildew and other Fungus diseases affecting plants under glass. HEMMINCWAY'S LONDON PURPLE. One, two and five-lb. boxes, neatly labelled, with full directions, 15 cents per lb. For the Potato Bug, Curculio, Codling Moth, Canker Worm, Pear Slug, Cab- bage Worm, Cut Worm, and all Leaf-Eating Caterpillars, etc., etc. Full directions on each package. We ask for your hearty co-operation in introducing the above-named goods in your immediate vicinity. Remember, they are fully guaranteed. Respectfully yours, P. C. LEWIS MFG. CO., LIBERAL DISCOUNT TO AGENTS. CATSKILL, N. Y. Cornell University Library The original of this book is in the Cornell University Library. There are no known copyright restrictions in the United States on the use of the text. http://www.archive.org/details/cu31924085807323 How to Spray. (HERE parties have any considerable amount of spraying to do, it will pay to fit up especially for it. This can be easily and quickly done and at a light expense. First, get a tight barrel and fit your pump to it ; put the barrel and one or two extra casks of water on your wagon, and mix your spraying solution according to instructions in our liand boolc sent with each pump. You should have a driver, (a boy will do), and when ready, drive along on one side of a row of trees, and back on the other. If^the trees are small and you drive slowly, you can spray your trees as fast as the horses will walk. You should turn the spray upon the near side of the tree as you approach it. First, spray the top of the tree (it a tall one), then move the spray slowly up and down the side of the tree toucliing every portion. If the tree is large it will be necessary to stop as there is no spraying machine made that will thoroughly spray a large tree without stopping. Do not use solutions stronger than recommended. Some work on the principle that "if a little is good, a good deal is better." This theory will not work in spraying trees, as, if you use too strong a solution, it will in many cases burn the leaves. One great mistake in spraying is in not commencing in time. For fungi, scab, bud moth, etc, you should give your apple, pear, peach, cherry trees, etc., a spray- ing before the buds start. See spraying calendar on pages 38 and 30. Another mis- take is in not doing the work thoroughly. Spraying is work.that can be easily and quickly done and it should not be slighted. Another source of failure is in not using proper mixtures, or in using th*im too strong or not strong enough. Solutions prepared according to the recipes on page 40 or in our hand book are right. WHEN TO SPRAY. You will find a Spray Calendar on pages 38 and 39, which tells you JUST WHEN to spray trees and plants of different kinds. Recipes or formulas most used in spraying will be found on page 40. A 64-PAQE HAND-BOOK QIVEN TO EACH PURCHASER OF A SPRAY PUMP. "We send a 64-page hand book called " Our Insect Foes and How to Destroy Them," ite page from this advise they show what they claim to be one of their very best pumps and plainly state that it has " no agitator.'' Others show several styles of force pumps that were never made or intended for spraying purposes and the only reason (which we can think of) why they should list them is because they can be sold at a low price and they think the farmer will not find out the difference until after they get his money. You will find that the manu- facturers who list these pumps do not tell how they are made or what they are made of and if you buy them, it is at your own risk. It is simply a picture and a price. We describe each of our spray pumps minutely and we not only tell how it is made, what it is made of, and what it will do, but we guarantee^ that every outfit we sell shall give absolute satisfaction or money refunded. MANUFACTURERS OF SPRAYING APPARATUS. Prices. E do not believe it should be necessaiy for a farmer to ''mortgage his farm" to buy a Spray Pump, and we certainly believe we give better value for yourmoneythan any other manufacturers of Spray Pumps in the United States, and we are backed up in our opinion by nearly ^,000 farmers and fruit growers in the United States who are using them. * should read 100.000 Here are the names of our pumps : " The New Wonder," " Lewis'' Little Giant," "The Defender." Their range of wqrk is from 10 acres to 100 acres. Which would be best for you depends on the amount of spraying you have to do, and the amount of money you can afford to spare. " The r«Jew Wonder" illustrated and described on page 8, has ample capacity for orchards from 8 to 10 acres, and will do your work just as well as a higher priced pump. But for the same work we would prefer the "The New Wonder Pump " with brass Air Chamber illustrated and described on page 6. Again, while "The New Wonder " would answer for orchards of from 10 to 20 acres, we would prefer "The Little Qiant" illustrated and described on page 9. Because it has a double automatic mixer and lever attachment, and consequently it is an easier pump to operate for a considerable length of time. On the same principle, while "The Little Giant" has ample capacity for orchards of 20 to 30 acres, we would prefer ' ' The Defender " as it has a greater leverage, and is arranged with two lines of hose and is, we believe, the best and most powerful and easiest working Spray Pump in the world. In short our pumps may be classed "Good," "Better," " Best." " The New Wonder" is Good, " The Little Giant" is Better, " The De= fender " is Best. Our advice is, if you can afford it, buy "The Defender," and you will have the satisfaction of knowing that NOBODY, ANYWHERE, has a better spray pump than you, and it costs you no more than others charge for Cast Iron Pumps. If you cannot afford to buy "The Defender" "The Little Giany comes next. It will do just as much and just as good work as "The Defender," when using only one line of hose, ( very few use two lines of hose.) If your orchard is not over 8 to 10 acres and you do not feel that you can afford to buy "The Little Giant," then buy "The New Wonder" and remember that Which ever pump you buy WE HEREBY GUARANTEE that the Pump shall give you absolute satisfaction, or money refunded. As to whether we are responsible or not, or will do as we agree, we refer you to any Commercial Agency in the U. S., or Tanners National Bank, Catskill National Bank, Amekican or National Express Company, Catskill, N. Y. And as to whether the Pumps are as represented, we refer you to any of the long list of Entomologists mentioned on page 3, or any of the nearly 100,000 Farmers and Fruit-growers who are using our Spray Pumps. You will find many names in our circulars, catalogue, &c. PROMPTNESS rN SHIPPINQ. We keep from 2,000 to 4,000 outfits in stock, and your order, whether for a single pump or several hundred pumps, would be shipped within 24 hours after receipt of same. See description of Pumps on following pages. p. C. LEWIS MANUFACTDBING CO., CATSKILL, N. Y. The New Wonder Spray Pump. WITH AIR CHAMBER. PRICE EXPRESS PAID, $6.00. gr i Tc rm 'j u' i ii [i i nB l iW l «r>irM !i l ii rirf i Tr:ja i aiiii i i|Mrr ii i[, i y )»;l' ' iir-r i Trr- The above cut shows the manner of attaching the New Wonder Pump to barrel. p HIS outfit is a combination of three complete brass machines, as shown above. It has automatic mixer and barrel attachment. It is the best, cheapest and easiest vi^orI(ingfirst°class spraying outfit in the world. 1 1 w ill do just as much and just as good work as any •^li) "r fl5 Spray Pump on the market, using one line I'lhcitse, and you will find as a general rule it is not policy to use more than one line of hose, as two lines of hose means two men to handle your pump.' The New Wonder Pump is personally endorsed by the leading Entomologists and Agriculturists of the United States. (See list of names on page 3.) The central machine in this cut is an Agricultural Syringe, or Potato Bug Exterminator, with which a man or boy can spray from 8 to 10 acres of potatoes per day. The lower machine in cut is a Veterinary Syringe, and is something that every farmer should possess as i t is often the means of saving the life of a valuable animal. The New Wonder Pump is fitted with two Of Lewis' Graduating Spray Noz- zles ; one for ordinary spray work, the other very fine for spraying grape vines, etc. Using these nozzles you can change from solid stream to spray instantly while pump- ing. And another great advantage of our graduating spray nozzle is the fact that you can change from a very fine to a coarser spray while pumping. This is impor- tant in spraying tall trees, as in case you cannot reach the top of a tall tree with the fine spray you can change instantly to a coarser spray, which can be thrown 8 to 10 feet higher. MANUFACTUREBS OF BPHAYING APPAHATUS. iT is impossible to clog tliese nozzles. All the parts of the New Wonder Pump screw together and can be readily taken apart or put together without the aid of tools. Ours are the only pumps madeusing the Lewis valve with patent brass expan- der, which is acknowledged to be the best valve on the market. The New Wonder Pump is made of heavy mandrel-drawn brass tubing and will last a life time. Tens of thousands of them have been in almost constant use forthe past 10 years and are still in perfect condition. _ . ^ . .,, r • ^ .,• .■ For orchards of 5 to 10 acres of large Tne above cut shows the I^ewis Combxnation Force Pump in use, and also our patent spray trees, or for any number of . smaller trees, nozzle, which can be changed from solid j^^. gpyaying potato vines, washing wag- stream to fine or coarse spray instantly, while r •: ^ ^ pumping. It is impossible to clog this nozzle, ons, white=washing hen houses, orspray- ingthem with kerosene, for ^forcing water pipes, or as an [ever ready fire ex= tinguisher, we would recommend the New Wonder Pump, and we guarantee that the outfit shall give you absolute satisfaction, or money refunded. Price of Outfit Complete, Express Paid, $6.00. ^ WARRANTED FOR THREE YEARS. ^ ^ We not only guarantee that our Brass Spray Pumps shall ^ g^ give you absolute satisfaction, but we warrant each one ^ ^ fully for three years. Every Spray Pump sold is put in a 3 fci strong box and the warrant pasted inside with our signature r^ ^ and seal. This is something no manufacturer of spray pumps ^ ^ in the world, except ourselves, does or dares to do. We res- :^ ^ pectfully refer you to any commercial agency in the United ^ SI States, or to Tanners National Banif, American or National Ex- 13 ^ press Co., or to Postmaster at Catskiil, N. Y., as to our respon- ^ fc= sibility and whether we will do as we agree or not. i:^ ^iUiUiUiUiiiiiiiUiiUUiUiUiiiiUiUiUiiiiUiUiUiUiUiUiUMiE^ p. 0. LEWIS MANTJFACTUKING CO., CATSKILL, N. Y. New Wonder Spray Pump. WITHOUT AIR CHAMBER. PRICE, EXPRESS PAID, $5.50. ' HE cut above illustrates the New Wonder Spray Pump without the brass air chamber. In this form it lacks about one second in fifteen of throwing a continuous stream. It sells for 50c. less, and we sell just as many without the air chamber as with it and we guarantee the pump to be exactly as represented. Parties can buy the pump in the above form and then in case they wish the air chamber at any time, it can be ordered separately and warranted to fit. It would only be necessary to unscrew the hose from the pump and screw the air chamber in place at A as shown on page 6 and then screw the hose into the air chamber at B. While we prefer the New Wonder Pump with air chamber attachment, yet the pump as shown above will do fully as good work and nearly as much. Our advice is, if you can afford to pay the 50c. extra (this being the actual cost to manufacture) for the air chamber, do so. If not, buy the pump without it, as you can add the air chamber any time you wish. Another important feature of the New Wonder Pump is that the work is all done on the down stroke, which is very much easier than when the work is done with a push and pull. EVERY PUnP WE SELL IS THOROUGHLY TESTED. We have a large testing room connected with our factory and every pump is thoroughly tested before shipping. We know that many manufacturers do not pre- tend to test their pumps before shipping, but suppose them to be all right, and the farmer or fruit grower is the one who tests them and perhaps finds a defect which prevents using the pump until he can get repairs from the factory; in the meantime the bugs and insects are putting in "full time." Kemember that our Spray Pumps are made of brass and thoroughly tested, fully warranted, and guaranteed to give absolute satisfaction or money re- funded. Can anything be more fair than thin? .\tANL-PACTTJRKRS Or SPRAYING APPABATUS. IHE LITTLE QIANT. PRICE $7.00. EXPRESS PAID. Fully Wirrjintcd for 3 YEARS. The Little Giant is the New Wonder Pump with lever attachment, which makes it much easier to operate for a considerable length of time. It also has the double mixer. Some of the advantages we claim for the Lit- tle Giant are : FIRST. The pump and air chamber are made entirely of brass and will last a life- time ; the lever pumps sold by other manu- facturers are made mostly of cast iron which will easily break, corrode, get out of order and become worthless. SECOND. It is fitted with our patent double agitator. It not only throws a strong stream back into the barrel at the base of supply keeping it boiUng up from below, but it also has a double paddle arrangement (as shown in cut) so that at every stroke the entire contents of barrel are thoroughly agitated. THIRD. It is fitted with a double strainer, and it is simply impossible to clog the Little Giant. FOURTH. It has a long leverage and is the easiest working pump to operate there is on the market. One reason for this is that the work is all done on the down stroke. This makes it possible to use a quick up-stroke for operating the agitator, while with other lever pumps it is a steady push and pull. FIFTH. The Little Giant has a strong, straight-grained hickory lever instead of a cast iron lever which snaps off like a pipe stem at a light blow. SIXTH. The lever can be detached in one minute and the pump can then be used as a regular hand pump for washing wagons, windows, sprinkling lawns, or as an ever-ready fire extinguisher. SEVENTH. When the Little Giant is removed from the barrel it can be instantly converted into a veterinary syringe or an agricultural syringe, thus making three complete brass machines, same as shown on pages 6 and 7 of catalogue. EIGHTH. The Little Giant is so constructed that it will work equally well in any depth barrel. Everything about the Little Giant has been made to conform to the most exacting requirements of our leading entomologists. Remember that we guarantee the Little Giant to come up to the representations above in every particular; that it is fully warranted for three years; is all brass; makes three complete machines ; is the easiest working, best and cheapest lever pump made, and is guaranteed togiveyou absolute satisfaction or money refund= ed. You take no possible risk in buying this pump, as in case it does not suit you it can be returned and we will refund your money promptly. The Little Giant is guaranteed to stand a steam gauge pressure of 200 lbs. It has ample capacity for orchards of 10 to 15 acres. 10 p. C. LEWIS MANUFACTUHING CO., CATSKILL, N. Y. r^^^j^\ ^^-999. A POWERFUL ALL BRASS . SPRAY FUA\F. THE DEFENDER has been construc- ted with a view to meeting the constant- ly growing demand for a Powerful Brass Spray Pump , for doin g a great amount of work with ease and dispatch. Is is the best, cheapest, easi= est=working and the most powerful Brass Spra^y Pump in the world. OUR OFFER IN BLACK AND WHITE. We will, upon receipt of price or satisfactory reference, send oneofthe "Defender" Vumps-LO anyone anywhere, to be put in competition with any other Spray Pump made, the pumps to be given a thorough trial, side by side. The party ordering to keep the pump which suite him the best and to immediately return the rejected pump to the party shipping the same, with the distinct understanding that the shipper of pump shall pay Freight Charges both ways, and in case the rejected pump has been paid for, the shipper shall immediately refund the fiill amount paid. Remember, this is our proposition, and we shall only be too glad to enter contests of this kind. We have faith in our goods and are perfectly willing that YOU should be the JUDGE. Some Reasons why "The Defender" is the Best. 1st. Because it is " UP TO DATE" and in its construction EVERYTHING has been made to conform to the MOST EXACTING requirements. 2d. Because it is ALL BRASS and will last a lifetime. 3d. Because it has the BEST AUTOHATIC MIXER ever put upon a pump. 4th. Because it has a Double Strainer that cannot become clogged. 5th. Because it has a HICKORY LEVER which does not (like cast iron) snap off at a light blow. 6th. Because the cylinder is Never Submerged, and will keep oiled much longer than one that is. 7th. Because it works best attached to the side of a barrel and allows you to Stand Over Your Work or where you can exert the Greatest Amount of Pressure. 8th. Because the valves are saturated with a solution that Will Withstand the action of ACIDS. 9th. Because it is air tight and yet can be taken apart WITHOUT TOOLS. 10th. Because it is the Most Powerful and Easiest Working pump on the market. A person weighing 130 pounds can Generate a Pressure of 300 pounds. 1 1th. Because it is fitted with Lewis's patent brass expansion valves which are air tight and never shrink from the cylinder. 1 2th. It is fully warranted for three years, and is guaranteed to give abso= lute satisfaction or money refunded. PRICE including 2 5-ft. lines of hose, 2 spray nozzles, stop cocks, etc., freight paid, $10.00. Price fitted to barrel ready for spraying as shown above |11.50. This price includes freight to points east of Mississippi River. MANUFACTUBERS OF 8PEAYING APPAEATDS. 11 DOH'T PO IT. The Defender with wheel attachment as shown above, $18.00. r^ON'T buy anything but an ALL BRASS *--' Spray Pump. Cast iron Pumps easily break, corrode, or get out of order and be- come worthless. We have received many let- ters from parties who have bought cast iron Pumps, who say they would be ''glad to sell them at the price of old iron," There is not a single argument to be used in favor of cast iron, except that " It is cheap," and yet you find that the manufacturers of cast iron Pumps are charging more than we do for all brass. DON'T buy a Spray Pump without a first-class Automatic fllxer. We shall be glad to have you compare the principles of our mixer with other " so-called " mixers. COHMON SENSE will convince any man that there can be nothing better than the CHURN DASHER PRINCIPLE which we use. You will find upon investigation that all, or nearly all, other Mixers are so ar- ranged that only the lower portion of the contents of the barrel is stirred, while the entire contents above a ten inch line from the bottom of the barrel is constantly settling. This makes the first half of the mixture TOO STRONG and burns the foliage, while the last halt is TOO WEAK TO DO ANY GOOD. Our Mixer, like the chum dasher with wide paddles, IS RIGHT. We use a QUICK UP STROKE with our pumps, which keeps the contents of the barrel in violent agitation. You must have a FORCE FROM BELOW to CARRY UPWARD the particles that SETTLE. In some Spray pumps (notably those with large Air Chambers) the Agi- tator works SO SLOW that it is of NO VALUE WHATEVER. DON'T buy a Spray Pump without a DOUBLE STRAINER. The outer strainer should be oval, to prevent clogging. Most Spray Pumps, except ours (we think all), simply have a flat or depressed wire Strainer, and leaves or other foreign substances are sucked against the Strainer from the outside until it becomes clogged. This is very annoying as well as inconvenient, as it is almost impossible to clean a Strainer of this kind without emptying the contents of the barrel. With our Pumps a thing of this kind cannot occur, as the outer Strainer is oval and the working of the Agitator immediately dislodges any foreign substance that may be drawn against it. DON'T buy a " push and pull " Pump, they are "MAN killers." A person can operate "The Defender" a' half day with less fatigue than he would experience in operating the old style "push and pull" Pump under pressure for a single hour. DON'T buy a Pump with a submerged Cylinder. Our Spray Pumps have brass Cylinders 24 inches long. They are never submerged, consequently you can pour several teaspoonfulls of oil on top of valve where it rides up and down and uses only as lubrication requires. Some manufacturers endeavor to economize at this point, byusing a short submerged Cylinder (onlyS or 10 inches long). Any oil they attempt to use rises to the top oftbe water. DON'T buy a Spray Pump that does not have Expansion Valves. Our Valves have BRASS Expanders. The Valves themselves are made of best oak tanned leather, which are iborougbly soaked in a preparation that will withstand the action of acids. This explains why our Valves stand the test while others fail. IN FACT, you will find that we are strictly "UP-TO-DATE" in bvbbything pertaining to Spray Pumps. We lead while others follow. We were the first to give a treatise on spraying FREE, others followed, but charged you from 3 to 10 cents for their catalogues ; but this could not last as we were sending wore and better infor- mation FEEE than others charged you for, and now, they will any of them be only too glad to send you catalogue free. 12 p. C. LEWIS MANUPACTUEING CO., CAT8KILL, N. Y. Spraying Fruit Trees. There is no branch of work on the farm or among fruit-growers that has received closer attention in the past few years than spraying fruit trees and vines for the destruction of insect pests and for controlling the various leaf blights and other diseases to which fruit trees and vines are subject, and now no fruit-grower expects good fruit without spraying his trees. Prof. Lintner, New York State Entomologist, says : i The operation of spraying is simple, inexpensive and so effective that it can- not be too strongly urged. It is safe to say that it will double the income from an orchard. No fruit grower can afford to dispense with it. Worm-eaten apples need not and should not be longer offered in our market. If produced at all, let them be fed to stock. How is the spraying to be done f To this question, which so many are asking, we reply : The first requisite is a proper force-pump. With our present knowledge of its capaJbilities, this implement should have a place on every farm. There are many good makes in market which are offered at various prices. Prominent among the low-priced ones is the Combination Porce-Pump manufactured by P. C. Lewis, of Catskill, N. Y. I have used this upon fruit trees and have found it to do satisfactory work, throwing a fine spray to quite an elevation. If, when attached to a tank and mounted on a wagon, it should fail (as so many of the higher-priced pumps do) to reach the tops of the tallest fruit trees, a longer hose (say eight feet in length) may be purchased and tied to a pole for its support and elevation. It has been estimated that the loss to our farmers and fruit-growers from noxious insects, fungi and leaf-blight is $400,000,000 per year. The only practical way of combating the insects, fungi and leaf-blight is by spraying your trees. By so doing you can effectually prevent a large share of this enormous loss. The experiments by our leading entomologists and horticulturists show that 75 per cent, of this loss can be prevented by the proper use of insecticides. The actual cost of spraying the average fruit tree does not exceed three to five cents per tree per season. Within the past two years, however, the United States government has taken hold of this work, and now there is an insecticide or fungicide for almost every disease to which the fruit tree is subject. The last pages of this book are devoted almost exclusively to insecticides, etc. , which have been made up under government tests, and our readers can get any information on this subject by reading them. MANUFACTUREES OF SPEAYING, APPARATUS. 13 THE TIME TO SPRAY. The proper time for spraying apple trees is when the blossoms are falling from the trees — at the time the calyx end of the young fruit presents a saucer- like depression for receiving and holding some of the liquid. The egg of the codling moth is deposited in this depression, and the caterpillar, when hatched, as it eats into the apple, necessarily eats some of the poison which remains after the water haa evaporated, and it is at once killed. Should heavy rains follow a day or two after spraying, the beneficial effects would be lost and it would have to be repeated. Although a single spraying should save from one-half to three- fourths of the fruit, its repetition after the lapse of about ten days would give HOW THE SPRAYING SHOULD BE DONE. With the pump and tank placed upon a wagon, drive between the rows of the orchard, and throwing the spray in as near a mist as possible, distribute it thor- oughly over a single row of trees at a time. With proper care every part of a tree can be reached in this manner. Cease spraying when drops of water begin to fall from the tree. The spraying is also effective against the Plum Curculio, as has recently been discovered, in protecting plums and cherries from its attack. It should be done earlier than for the codling-moth, as the curculio makes its appearance earlier ; and as this insect continues its injuries for a longer time, three or four sprayings at intervals give better protection from. it. As the foliage of the plum tree will not bear so strong an application of the arsenite as the apple, one pound of Purple to two hundred gallons of water ; cherry trees, one pound to three hundred gallons should be used. THE BENEFITS OF SPRAYING ARE THESE : It preserves the fruit from insect injury ; the fruit is larger, higher colored, of a richer flavor, and of better keeping properties, as the result of protecting the foliage (which is essential to the full development of the fruit) from being con- sumed by a score or more of insect pests which prey upon it in the early sprtng. INSECTS WHICH CANNOT BE KILLED BY ARSENITES. Suctorial insects, which take their food through a probosis which they insert into the leaves or bark, as for example, plant-lice, bark-Mce and all of the tree bugs, as tree bugs, the squash bugs, etc., cannot be killed by the application to the foliage of the strongest arsenites. For all of these such substances must be employed as effect them externally, by contact, as kerosene, hellebore, pyreth- eum, tobacco and alkalies. The best of these insecticides is kerosene, which is fatal to all insect life. In its natural, undiluted state it is dangerous to most vegetation, but it may be safely used when prepared (emulsified) as recommended hy the Entomological Division of the Department of Agriculture at Washington, as follows : KEROSENE EMULSION. Add two gallons of kerosene to a hot solution of one-half pound of soap in a gallon of water and churn the mixture through the nozzle of a force-pump until 14 p. r. LEWIS MANUFACTURING CO., CAT8K1LL, N. Y. it forms a cream-like mass. This may be kept unchanged until needed for use. For general use reduce the emulsion thus made with nine parts of water and apply through a force-pump — the three gallons of the emulsion making thirty gallons of the spraying liquid. Hellebore may be used either as a powder or mixed with water and sprayed in the proportion of half an ounce to a gallon of water. It is the special insecti- cide for the currant-worm, and for the sticky slugs of the rose bush, cherry and pear trees, and for the larvae of many of iihe saw-flies. Pyrethrum, when used dry, may be diluted with flour in proportions varying from one pound of the powder to four of flour, and even to ten or twenty pounds of flour for some insects. Its efficiency is greatly increased by letting the mix- ture remain over night in a -tightly-covered tin vessel. When mixed with water- one pound to fifty gallons of water has been found to kill the striped cucumber beetle when it was swarming on the blossoms of apple trees. Young canker worms have been killed by a mixture of one-half this strength. For the cabbage worm use a stronger mixture, not weaker than one pound to ten gallons. Pyretheum is not poisonous to human beings. Anyone who reads the agricultural papers of to-day cannot have failed to have seen the many testimonials which are being printed from time to time, on the results of spraying. Waldo F. Brown, in the New York Tribune of November 26, under the heading of "Fruitful Spray," says : Recently I saw two trays of apples, each containing 100. The fruit in one tray was taken from a tree which had been sprayed, and in the other from an unsprayed tree adjoining, the apples in both cases being taken as they grew, without assorting. The apples in each tray were divided into three grades- first, second and third, No. 1 being entirely free from wormholes and knots, No. 2 having one or two blemishes, and No. 3 being so small and knotty as to be worthless. In the tray occupied by apples from the unsprayed tree there were four first-class apples, fifty-eight second class and thirty-eight culls. In the tray containing fruit from the sprayed tree there were eighty-four perfect apples, nine second-class and seven culls. All that is necessary to protect apples from the codlin moth is to spray with Paris green, one-quarter pound to fifty gallons of water. The first spraying should be made as soon as the blossoms fall, to be fol- lowed by one or two others, depending on whether or not there be rain sufiicient to wash off the poison. I am troubled on my farm with leaf-blight on pears (not fire-blight) so that before the end of August many of the trees are defoliated. Visiting our Ohio Experiment Station at Columbus, I found that this had been prevented by adding to the water in which the Paris green was used four lbs. lime and four lbs. sulphate of copper to each fltfty gallons. The sprayed trees had perfectly healthy leaves ; adjoining trees, not sprayed, had ghed their leaves until the ground was covered with them. MANUFACTURERS OF SPRAYING APPARATUS. 15 Mortimer Whitehead, in Farm Journal, says, in regard to spraying grape vines : I have had some interesting correspondence with a number of practical fruit-growers in different parts of the country, through which I have learned of the gratifying results this new item in successful fruit growing — spraying is bringing to successful cultivators. I have thought that the experience of others might cheer some who have failed of their ideal, and that " seeing -they may take heart again." Grape growing, an industry with over $150,000,000 of capital invested, has been in some states and sections almost completely ruined and abandoned, because of the black, brown and other rots, mildews and other fungoid diseases. But results show that when the spraying with the copper and ammoniacal mixtures, as recommended by the U. S. Department of Agriculture, has been faithfully followed, that a loss of but 5 to 10 per cent, has occurred, while adjoining vine- yards, and even adjoining rows, not sprayed, have lost from 50 per cent, to all their crops. Mr. H. O. Fairchild, of the Lake Keuka,'N.Y., grape-growing district, writes : "My first experiment with spraying grapes was made in the first week of July, 1889. My experiment consisted in treating two rows in one vineyard and two and one-half rows in another. I sprayed with the Bordeaux mixture, viz., six pounds of sulphate of copper dissolved in three pails of hot water, adding thirteen gallons of cold water. In another cask I put five pounds of fresh lime (lump) slacked with two gallons of cold water ; then put the lime water in the sulphate of copper solution, stirring it well during the time of so doing. I used one of the Knapsack pumps for spraying. The two rows were the fourth and fifth in a vineyard of nineteen rows, of forty vines to the row. The mildew that precedes the brown rot was very plentiful on the leaves, and about 10 per cent, of the fruit was affected. Traces of the black rot were also visible. These rows were sprayed every ten days after the first week in July at four different times. The result showed that not an average of one grape to the vine of those sprayed was affected with the brown rot, and only about four quarts in all of those affected with the black rot found on the clusters of the two rows of eighty vines, while the loss on the balance of the vineyard was about 25 per cent. The exper- imental plot in the other vineyard gave silnilar results. A neighbor looking over the experiment in the latter part of the season remarked, that had I sprayed my entire vineyard as I had those rows, I would have saved $500 worth of fruit. " Owing to the unusually wet season, which developed the rots, some vine- yards lost 50 per cent, of their Catawbas. The experiment being so very satisfac- tory 1 made preparations for spraying all my vines the past season (1890). I purchased two more hand sprayers ; also a horse sprayer. I began spraying June 2 before blossoming, and covered all my Catawbas except a few test rows, using the Bordeaux mixture. June 1 there was mildew on the leave of both the 16 V. C. LEWIS MANUFACTURING CO., CATSKILL, N. Y, black and the brown rots ; also, about June 12, I found anthracnose on a few vines. The spraying checked this also, and the vines resumed their growth. I again sprayed as soon as the graps showed after the blossom, and did not com- plete it until the berry was the size of a large shot. The weather was favorable for the development of the mildews and rots the entire season. I could readily see that the experiment was again a success. I again went over the vineyards with the ammoniated carbonate of copper solution, between July 20 and August 5. The results were that no fruit was lost by rots. The foliage was healthy and did not drop until full ripe and from the frost November 10. The fruit ripened and was of a fine color and bloom, while in vineyards not sprayed there was a loss of from 10 to 50 per cent. The foliage was badly affected and a large portion of it prematurely died and fell off. The fruit consequently was not well ripened and was of inferior quality. The experiments of several other growers in this locality are similar to mine." Another successful and practical vineyardist, Mr. George M. High, of Middle Bass Island, Lake Erie, gives the results of his experience with spraying, as follows : " For five years I have been using the copper preventative for mildews and rot of grapes — the first two years the Bordeaux mixture, the last three, Eau Celeste, as per formula of the Department of Agriculture. In no case, where the preventative was applied in time, has it failed to prove an effectual remedy. I have sprayed ten to twelve days before blooming, then again just after the blos- som has fallen ; then two or three times afterward — depending upon the weather. Nearly all grape-growers upon this island had seen the benefit from my work in previous years, and the past season more than 200 acres of Catawbas were sprayed, making an average increase of over 3,000 pounds to the acre over vines of the same varieties unsprayed, and a difference in money value of fully $100 per acre. The cost, outside of sprayer, does not exceed $1 per acre." A recent experiment of the Ohio Agricultural Station gave the following results from spraying : They gathered at random 100 apples from a sprayed tree. Those were divided into three classes. There were 87 that were perfect, seven that were second-class and six that were worthless. Prom an unsprayed tree adjoining they gathered 100 apples at random. Only /our were perfect, forty- three second-class and fifty-three worthless. The result of experiments on adjoining cherry trees was equally in favor of spraying. It was as follows: Prom 1,000 cherries gathered at random from a sprayed tree there were 835 perfect, 165 wormy, from the unsprayed tree, only 1S7 perfect and 873 worthless. We have a large mass of testimonials before us on the benefits of spraying which we are unable to give for lack of space. There will be many testimonials found on the importance of this work on the previous pages of this book. The time is soon coming when every farmer and fruit-grower will think as much of having his spraying outfit as he now does of having any of the necessary implements on MANUFACTUKERS OF SPRAYING APPARATUS. 17 the farm. All of our State Entomologists are urging upon farmers the impor- tance of this work. Spraying outfits at the present day can be bought at a low- price. The outfit described on the sixth page of this book has ample capacity for orchards of twenty acres, and is endorsed by the leading Entomologists of the United States. SPRAYING. The article below was taken from Farm and Fireside, published at Spring- field, O., and is a portion of a report read before the Ohio Experiment Station recently. "An interesting report on spraying was made by W. J. Green, of the Exper- iment Station. Charts were exhibited showing results of spraying with Bor- deaux Mixture for apple scab. He showed that the effects of the scab was to reduce size and diminish keeping qualities. The experiments were made among orchards of thirty acres that produced 1,000 bushels of apples, so the scale was large enough to warrant his conclusions and be of practical value commercially. Scabby apples numbered 317 to the bushel, unscabby, naade so by spraying, 202, the former being but two-thirds as large. Scabby ones weighed 2.8 ounces, the others 4 ounces. A table was given showing the actual result in sales. A given quantity of Newtown Pippins, unsprayed, $22.80; sprayed, $48.91 ; Benoni, $28.60 and $56.70 ; Northern Spy, $41.90 and $65.95 ; Roman Beauty, $39.70 and $73.44. The orchard was three miles distant, and two naen were employed to do the work. It costs fourteen cents per tree. Pour sprayings were given, the first with Bordeaux mixture alone, the next with Paris green added for codlin moth, and the last pure. There was a marked difference in the appearance of the sprayed trees ; the foliage hung on later, the fruit matured more perfectly and was really more valuable, aside from its finer appearance. The mixture was : Four pounds of sulphate of copper, four pounds of quicklime, fifty gallons of water. For second and third sprayings, four ounces of Paris green was added. The cost for fifty gallons was thirty cents. 18 p. f. LEWIS MANUFACTUniNG CO., OATSKILL, N. Y. Fig. I — King, sprayed six times ^vith Bordeaux Mixture. Showing relative proportion of first, second and third grades respectively. Fig. a— King, not sprayed. Showing proportion of first, second and third grades respectively. MANTJFACTUEBIiS OF SPRAYING APPARATUS. 19 Fig. 3.— Fall Pippin, sprayed six times with Bordeaux Mixture. First, second and third Grades. Fig. 4.— Fall Pippin not sprayed. Showing first, second and third grades. 20 p. C. LEWIB MANUFACTUBING CO., OATSKILL, N. Y. ^^ N the two preceding pages are shown four trays of apples, tasen from AC I photographs. The trays 1 and 3 are of apples from trees which had I ' J heen sprayed, while trays 2 and 4 are the same kind of apples from the ^i^' same orchard, and treated exactly like No. 1 and No. 3, except that these trees were not spraiyed. This is an absolutely fair test of the benefits of spraying, and by parties who had no other object in view than to benefit the farmer and fruit grower by giving them the results of. these carefully conducted experiments. Below you will find quotations from this report : TABLE III — SHOWING THE PEE CENT. OF FIRST-CLASS APPLES PRODUCED IN THE DIFFERENT PLOTS. TREATMENT Unsprayed Bordeaux Am. carb. copper Paris green Fostite and Paris green. . . Postite and London purple Per cent. of first-ciass appies J Per cent, increase of eacli of each variety. 1 variety. King. Faii lUaiden King. Faii lUaiden PipDln. Biusii. Pippin. Biusii. 25 1 15 76 62 48 204 6000 2200 57 23 128 2200 57 30 128 2900 40 7 60 600 33 32 The decided superiority of the Bordeaux mixture can be seen at a glance. In no case did any other fungicide give results which approached in excellence those obtained from this mixture. Nor is its value fully shown by the number of apples in the various grades, for the general appearance of these apples was so superior that the fruit of the Bordeaux lots could be identified at sight almost with certainty. This superior appearance was mainly due to the uniform size of the apples their regular form, and the smoothness of the skin. Pig. 1 illustrates these points well. The regularity with which the first-class apples could be piled upon the trays is particularly to be noticed. Little remains to be desired as regards uniformity of fruit. The general effect of six applications upon King ana Pall Pippin apples may be obtained by comparing Pigs. 1 and 3, these representing treated apples, with Pigs. 2 and 4 showing fruit which was not sprayed. With the more susceptible varieties it is evidently a question of crop or no crop, and the answer is in the hands of the grower. In comparing the illustrations it must be borne in mind that among the sprayed lots were a great many apples graded as seconds, which really were first-class apples, only they did not bear the test of sufBcient freedom from scab. The general appearance of the seconds of the unsprayed lots "was markedly inferior to the same grade of the sprayed lots. The ammoniacal carbonate of copper most nearly approached the Bordeaux mixture in the value of the results obtained. Although the average increase of first-class apples, 128 per cent., is the same as that given by Paris green, still the general appearance of the apples treated by Paris green and carbonate was MANUFAOT0HKR8 OF SPRAYING APPAKATUS. 21 plainly in favor of those treated with, the ammoniacal solution. The flrst-class apples of this last were almost equal to the same grade of those treated with Bordeaux, while those treated with Paris green were not. More small spots of scab could be found upon the latter and the apples were unquestionably inferior. However, in the general market most of them would have been classed as firsts. Size and color of the sprayed fruit. — The size of the apples was in some cases very plainly affected by the applications, and possibly also the color. On this latter point there was a difference of opinion, just before the apples were picked. The apples were sold while still upon the trees and the buyers very soon discov- ered an unsprayed tree and wanted to know what was the matter with it. It was his opinion that the color of the sprayed fruit was deeper and brighter, and oth- ers affirmed the same, but the point is open to doubt. Many varieties of apples will color beautifully if the sun is allowed to shine upon them even after they are picked. To show the gain in size of fruit from spraying, a Maiden Blush tree was taken, it being the only tree of the kind in the orchard. One-half of the tree was sprayed with Bordeaux and the other half was not touched. When har- vested, 100 average apples of the unsprayed side weighed 24i pounds, while an equal number similarly chosen from the other half of the tree weighed 37f pounds ; a gain of over 64 per cent. This difference was forcibly shown in another way ; in fact, so plainly and conclusively did it show the value of spray- ing apples susceptible to the attacks of the scab that it alone would convince the most skeptical that the operation is a paying one. One hundred average un- sprayed apples filled a half-bushel basket evenly full ; one hundred of the average sprayed apples filled a bushel basket evenly full. Thus the bulk of the crop of Maiden Blush was practically doubled. At the same time, the energy of the trees was taxed but little more, as the production of the seed in the apple is more exhaustive than the production of the flesh. FINAL RESULTS. It will undoubtedly be interesting to follow the apples from this orchard into the markets, and thus determine what relation the spraying of the fruit bore to the price received for it. Through the kindness of the buyer, J. H. Gail, com- mission merchant in Buffalo, N. Y., lam able to give his report on this point. His statement regarding the appearance of the fruit, before harvesting, in the apple orchard of John J. McGowen was "one of the finest it h as ever been my pleasure to see. The fruit having been picked and barreled for extra fancy trade, did not show over two or three per cent, of culls ; and the cull fruit when packed made a very good grade of second quality. There was practically no fruit, usually known as cider apples, in the orchard." The following letter relates to the sale of the apples in Buffalo : " The apples were as fine as anything I ever saw in the shape of Kings, even those rated as 2d's or No. 2's being as good as the ordinary run of No. 1 fruit; in fact, they sold at the price of other No. I's. We commenced the trade on them as soon as they arrived here, to some of our buyers of fancy fruit, at $4.50 per barrel in job lots. I think had we put the price at $5.00 we should have got it ; in fact, we did get it for a portion of them, while the ordinary run of Kings and so-called No. I's sold in single barrel lots at the same time at $3.75 to $4.00. We think they went out fully f 1.00 per barrel better than the average run of Kings, and all who had them were anxious for more." Buffalo, N. Y., Nov. 14, 1893. J. H. GAIL. 22 P. 0. LEWIS MANUFACTURING CO., CAT8KILL, N. Y. The following letters indicate the attitude of leading fruit growers of this state regarding the spraying of orchards : " In my opinion, spraying is a work of inestimable value; indeed, I believe no man engaged in growing apples can afford to dispense with it. He should spray both with reference to the work of insect life and fungi. It should be done at least twice in the season and every year. The operation is inexpensive, and will pay a larger percentage on the investment than any other outlay of an equal amount." Geneva, N. Y. S. D. WILLARD. ■'After five years' experience in spraying with insecticides and fungicides, I am sufficiently satisfied to plan for the future to do the work more thoroughly than it has yet been done. I have found that Paris green not only avoids a large per cent, of the codlin moth's depredation, but it also has the effect of destroying the tent caterpillars, and other leaf-eating insects that destroy much of the foliage during the period when it is most needed to perfect the development of wood and buds for the fol- lowing year, as well as the fruit of the present. There is no doubt but that much of the failure of the orchards of New York for the past ten years has been due to insects that have annually denuded the trees of a large amount of foliage, and there has been a formation of fruit-buds of low vitality. The same effect has been produced by a steady increase in attacks of apple- scab fungous upon both fruit and foliage which the trees have not been able to resist, and I have seen fruit over entire counties in Western New York fall to the ground, within a week after blooming, from the effects of apple scab fungous; and the young foliage was as sear as if a frost had injured it. When using Paris green I apply one pound to 250 gallons of water. If used with Bordeaux mixture one pound to 200 gallons. A very thorough, even distribution of the mixture is m.ore essential than quantity. I have used four pounds of copper sulphate and three pounds lime to 50 gal- lons of water with satisfactory results on apple, and particularly so on quince, the past season, as also with grapes. These were sprayed three times, with twelve or fifteen days intervening ; the fruit was clear in color, and improved in quality- No fixed time can be sot for the spraying. The fruit grower must study the conditions, which vary with each season. Some varieties are more susceptible to fungous attack than others, as the Spitzeaburg and Cranberry Pippin, among apples, and the White Doyenne and Flemish Beauty among pears, and these require more thorough treatment than others. " Ghent, N. Y. GEO. T. POWELL. " I made one experiment in which about one-sixth of a R. I. Greening tree was sprayed with Paris green, using one pound of the poison to 200 gallons of water. As no rain fell soon after this application, a second one was not deemed necessary. When the apples were harvested the sprayed portion yielded 534 sound apples, or 4 bushels ; and 48 wormy apples, or about J bushel. The un- sprayed portion yielded 216 sound apples, or H bushels ; and 91 wormy apples, or i bushel. Many wormy apples fell from the unsprayed portion during the sea- son ; as this was not the case with the part sprayed, the above figures are very partial to the side that was not sprayed. The sprayed apples were larger, of MANUPACTUEERS OF SPRAYING APPARATUS. 23 better color, and showed less scab. The man who came to buy my crop saw the sprayed side of the tree first, and actually gave me 5 cents a barrel extra for alt my fruit, although most of my orchard consists of green instead of red varieties " PEKUVILLE,N.Y. C.E. CHAPMAN. SPRAYING PEARS. Prof. §. A. Beach, of the Geneva Experiment Station, gave an interesting lec- ture recently on experiments, in spraying for the pear scab. His experiments resulted in some marked efleGts. Some sprayed Seokel trees produced fruit that ■sold at $2.25 to $2, 75 per bushel; those unsprayed, $1.75 to $2.00. On White Doyennes not spfa^ed there was no first-class fruit. The difference in price was such that trees where sprayed produced fruit to the value of $5.00 per tree, while unsprayed trees brought less than 90 cents per tree. Professor Beach said many did not seem. to understand the exact object of spraying for scab. 1 1 simply prevented the fungous growth, and it was necessary that the liquid should touch every portion of the branches and leaves to be thoroughly efflcient ; a branch that did not receive the spray, received no good from the spraying of other branches ; for this reason only careful men should be set at the work. TO WHAT EXTENT DOES SPRAYING WITH FUNGICIDES PREVENT THE APPLE SCAB? A conparison of tbe results oljtained. with several varieties will throw some light upon 'this question;-. Dilutfed'-Bor'dfeaux mixture was used upon all through- out the season, except Rome Beautyjlto which it was applied twice, followed by two sprayings with Modified Eau Celeste. ■ TABLE III,.— Effect- of. Spraying, as Shown by Different Varieties. VARIETY. Bononi, sprayed. " not sprayed Northern Spy, sprayed " " not sprayed. . . Nev/town Pippin, sprayed.... " " not sprayed Rome Beauty, sprayed " " not sprayed. .. Per cent, in first class ; free from scab. 56 7 15 00 93 1 Per cent. in second class somewhat scabby. 58 43 80 74 40 7 80 Per cent. in tliird class ; very scabby and unmarketable. 7 38 1 13 11 60 00 19 24 p. C. TjICWIS MANUFACTUHING CO., CATSKILL, N. Y. Plates VIII, IX, X, XI, XII and XIII present the same facts to the eye in a more striking manner. The percentages were obtained by assorting ten bushels of sprayed and ten of unsprayed apples of each variety into three grades, viz.; those free from scab, those somewhat scabby, and those that were so scabby as to render them unmarketable. Similar results were obtained with three other varieties not here shown. The plates were made from photographs, which were taken from average specimens of the different classes. The plates show the same percentages as those given in Table III. For instance, of the sprayed Benoni, 85 in each 100 apples were free from scab, while in the unsprayed only 4 of the same class were found, and so on for the different classes of the several varieties. One hundred apples were photographed in each case, and the number in first, second and third classes shows the results obtained by spraying, also where no treatment was given. MANUFACTURERS OF SPEAYINfi APPAEATUS. 25 Plate IX. Benoni, not sprayed. It appears from these exhibits that the greater part of the apples of these varieties are subject to scab, and that spraying will not wholly prevent the dis- ease. Better results could no doubt be obtained in a more favorable season, but at best the remedy is a partial one only. There is a gain with all varieties by spraying, but more with some than with others. If we make only two classes, viz : scabby and not scabby, there was a gain of 81 per cent, in Benoni, 49 in Northern Spy, 15 in Newtown Pippin, and 92 in Rome Beauty. This, however., does not fully represent the benefits, as will appear further along, nor is it possi- ble to state in percentages the exact extent to which scab is prevented by spray- ing, since there may be considerable variation in degree of scabbiness and yet not change the classification materially. It would be unsafe to attempt to gener- alize any further than to say, that spraying varieties that are subject to scab, with fungicides, prevents the scab in a great degree. 26 p. C. LEWIS MANUFACTURING CO., CATSKILL, N. Y. Plate X. Northern Spy Sprayed; ist class 56, 2d class 43, 3d class i. SIZE OF APPLES AS AFFECTED BY SPRAYING WITH FUNGICIDES. If spraying with fungicides were a perfect remedy the gain in the size of apples would be much greater than it is possible to secure by means of remedies now known. The gain with Newtown Pippin, as shown on a succeeding page, would be more than 50 per cent, if perfect results could be secured, but in prac- tice the gain was only 10 per cent. With Benoni a gain of 20 per cent, was obtained, with Northern Spy 23, and Rome Beauty 36. These percentages were obtained by the countings above referred to, and represent the actual gain in size of the sprayed over the unsprayed, taking the entire number of apples in each ten bushels, first, second and third classes. To show the eSect of the scab on the size, scabby apples were compared with those not affected ; but to show the effect of spraying on the size, the comparison is made between sprayed and unsprayed, each taken as a whole. The effect seems to be quite unlike upon different varieties, and it would hardly be possible to draw conclusions from these figures as to the probable effect upon other varieties. The good effect upon the Rome Beauty was largely due to the beneficial action of the fungicide upon the foliage, as the sprayed trees retained their foliage much longer than the unsprayed. The increase in size by spraying any variety of apple with fungicide will depend upon variable condi- tions, such as locality and season ; but some increase may be expected upon most MANUFACTDRBES OF SPRAYING APPARATUS. 27 Plate XI. Northern Spy, not Sprayed; ist class 7, 2d class 80, 3d class 18. varieties in nearly all cases. Increase in size of the apples is a comparatively unim- portant consideration in spraying, yet this alone would pay upon many varieties. RATIO OF MARKETABLE APPLES AS AFFECTED BY SPRAYING WITH FUNGICIDES. In assorting into different grades, all that were marketable were put into the first and second classes, while those of the third class were fit only for cider or to- feed stock, and were classed as unmarketable. TABLE IV. — Ratio of Marketable Apples as Affected by Spraying. VARIETY. Benoni, sprayed " sprayed Northern Spy, sprayed " " not sprayed. . . Newtown Pippin, sprayed. . . . " " not sprayed. Rome Beauty, sprayed " " not sprayed. .. . Per Cent. Per Cent. Marketable. Unmarketable. 93 Y 62 38 99 1 87 13 89 11 40 60 100 00 81 19 This makes a very decided showing in favor of the sprayed apples. There was a gain of 31 per cent, with the Benoni, 12 with the Northery Spy, 49 with the i8 p. C. LEWIS MANUFACTURING CO., CATSKILL, N. Y. Plate XII. Newtown Pippin, Sprayed; ist class 15, 2d class 74, 3d class 11. Newtown Pippin, and 19 with the Rome Beauty. W.ith some varieties the differ- ence caused by spraying would be much less — in fact cases might occur where "there would be no appreciable increase of marketable product of sprayed over imsprayed ; but with most varieties spraying with fungicides would increase the number in the first class. It would also prevent the unsightly blackened and sooty appearance often seen upon varieties that are not otherwise affected, and it a,lso has a tendency to heighthen the color of red apples and to give a blush to the light-skinned sorts. This may be due largely to the effect upon the foliage, but it was quite marked in some cases. Baldwins and Greenings that were operated upon in Ottawa county, Ohio, where the scab was not seriously prevalent, were henefitted more by the fruit hanging better upon sprayed than upon unsprayed ■trees, than in any other particular. This increased the marketable product upon sprayed trees, because there were fewer windfalls ; but no notes were taken to show the amount of benefit. The same facts were noted in Lawrence county, but at Columbus the apples were picked too early to note the effect. It thus appears that the table does not fully show the gain in marketable product by spraying. The estimates may be considered as conservative for the varieties named. {Continued on page 30.) MANCFACTUKERS OF SPRAYING APPAHATl'S. 2& Plate XIII. Newtown Pippin, not Sprayed; ist class o, 2d class 40. .3d class 60. 5PRAYINQ APPLE TREES. The effect of spraying apple trees with London purple to prevent ravages of the codling moth or apple worm is well illustrated by the experience of Mr. Lupton, of Virginia, as stated in a recent issue of Insect Life. The work of spray- ing was undertaken in Mr. Lupton '3 orchard, but was discontinued when less than one-third of the trees had been sprayed. From these trees 1,000 barrels of apples nearly free from worms were gathered, while from the remaining two-thirds of the orchard only 883 barrels of sound fruit were obtained, quite one-fifth of the apples from the unsprayed trees being wormy and unfit for use. Mr. Lupton estimates that his returns from the orchard would have been increased $2,500, had all the trees been sprayed. John L. Shawyer, editor of the Logan County Index of Bellefontaine, Ohio, writes: "An experiment made at the Ohio Experiment Station recently on spraying apple and cherry trees gave the following result. Two apple trees and two cherry trees were selected and one of each was sprayed. When the apples were gathered there were taken 100 apples from each. The 100 taken from the sprayed tree gave 87 first class, 7 second class, 6 worthless. Unsprayed tree gave 4 first class, 43 second class, 53 worthless. Cherries. — From the cherry trees 1,000 were taken from each tree. Those taken from the sprayed tree gave 835 first class, 165 wormy. Unsprayed tree gave 127 first class, 873 worthless. 30 p. C. LEWIS MANDFACTUBING CO., CATSKILL, N. Y. MARKET VALUE A3 AFFECTED BY SPEAYIKG WITH FUKGICIDES, Taking increase in size and increase in marketable product both into account, it is easy lo see that the market value of sprayed apples would considerably exceed the market value of unsprayed. Improved appearance also is a factor that is not to be overlooked. In order to put the market value of sprayed and unsprayed apples to the test, equal quantities of each were put upon the market and sold for what they would bring. A suflScient quantity was taken in each case to make the test conclusive. The calculation is made on one hundred bushels, for convenience in illustration.* TABLE V. — Market Value as Affected by Spraying. VAEIETT. Benoni, Sprayed Beuoni, not Sprayed Northern Spy, Sprayed Murtheru Spy, not Sprayed Newtown Pip"in, Sprayed. . . : . N ewtown Pippin, not Sprayed norae Beauty, Sprayed Kojie Beauty, not Sprayed — Value of 100 Bushels in Mavket. Increase in Value of Sprayed over rjnsprayed. *56 70 38 60 $28 10 $65 96 41 90 34 05 $48-91 23 80 £6 11 $73 44 39 70 33 74 It appears from the above exhibit that spraying greatly increased the market vnlue of all the varieties named, and in the case of Newtown Pippin the value was more than doubled. The difference was also quite marked with Bellflower and Smith's Cider, but less so with Baldwin and Greening. Complete notes were not taken on these, hence they are not included in the table. Sincethecost of spraying did not exceed two cents per bushel, and the average increase in value was twenty-eight cents, it will be seen that the operation was profitable. ' The sprayed apples sold at a higher price than the unsprayed, and yet went off more readily and quickly. This difference alone would, in some cases, pay for the spraying, in time saved and marketing. Not only does spraying save time and marketing, but as has been shown in previous pages, it makes marketable that which could not be sold otherwise. Had the varieties named been stored, and not put upon the market until late winter or spring, the difference in value of 100 bushels, sprayed or unsprayed, would have been still greater. An experiment to test the k-eeping qualities of sprayed and unsprayed, not yet completed, shows that the sprayed are keeping much the better. This item would have a decided effect on the balance in many cases. On the whole, the result as it stands is satisfactory. The work was undertaken and carried out on a commercial scale in order to determine what profit there is in spraying. Table V gives a very clear and forcible answer for the varieties named, and for one season. More or less variation may be expected for other varieties in different loealities, but those who are in the best position to know feel sure that spraying with insecticides and fungicides is a necessity in successful orcharding. ^^^^ ^^ spraying. The cost of spraying will, of course, vary with the facilities for work and with the skill of the operators. Copper sulphate can be had for about six cents per pound by the barrel, but the price is somewhat higher in smaller quantities. To spray large trees thoroughly nearly one pound per tree is required for four sprayings, or for the season. For trees fifteen to twenty feet in height it is safe to estimate three-fourths of a pound per tree. Three men can spray 200 to 300 such trees in one day. This brings the total cost, including two applications of Paris green, below fifteen cents per tree for large trees, during the season, and less for smaller trees, according to size. This estimate is for dilute Bordeaux mixture and Paris green. ° WHEN TO SPRAT. It should be borne in mind that spraying with fungicides is preventive rather than remedial, hence the first application should be made early in the season. Some results obtained the past season indicate that early spraying is the key to success, and experimenters generally have urged this point. The first application should be made before, or about the time that the leaves open. The Bordeaux ♦Cider apples are ra.ted at ten cents per bushel, and the other grades for just what they brought in the market. MANUFACTUKERS OF SPHAYING APPARATUS. 31 mixture alone may be used at this lime, particularly if the work is done before the leaves open, but it delayed until a few days after the buds start, and canker worms are known to be present, it is well to add Paris green or London puri)le. The second spraying should be made immediately after the blossoms fall. This application should not be delayed several days, and it is well to commence as MKin as the greater share of the blossoms have fallen. There is no necessity of c< niniencing before this time, nor is it advisable. For this application t)ie combi- uaiiou of fungicide and insecticide should be used, i. e., dilute Uordeaux njixture and Paris green or London purple, the insecticide being to destroy the apple worm. The third application may be made a week or ten days from the time of the second, and with the same materials. If either ammonia'cal copper carbonate or modified eau celeste is used the Paris green or London purple must be applied alone, since the ammonia present in these solutions renders the arsenite soluble, which endangers the foliage. The fourth and last application for the season should be made in about two weeks from the time of the third, and dilute Bordeaux mixture alone used. For early ripening varieties the fourth application may be omitted, or the time between applications lessened. This is to avoid leaving a coating of the mixture on the fruit when ripe. In some of our work the past season seven applications were made, but in a j.drt only four were given. The success with the latter number was so good that it seems safe to advise that number of sprayings. It is important, however, to observe closely the time advised for the first and second applications, since success depends more upon these than the subsequent ones. If the weather is rainy during the spraying season it is better to keep the work going than to wait for dry weather. Of course it would be impracticable to spray during a rain-storm, nor would it be best to spray immediately before, but if the mixture has two or three hours in which to dry before a rain, it will adhere so closely that but little of it will be washed off. Much of it will remain for weeks, even during very rainy weather. One application made before a storm was repeated the past season immediately after a heavy rain, but with the mixture advised this is hardly necessary, except for a few trees that were sprayed just before the rain came. It is better to spray at the proper time than it is to wait for dry weather. CO-OPEEATIVE EXPEEIMEKTS. Following is the report of an experiment in spraying for apple scab made in co-operation with the station in Lawrence county, Ohio : SiK :—l have the honor to submit herewith my report of experiments for the prevention of apple scab, made in Nelson Cox's orchard, located five miles from the Ohio river, north of Huntington, W. Va., in I..awrence county, Ohio. W. J. Gkeen, V. T. Cox, HorctiuUurist, Ohio Experiment Station. Ensee, Ohio. The variety of apples experimented on was the Kome Beauty. They were sprayed the first time just after the bloom fell. I sprayed the first two times with the dilute Bordeaux mixture, adding London purple as an insecticide. The last two sprayings was done with modified eau celeste. The Bordeaux mixture is preferable for all four sprayings. The Vermorel nozzle was used. I sprayed about 175 trees, small size, in one orchard, eastern slope, altitude about 800 feet above sea-level. I selected two trees of the same size as near as I could judge, in the same row and thirty feet apart. Sprayed May 5. 15, June 3 and 23, with frequent rains from June 10 to 22. Picked October 28, 1891. The results are tabulated below : TREATMENT. Total Yield in Barrels. No First-olass slightly Scabby. No Second class, free from Scab Spots. No Third-class, very Scabby. Nearly 1 2 None. 540 188 268 540 Sprayed tree 40 The leaves fell prematurely from the unsprayed tree, and the apples ceased to grow, so they were small and dark-colored, while tHe ones on the sprayed tree grew to good size and had a very bright red color. I sprayed May 4, 14, 26, June 23, about 300 trees in another oroharc. The two I selected stood on the north side of a hill, on comparatively low ground, altitude about 750 feet above sea-level. The leaves fell prematurely from the unsprayed tree here also. Picked October 14. The unsprayed tree had just one barrel, the sprayed tree two and two-thirds barrels. I sent one barrel of each to the 32 p. C. LEWIS MANUFACTURING CO., CATSKIL.L, N. i'. Station, so I had none of the unsprayed to compare with the remainder of the sprayed. There was just one peck of culla in the remaining one and two- hirds barrels, the others being first class and nearly all free from scab spots. You know the result of the two barrels sent you. (See table III). There were 800 apples in the barrel of unsprayed and 590 of sprayed. I sprayed one row May 5, 15, June 3, 24, on very high ground, nearly 1,000 feet above sea-level. The trees were old, the two selected stood in adjoining rows. Leaves had not fallen from the unsprayed trees here. I did not count the apples from these two, I just sorted and barreled them. The result is below : TEEATMENT. Unsprayed tree. Sprayed tree First-class. Culls. One and four-fifths One Barrel and one and Barrels. 1 one-half Bushels. Three and one- j One Bushel, third Barrels I The unsprayed apples were rough to the touch in every case, while those sprayed were very smooth and bright. A person can shut his eyes and tell the difference by feeling. The finest apples were ou the lower limbs where they were sprayed ; in the top were unsprayed. On low ground the unsprayed apples were very dark, and would be worth from twenty-five to fifty cents less per barrel than the sprayed ; first-class apples as to size in both cases. On high ground there would be but about twenty-five cents difference per barrel of the same class. The cost of spraying young trees that would yield about a barrel each, 1 find it to be about six cents per tree for the season. Those that would yield two barrels each about nine cents, and those that would yield four or five barrels, twelve to fifteen cents for the four sprayings. SPBAYIKR TO PREVEHT PEAR SCAB. Experiments were unoertaken in the control of this disease, both at Columbus and in Ottawa county, the object being not to find a preventative, since it has been demonstrated by other experimenters that the copper salts are specifics for the disease, but to compare various compounds that had been recommended, and to determine to what extent the remedies were practicable on a commercial scale. The results obtained were incomplete for the reason that the pear crop at the Station was nearly destroyed by frost, and :the scab did not develop to any extent on the fruit in Ottawa county. The small quantity of fruit which developed at the Station was very scabby, but the superiority of the sprayed portion was evident. No notes of value could be secured, however. A quantity of sprayed and unsprayed Vicars were put into the cellar for exhlbiton purposes, and not examined until December 1. At that date about one- half of the sprayed pears were found to be sound, while fully ninety-nine per cent, of the unsprayed were decayed. Had such a difference in keeping qualities of sprayed and unsprayed been anticipated, more careful notes would have been taken, on both early and late varieties, although the material was too scanty to warrant drawing conclusions. It seems to be true that both pears and apples that are affected by scab are more prone to rot than those free from it, but it is not known that any experiments have been made to determine the degree of difference. t The effect of spraying was very marked upon the foliage, and was in accord with the results reported by others. More or less of the foliage fell prematurely from the unsprayed trees, all varities not suffering alike, however. Some were nearly bare in August, but the sprayed trees of all varieties retained their foliage until late in the autumn. A full account of the different mixtures cannot be given, since these were tested at the Station only, where nearly all the fruit was killed by frost. Dilute Bordeaux mixture and modified eau celeste were about equally beneficial, but the latter injured the foliage to some extent. The ammoniacal copper carbonate was less beneficial than the above compounds, but the difference was not great. The ammonia-copper solution injured the foliage to such an extent that it was discon- tinued after the first application. (2.) SPRATIKG FOE THE PLUM CURCULIO. The plum curculio experiments carried on at the Station in 1888, 1889, and 1890, in Ottawa county, by Prof. 0. M. Weed, were so conclusive that it seemed unnecessary to repeat the work the pas* season. Several orchards in Ottawa county were sprayed by the owners, and the same one that was under the supervision of the Station in 1890 was again placed at its disposal. No experiment was attempted, as in 1890, to determine the relative eiBciency of jarring and MANUFACTURERS OP SPRAYING APPARATUS. 3.8 spraying, but the whole orchard was sprayed. Possibly this is as severe a test as when a portion of the trees are jarred, at least the result must be regarded as evidence of practical value. Spraying gave satisfactory results, so far as preventing the work of the curculio is concerned, in this and In several other cases It is now quite generally regarded as an efficient remedy in that section and much cheaper than jarnng. A few still adhere to jarring, however, chiefly because of the liability of injuring the foliage with Paris green. In order to ascertain to what Extent spraying was successful the majority of the plum growers on the Peninsula, near Lakeside, were visited and their opinions founded upon their experience and observations, obtained. John Zalms used three ounces Paris green to 100 gallons of water and made three applications; varieties; Lombard, Union Purple, German Prune, Green Gage and Yellow Egg ; whole number of trees, 300. He states : " I have'always jarred my plum trees before, and the time required was worth the crop. This year spraying was about one-fifth the expense of jarring, and some varieties gave a crop that have never borne before." B. H. Elwell used two ounces Paris green to fifty gallons of water, and sprayed three times. For the first spraying he used dilute Bordeaux mixture with Paris green, and Paris green alone for the subsequent applications ; varieties : Lombard, Geuii, (ireen Gage and Union Purple. He says : "Spraying plums has met every expectation." E. F. Elwell used the combination of dilute Bordeaux mixture and Paris green for the first application, and Paris green alone at the rate of three ounces to fifty gallons of water for the subsequent ones, making three in all ; varieties : Geuii, Bradshaw, Lombard and Monroe Gage ; 200 trees in all. He says : "lam quite well satisfied with plum spraying this year, but shall use dilute Bordeaux mixture for the first two sprayings hereafter." Hartin Kihlkin used two and one-half ounces Paris green to fifty gallons of water, and made three applications; varieties: Lombard, Union Purple, Damson and Green Gage; 300 trees in all. He says: "I am satisfied that I can prevent the injury by curculios as effectually, and with less expense, by spraying than by jarring." Ferdinand Kihlken used two ounces Paris Green to fifty gallons of water for first and second sprayings, and three ounces for the third; varieties : German Prune, Lombard and Union Purple; 1,200 trees in all. Hestates: "I am satisfied with the result in spraying plums, except that the last application was too strong." T. S. Johnson's and Wm. Miller's orchards were under the control of the Station, and both these gentlemen state that they believe spraying with Paris green to be a preventative against the plum curculio. Although -the inquiries among plum growers were quite extended, none were found who had tried the remedy and failed. It is true that no one carried on experiments to determine the relative efficiency of spraying and jarring, but the curculios were abundant enough to destroy the crop had nothing been done to prevent. The testimony of so many growers, with a total ownership of several thousand trees, can hardly be other than convincing, even though no comparative experiments were conducted. The f.ict is, results obtained where whole orchards are sprayed are more reliable than those secured in small plot experiments with a few trees, for reasons that must be obvious when it is remembered that curculios can migrate from one tree to another. While it must be conceded that the injury done by the curculio may be prevented by spraying with Paris green, there are some practical difficulties that call for extra precautions in order to prevent injury to the foliage. This is shown from the fact that injury to the foliage has been reported even when but two and one-half ounces of Paris green to fifty gallons of water were used. With three or four ounces to fifty gallons the danger seems to be considerable. It appears also to be true that the injurious effect of the Paris green is cumulative. The greater the number of sprayings the greater the injury. Even with very small quantities of Paris green injury is liable to occur if used too frequently. Another element of danger makes the question still more perplexing, i. e., wheri the foliage is affi'ected by a fungus disease the liability of injury to the foliage is increased. Inattention to keeping the mixture agitated may also result in harm. These considerations make it important that the smallest possible quantity of Paris green should be used, and the indications are that two ounces of Paris green to fifty gallons of water are sufficient if three or four applications are made. Of course a good gradeof Paris green must be used, and this is not always easily obtained. In Mr. Johnson's and Mr. Miller's orchards dilute Bordeaux mixture was used in connection with Paris green, on a portion of the trees. This was so eff'ectual in 34 p. C. LEWIS MANUFACTURING CO., CATSKILL, N. Y. preventing the injury of Paris green to the foliage that its use seems to obviate the difficulties above mentioned. THE PLUM CUEOULIO OH THE PEAK. Both at the Station and in Ottawa county the plum curculio does much injury to pears. Some varieties suffer more than others, the Bartlett and Angouleme being particularly subject to attack, often to the extent of eighty per cent, or more. This renders a large share of the crop unfit for market, because of the knotty, uneven appearance of the fruit. A plot experiment on pears, to determine the effect of spraying with Paris green to prevent the work of the curculio, is open to the same objections that can be urged against similar experiments on plums. There is one thing in favor of experimenting on pears, viz : The pears do not drop when stung, which makes it possible to examine all of the fruits at picking time, and to determine percentage of benefit due to spraying. It is not possible, however, to determine the full effect of spraying in preventing the work of the curculio. The primary object of the work was to test the effect of fungicides in preventing pear scab, but in most cases the combination of dilute Bordeaux mixture and Paris green was used, of the same strength as that employed upon plums and apples. Some check rows were left unsprayed, and there were several upon which Paris green alone was used. Without entering upon details, it is suf- ficient to say that upon unsprayed trees the average per cent, of injury was about seventy per cent, while upon the sprayed it averaged only twenty per cent. The presumptionisthattheresult would be even better were a whole orchard sprayed. Mr. Wm. Miller, upon whose orchard the work was conducted, has practiced spraying to prevent the work of the curculio upon pears in previous seasons, and his observation has been that much good was accomplished in this manner. There is no reason why spraying to prevent the work of the curculio should not be as effective on pears as on plums, and the necessity in some sections is almost as great. There is no part of Ohio where spraying pear trees with fungicides "is not a necessity for the benefit of the foliage and fruit. To add Paris green for the curculio increases the cost but a trifle and insures much smoother and finer fruit. Pour or five sprayings for the season are sufficient, the first being with dilute Bordeaux mixture alone, about the time the leaves open. The second application is to be made as soon as the blossoms fall with the same compound and Paris green added. The subsequent applications are to be the same as the second and about one week apart. A less number of applications should be made upon early varieties, three being suflficient. , (3.) THE " SHOT-HOLE " FUNGUS OF THE PLUM. The "Shot-Hole" fungus {Septoria cerasina) was abundant in all of the plum orchards on the Peninsula the past season, and caused premature dropping of the leaves to such an extent that much of the fruit did not ripen properly. Where Paris green alone was used the trouble was aggravated, but the dilute Bordeaux mixture was quite effectual in preventing the disease. The effect was so marked where this mixture was used that the trees held their leaves until late in the season, while those alongside not sprayed with it, lost much of their foliage in August. Those who tested the combination last season unhesitatingly declare their intentions to use it again. It seems to be indispensable in connection with Paris green on plum trees, whether the " Shot- Hole'.' fungus is prevalent or not. Where the disease is troublesome it would be advisable to use the dilute Bordeaux mixture, even when jarring is practiced. Where this necessity exists it is evident that spraying is so much less expensive than jarring that the latter method of combatting the curculio can no longer be considered as practicable, because too expensive. The necessary number of applications of dilute Bordeaux mixture has not been determined. One was very beneficial, and no doubt two or three are sufficient. The only precaution necessary is not to use too late, so as to leave a coating on the fruit when ripe. There is no danger of this if used two or three times in connection •with Paris green, after which the latter should be applied once or twice alone. When used in combination four ounces of Paris green to fifty gallons of the mixture will do no harm to the foliage, but in the subsequent applications of Paris green alone it is not safe to use more than two ounces to fifty gallons of water. Four sprayings for the season are usually sufficient, dependent somewhat upon the weather. The first should be made as soon as the blossoms fall, and the time between sprayings should not exceed ten days. One week i', about the proper length of period. MANUFACTURKBS OP SPRAYING APPARATUS. 35 From Report of Illinois State Horticultural Society. Se&y A. C. Hammond's Report— Wonderful Results from Spraying. Mr. A. 0. Hammond, Secretary of the Illinois Horticultural Society, in relation to best medium for throwing insecticides upon trees, says : "A year ago I determined to experi- ment in the Spring -with arsenical poisons, but the bloom was so light that I hesitated to incur the expense, finally concluding to treat one orchard at least. I therefore ordered a Lewis Combination Force Pump (manufactured at Catskill, K. Y.,) and a quantity of London Purple for the purpose. I then took the heads out of two fifty-gallon barrels, and after boring a large hole in each of them, in which I kept a stick for stirring the mixture, I put them in for floats. I then placed the barrels in a wagon and filled them as nearly full of water as practicable, say about 40 gallons in each. A pound of London Purple was then thoroughly mixed in a pail of water and divided between the two barrels and stirred until the poison was well mixed with the water. I found that two men were needed for the work (a man and a boy), one to drive and keep the pail or tub in which the pump worked filled, and the other to use the pump. The driver was directed to drive very slowly along one side of the row, and back the other, and the man with the pump, which throws a fine spray fifteen to twenty feet high, to use great caution and see that every part of the tree was reached and so thoroughly wet that the water would drip from the leaves. The spraying was done the 1st or 2d of June, when the apples were as large as a half -grown cherry, but I think it should have been done a week earlier, just after the bloom had dropped. The second application was made ten day,B later. From these sprayed trees, about 300 in number, I gathered 500 bushels of apples, from 60 to 75 per cent, of which were perfect, and 85 per cent, marketable, while from the same num- ber of trees in adjoining orchards 1 did not gather a peck of perfect fruit. The result was astonishing to me, and I have hesitated to publish it, knowing how dangerous it is to form hasty conclusions, but as there is not in all probability another orchard that has produced so much perfect fruit, there must be some cause for it ; and after carefully looking over the ground, I have concluded that the London Purple saved the fruit." The mixture that I used was too strong and scorched the leaves somewhat. Next year I shall use a pound of London Purple to three barrels of water (about 120 gallons of water), and am inclined to think that even a weaker mixture would be just as good. [One pound of London Purple to two hundred gallons of water is the right proportion.] With the cheap pump that I used two men can go over a ten-acre orchard in a day. It therefore seems to be unnecessary for the ordinary orchardist to invest in high-priced machinery for the purpose. Some of our scientific men tell us that applications of this kind cannot possibly kill the ourculio ; be this as it may, the apples in this orchard have for several years been badly stung by this pest, but this season they have injured but very little, and when asked if the London Purple killed them, I can only answer, I don't know. If it did not, why did this orchard show so much less of their work than others ? This experiment has been tried in various parts of the State, and, as far as I know, with unvarying success. Hon. B. PuUen of Centralia, writes: 'On account of delay in receiving the pump, I was only able to experiment in a small way. I should have been at work two weeks earlier, but the result was very satisfactory. I used one pound of London Purple to 80 gallons of water, and a large spoonful of Paris Green ; this was too strong, and burned the leaves to some extent. I, shall hereafter use a pound to 150 gallons of water, and no Paris Green. The only marketable Fall and Winter fruit that I had came from these sprayed trees ; and late as it was and light as the crop promised to be, I am sure that it would have been worth at least $400 had I completed the work, but was compelled to quit to pick strawberries.' " Sprayed One Side of the Tree and Left the Other Unsprayed. The following from a writer in The Orange County Farmer (New York) is very con- vincing. He says: "In answer to your request, wishing my experience with arsenical preparations, I submit the following : One-quarter of a pound of Paris Green, mixed well in about a quart of water before pouring in a barrel holding from 45 to 47 gallons of water, was the quantity used. The apple trees were sprayed twice. The first time when in bloom ; the second when the fruit was about the size of a pea— just before the stem turns down. The crop of apples was unusually heavy and of good size, considering the burden on a tree. They were free from worms and smoother than I have seen them in years. A Greening and a late Summer apple were so situated that we could only spray one side of each tree. The sides sprayed were loaded with fruit, while those not sprayed had hardly a specimen on." 3G p. C. LEWIS MANUFACTURING CO., CAT8KILL, N. Y. Spraying for Codling Moth. a, work in apple ; b, place of entrance ; d, pupa ; 6, larva ; / and g^ imagos ; R, head of larva ; i, cocoon. Yield from Sprayed Trees was 9 Times as Great as Unsprayed Trees. Prof. H. M. Beekwith of the Delaware Agricultural College, wko conducted a series of experiments to test the efficacy of London Purple in preventing the ravages of the codling moth, biings out the following facts : 1 — The average yield of the sprayed trees of both sound and wormy apples was nearly 4 times as large as that from the unsprayed trees. 2 — The average yield of the sound apples from sprayed trees was 9 times as great as that from unsprayed trees. 3 — Of the sound apples gathered from the sprayed trees. 90 per cent, were saved by the use of London Purple ; 10 per cent, only would have escaped the codling larvse had the trees been left without treatment. 4 — The sound apples on the sprayed trees were much superior in quality to those from the ones unsprayed. In order to secure the best results, it is desirable to spray the trees at intervals of from 10 to 14 days from the time the blossoms fall until August 1st, as the codling moths con- tinue to deposit the eggs of the first brood for 3 or 4 weeks, the moths from which begin to appear and deposit eggs about the middle of July. Spraying Fruit Trees Pays, Read: Mortimer Whitehead, in January issue of Farm Journal, says: "I believe in spray- ing, for I have tried it and proven it. In many portions of our country to-day it is just as much a necessity as is underdraining, or fertilizing, or killing potato-bugs. I have up- wards of 5000 fruit trees on my Fruitvale Farm. We sprayed our apple trees in one orchard of 800 trees last Spring ; curious as it may sound, in this year of short crops, 1890, we had many trees so full of apples that the branches broke down. Spraying may not protect against all the effects of a late frost or long, continuous rain, but it helps. Anything that strengthens a tree or plant iu one direction increases its resistant powers in another. We have sprayed for the codling moth and we have succeeded ; and we are getting into the way of spraying for leaf-rust or blight on the leaves of apples and pears, and it pays." MANUFACTUEBES'OF SPRAYING APPARATUS. 37 A. W. Pierson, speoinl agent of the State of New Jersey, in . is annual report to the Department of Agriculture reports his experiments on the potato blight, using Bor- deaux Mixture, as given above, and the results of his experiments Jave been highly satis- factory in every instance. We have before us a long report from jhim, giving his experi- ence. We -will only give the result obtained on 3 plots, 2 of these being sprayed while the other was not sprayed. On November S the potatoes were dug, the yield being as follOVl: 1.. 2... Uumber of Plot. ..Bordeaux Mixture . ..Bordeaux Mixture . ..No treatment Yield. 346 Pounds. 283 Pounds. 164 Pounds. The tubers from the treated plants were large and marketable ; 'ihose from the un- treated quite small. Plot No. 2 was alongside of a, row of trees; thii accounts for the failing oS m yield. The following report of the Department of Agriculture from an oipenment at Vinelaad, N. J., will convince the grape-growers of the benefits derived from sprajing the vines with the Bordeaux Mixture compared "with other ingredients. This information, coming from the source in which it does, should be considered reliable and trnst-^orthy, ' TieM of untreated and treated rows for tJie several sections • Untreated Bow. Treated Kow. Sec. Treatment. Vines. Yield of Grapes. Vines. Yield of Grapes. 3 Bordeatis Mixture.... 13 2i pounds. 13 80 pounds. 4 Eau celeste (No. 1). . 13 2 18 6^ " 5 Ean celeste (No. 2). . 14 4 14 14 " 6 Sulphatine 25 4 25 20 " ' It is estimated that the extent of the damage done to the fruit trees and vines in the United States by insects and fungus disease each year will reach four hundred million dollars ; in which event it is time some method was devised to avoid this heavy loss, which is most felt by the growers in years of scarcity. The scarcer the fruit is the more we need to contend witk insects. This is no doubt accountable for the short supply this year to a very great extent. In Europe these remedies have been used for five years or more, and their application there is now almost universal. In Switzerland a law was recently passed compelling grape-growers to spray their vines." 38 p. C. LEWIS MANUFACTURING CO., CAT8KILL, N. Y. SPRAYING Although much has been written on the subject of spraying, the information Is so scattered that it cannot readHy be brought together. In the preparation of this calendar the most important points regarding sprays have been selected and arranged in such a manner that the grower can see at a glance what to apply, and when to make the applications. The more important insect and fungous enemies are also mentioned, so that a fairly clear understanding of the work can "be obtained by examining the table below. When making the applications advised, other enemies than those mentioned are also kept under control, for PLANT. FIRST APPLICATION. SECOND APPLICATION. APPLE, (Scab, codlin moth, biidmoth.) BEAN {Anth/racnose.) CABBAGE (Worms, aphis.) CHERRY (.Bat, aphis, slug.) CURRANT (.Mildew, worms.) GOOSEBERRY (Mildew.) GRAPE (Fungous diseases.) NURSERY STOCK (Fungous diseases.) PEACH, NECTARINE (iJot, mUdew.) PEAR (Leaf blight, scab, psylla, cod- lin moth.) PLUM (Fungous diseases, cureuMo.} POTATO (Blight, beetles.) QUINCE (Leaf and fruit spot.) RASPBERRY, 1 BLACKBERRY,!- DEWBERRY, t (Anthracnose.) strawberry; (Bust.) TOMATO (Bot, bUght.) When buds are swelling, cop- per sulphate solution. When third leaf expands, Bor- deaux. When worms or aphis are first seen, kerosene emulsion. As buds are breaking, Bor- deaux ; when aphis appears kerosene emulsion. At first sign of worms, Arsenites. When leaves expand, Bordeaux. In Spring when buds swell, copper siilpbate solution. When first leaves appear, Bor- deaux. Before buds swell, copper sul- phate solution. As buds are swelling, copper sulphate solution. "When buds are swelling;, cop- per sulphate solution. When beetles first appear, Arsen- ites. When blossom buds appear, Bordeaux. Before buds break, copper sulphate solution. As first fruits are setting, Bor- deaux. At first appearance of blight or rot, Bordeaux. Just before blossoms open, Bor- deaux. For bud moth, Arsenites when leaf buds open. 10 days later, Bordeaux. 7-10 days later. If not heading, renew emulsion. When fruit has set, Bordeaux. If slugs appear, dust leaves with air slaked lime. Hellebore. 10 days later, hellebore. 11 leaves mildew, Bordeaux. 10-14 days later, Bordeaux. When leaves are 1 H inches (n diameter, Bordeaux. 10-14 days, repeat first. Before flowers open, Bor- deaux. Just before blossoms open, Bor- deaux. Kerosene emulsion when leaves open, for psylla. When blossoms have fallen, Bor- deaux. Begin to jar trees for cur- culio. When vines are % grown, Bor- deaux and Arsenites. When fruit has set, Bordeaux. During summer, if rust ap- pears on leaves, Bordeaux. As first fruits are ripening, Ammoniacal copper carbonate. Bepeat first if diseases are not checked. Black knot on plums or cherries should be cut out and burned as soon as discovered. MANUrACTURBES OF 6PKAYING APPARATUS. 39 CALENDAR. only the most serious ones could be named in so brief an outline. The directions given have been compiled from the latest results obtained by leading horticultur- ists and entomologists, and they may be followed with safety. NOTICE. In this calendar it will be seen that some applications are in bold face, and these are the ones that are most important. The number of applications given in each case has particular reference to localities in which fungous and insect ene- mies are most abundant. If your crops are not troubled when some applications are advised, it is unnecessary to make any. THIRD APPLICATION. FOURTH APPLICATION. FIFTH APPLICATION SIXTH APPLICATION. When blossoms have fall- en, Bordeaux and Arsenites. 14, days later, Bor- deaux. 7-10 days later, if head- ing, hot water 130° F. 10-14 days if rot ap- peal 8, Bordeaux. If worms persist, Hel- lebore. 10-14 days later, Ammon- iacal copper carbonate. When flowers are open, Bordeaux. 10-14 days repeat first. When fruit Is nearly grown, Bordeaux. After blossoms have fall- en, Bordeaux and Arsen- ites. Kerosene emulsion, if necessary. 10-14 days later, Bor- deaux. 5-15 days later, Bor^ deaux. 10-20 days later, Bor- deaux. rOrange or red rust is -treated best by destroying the plants.) When last fruits are har- vested, Bordeaux. Eepeat first when necessary. 8-12 days later, Bor- deaux and Arsenites. 14 days later, Bor- deaux. Repeat third in 10-14 days if necessary. 10-14 days later, Am- moniacal copper car- bonate. 10-14 days later, repeat third. 10-14 days later, Bor- deaux. 10-14 days repeat 1st. 5-7 days later, Ammon- lacal copper carbonate. 8-12 days later, repeat third. 10-23 days later, Bor- deaux. 10-20 days later, Bor- deaux. Repeat third if foliage rusts. 10-14 days later, Bor- deux. 10-14 days later, if any disease appears, Bordeaux, 10-14 first. days, repeat 5-7 days later, repeat fourth. 10-14 days later, Bor- deaux. 10-20 days later, Am- moniaeal copper car- bonate. 10-20 days later, Bor- deaux. 10-14 days later, Bor- deaux, 10-14 days, Ammonia- cal copper carbonate. Make later applications of this if necessary. 10-14 days, repeat first. 5-7 days later, repeat fourth if necessary. 10-14 days later Bor- deaux if necessary. 2-3 weeks before Plums ripen, Bordeaux, or Am- moniacal copper carbon- ate. For aphides or plant lice use lierosene emulsion on all plants. 40 p. C. LEWIS MANUFACTUBING CO., CATSKILL, N. Y. Formulas. BORDEAUX MIXTURE. Copper Sulphate, ... 6 pounds. Quicklime, ..... 4 pounds. Water, ..... 40 gallons. Dissolve the copper sulphate by putting it in a bag of coarse cloth and hang- ing this in a vessel holding at least 4 gallons, so that it is just covered by the water. Use an earthen or wooden vessel. Slake the lime in an equal amount of water. Then mix the two and add enough water to make 40 gallons. It is then ready for immediate uie. For rots, moulds, mildews and all fungous diseases. AMMONIACAL COPPER CARBO= NATE. Copper Carbonate, . . 1 ounce. Ammonia, Enough to dissolve the copper. Water, .... 9 gallons. The copper carbonate is best dissolved in large bottles, where it will keep in- definitely, and it should be diluted with water as required. For same pur- poses as Bordeaux. COPPER SULPHATE SOLUTION. Copper Sulphate, . . 1 pound. Water, ... 15 gallons. Dissolve the copper sulphate in the water, when it is ready for use. This should never be applied to foliage, but must be used before the buds break. For peaches and nectarines use 25 gallons of water. For fungous diseases. PARIS GREEN. Paris Green, .... 1 pound. Water, ..... 250 gallons. If this mixture is to be used on peach trees, 1 pound quicklime should be added. Repeated applications will injure most foliage, unless lime is added. Paris green and bordeaux can be applied with perfect safety. The action of neither is weakened, and the Paris green loses all caustic properties. For insects which chew. LONDON PURPLE. This is used in the same proportion as Paris green, but asit is more caustic it should be applied with the lime, or with the Bordeaux mixture. Do not use it I on peach or plum trees. For insects which chew. HELLEBORE. Fresh White Hellebore, . 1 ounce. Water, .... 3 gallons. Apply when thoroughly mixed. For insects which chew. KEROSENE EMULSION. Hard Soap, ..... i pound. Boiling Water, . . . .1 gallon. Kerosene, ..... 2 gallons. Dissolve the soap in the water, add the kerosene, and churn with a pump for 5-10 minutes. Dilute ]0 to 15 times before applying. For insects which suck, cabbage worms, and all insects which have soft bodies. See Spray Calendar on Pages 38 and 39. 1,B"WIS'-S IMPROVED POTATO BUG EXTEEMIITATOR -AND- AGRICULTURAL SYRINGE. Patented January 15, 1878, and March 11, 1879. Will "Doctor" or Spray 6 to 10 Acres Potatoes a Day. It is the Oaly Totato-Bugr Eztermiiiator that Stands the Test. OVER 15,OOOStOLD IN SEVEN MONTHS. The Exterminator is Simple in Construction and can le Worked by a Boy ten years old with ease. Conve^iient to Handle, weighing only 1^ 2^ounds Proportion, one rounded teaspoonf ul of Paris Green or 1 tablespoonful of Lon- , don. Purple to 3 gallons of water. The mixing is thoroughly done in a moment. A light tap on the handle discharges 3000 to 5000 fine drops on each hill, and one pint bJE the mixture will do from thirty to forty hills. Its advantages over all others: ■ ITS cheapness; ■ \. That an instrument of this kind can be retailed for f 1. 35 each is certainly a wonder to most people; or one of polished brass for f 1.75, while other brass syriiiges of about half the, size of this cost from $3 to $6 each, and none of them can do the work of this one, , , ITS ECONOMICAL USE OF MATERIAL. '''j^'"'' From one-half to three-fourths of a pound of Paris Green, or from one to one and a half pound of London Purple, will give an acre the separate; dressings, every drop being utilized. The force of the stroke drives the mixture into the top of the leaf, and -nothing but a severe rainstorm will remove it, while with the watering-pot it runs on in streams and runs off in streams. vg... I : IN QUICKNESS OF APPLICATION. A man or boy can do four or six acres a Ascf thoroughly. The saving of carrying three-fourths of the w^ater th* old way, which is no small , item, especially in a dry time, when the water has to be carried from one-fourth to 'one-half of a mile, and for perhaps five to thirty^ acres of potiatoes. ITS ADAPTABILIT^Y TO VARIoUS OTHER USES. For syringing fruit or ornamental trees,- shrubs or bushes it stands unrivaled, as- the spray is^so fine that it touches every portion of whatever jt is operated lipon, with the least possible quantity of whatever solution is used. Many use the Exterminator" ' to syringe the inside of hen-houses and for throwing spray upoi) bees while swarming [to, make them suck the hive. It is one of the finest things imaginable for sprinkling I floors, as it Wets the floor just enough to sweep up nicely and leave no dust. ^ ' The Exterminator is 26 inches long by \\ inches in diameter. They are made of 'mandel-drawn brass and^inc tubing, #nd conseqiiently cannot rust. \ The piston is fitted with Lewisis Patent Expansion Valve, which holds the liquid, at any point in the tube, except on pressure of the handle, when it discharges the liquid on each Itiill, "without waste and just where it is wanted." They are recommended by leading Entomologists, 'Agriculturists and Practical Farmers throughout the country; many -n^ould not take $10 for theirs if they could not get another. MANUFACTURED BT P, C. LEWIS MANUF'G CO. Catskill, N. YJ