[77]American Pomological Society Reportfor 1852:45.[78]Horticulturist, 6:445. 1851.[79]Horticulturist, 6:444. 1851.[80]American Pomological Society Reportfor 1852:45.[81]Magazine of Horticulture, 11:134. 1845.[82]Nuttall says: “It is probable that hybrids betwixt the European Vine (Vitis vinifera) and those of the United States would better answer the variable climates of North America, than the unacclimated vine of Europe. When a portion of the same industry shall have been bestowed upon the cultivation of the native vines of America, which has for so many ages and by so many nations, been devoted to the amelioration ofVitis vinifera, we cannot imagine that the citizens of the United States will be longer indebted to Europe for the luxury of wine. It is not however in the wilds of uncultivated nature that we are to obtain vines worthy of cultivation. Were this the case, Europe would to the present have known no other Malus than the worthless austere crab, in place of the finest apple; no other Pyrus than the acerb and inedible Pyraster or stone Pear, from which cultivation has obtained all the other varieties. It is from seed that new and valuable varieties are invariably to be obtained. There is however at the present time, a variety of one of the native species cultivated under the name of ‘Bland’s grape’, a hybrid no way in my opinion inferior to some of the best European grapes.”[83]“People who have a good deal of leisure time, ought to make those experiments which take many years to know the result. If any where in the United States a public Botanic garden should be established, there would be the proper place, to have a corner of it appropriated solely for the purpose of trying the raising of new species of grapes, either by seeds or grafts; and if there was a green or hot house, several species of the best grapes, and even a male plant of the most vigorous indigenous ought to be introduced in it, and trained so that the crossing of the breed may be easily done, by bringing two different sorts of grapes together in time of blossoming, and sow the seeds. I think we may anticipate some very good results from such an arrangement.”Vine Dresser’s Guide: 228. 1826.[84]Of hybridization he says: “In all attempts at artificial fecundation, I would recommend that one of the varieties selected be of native origin, as there exists no want of hybrids between European varieties alone; a large proportion of those now in cultivation having been doubtless produced by natural admixture of the pollen, in the vineyards where they originated. For the purpose of hybridizing, the varieties ofVitis aestivalisshould be selected in preference to those ofVitis labrusca, on account of the much higher vinous properties of the former; and there cannot exist a doubt but that we may readily produce well acclimated hybrids between the native and foreign varieties, without the trouble of continuing the course of reproduction for many generations, although such reproduction from species so dissimilar may continue to present additional modifications of character.”A Treatise on the Vine: 253-254. 1830.[85]U. S. Dept. of Agriculture. Special Report, No. 36. 1880.[86]Wine is the fermented juice of the grape. When the juice or must of the grape is exposed to temperatures ranging from 55° to 65°F. the micro-organisms which accompany the fruit, the yeast of the wine-maker, are transformed from a comparatively dormant state to one of great activity. The action of the organisms on grape must is called fermentation and through it certain physical and chemical changes take place whereby the must is changed in taste and in color, and a part or all of its sugar is changed into alcohol. The methods of making wine differ in different countries and in different localities depending upon the climate, kind of grapes grown, condition of growth, and the kind of wine produced, yet the principles and chief processes are much the same and may be briefly described as follows:In general grapes are not picked for wine-making until they have reached full maturity thus insuring a higher sugar content, richness of flavor and perfect color. It is customary to determine the composition of the must as to sugar and acid content by various instruments devised for the purpose and if it lack sugar this ingredient is added; if it be too acid water is added; or the composition may be otherwise changed depending upon a number of circumstances though manifestly reputable wine-makers change the natural grape juice as little as possible. Soon after harvesting the grapes are crushed. The ancient method, which still prevails in many parts of Europe, was to tramp the grapes with bare feet or wooden shoes. Tramping is for most part superseded by mechanical crushers which break the skins but do not crush the seeds. For some wines the stems of the grapes are removed; for others it is essential that the grapes be not stemmed. Stemming may be done by hand, by a rake over a screen, or by specially devised machines. If white wine is to be made the juice is separated from skins and pulp at once; if red wine is desired fermentation takes place in the crushed grapes or marc.Fermentation is carried on in large tanks or vats varying in capacity from 1000 gallons to 10,000 gallons or more. Some wine-makers prefer open vats, others keep them closed. The duration of fermentation depends upon many conditions and varies from two or three to fifteen or twenty days, depending upon the amount of sugar in the must, the temperature, activity of ferments, etc., etc. Wine-makers observe several distinct stages of fermentation which must be closely watched and controlled. A most important influence is exerted on fermentation by temperature. The limits below which and above which fermentation does not take place are 55° and 90°F. In general it is desirable that fermentation take place at temperatures ranging about 70°. When it is found that the sugar is practically all converted into alcohol, or that such conversion has proceeded far enough, the new wine is drawn or pumped from the fermenting vats into casks or barrels where it ages though it may require special treatment for clearing. Before bottling it is usually necessary to rack the wine into new barrels twice or three times to stop secondary fermentations which invariably take place.Special treatments result in several distinct classes of wine. Thus we can divide wine intoredandwhiteas to color. Red wines are produced from colored grapes the color being extracted in the process of fermentation. White wines are made from light colored grapes or if from colored fruit the must is not allowed to ferment on the marc and so extract the color. We may again divide wines intodryandsweet. Dry wines are those in which the sugar is practically all converted into alcohol. Sweet wines are those which retain more or less sugar. These are often fortified by the addition of alcohol. A third division is that ofstillandsparklingwines. Still wines are those in which the carbonic acid gas formed by fermentation has wholly escaped. Sparkling wines retain a greater or less amount of this carbonic acid gas.All of the above classes are further divided into well marked types according to their color and taste, their alcoholic content, and the countries in which they are produced. The following are the leading wines made from native grapes:Catawba,Delaware,Concord,Norton’s Virginia,Ives,Scuppernong,Iona,Claret,PortandChampagne. Of theseClaret,Norton’s VirginiaandIvesare red dry wines.Catawba,Delaware,IonaandScuppernongmay be either dry or sweet white wines.Portis a red sweet wine.[87]Vol. 22: No. 3:22.[88]Champagne obtains its name from the fact that it is chiefly produced in the Province of Champagne in France. Its special characteristic is that during fermentation, which is usually brought about in the bottle, the carbonic acid gas generated is absorbed by the wine. When the bottle is opened the gas is disengaged and the wine effervesces or “sparkles”. Good champagne requires grapes of high quality and of special adaptability; the fruit must be well ripened, free from decayed berries, and clean. The first fermentation takes place during a period of several months in the regular receptacles for this purpose after which the wine from several varieties of grapes is blended. Good champagne usually contains some old wine. After bottling, the wine is held at slightly different temperatures for varying lengths of time to secure proper fermentation in the bottle until at the end of several months it is held at a comparatively low temperature in which the bottles remain from three to four years. The bottles must then receive some treatment which will remove the sediment which has been formed by fermentation. This is usually done by placing them in racks cork down at about an angle of 45 degrees or a little more. By dexterously shaking and jarring the bottles the sediment is loosened and deposited in the neck of the bottle. Lastly the sediment is disgorged by skillfully withdrawing the cork, a small portion of the wine being wasted in the operation. The bottles are then filled with a dosage of rock-candy dissolved in an old dry wine, the amount used determining the sweetness of the champagne. The bottles are then corked, wired, capped, labelled and cased, after which the champagne is ready for the market.[89]Champagne: Decrease in Imports and Increase in Domestic Production, April 25, 1907, p. 427.[90]Grape juice is made from clean, sound but not over-ripe grapes. The juice is pressed out by machinery in commercial practice but in the home manufacture of the product, the grapes may be pressed by the hands. If a light-colored juice is desired the liquid is extracted without heating the grapes; for a red juice the pulp is heated before pressing and the grapes must be dark in color. In either case the heating is done in a double boiler so that the juice does not come in direct contact with the fire. The proper temperature ranges from 180° F. to 200° F. and must never exceed the 200° mark if the flavor of uncooked grapes is desired. After heating, the juice is allowed to settle for twenty-four hours in a glass, crockery or enameled vessel after which it is carefully drained from the sediment and strained through some sterilized filter. In home practice several thicknesses of flannel, previously boiled, will do for a filter. The liquid is then filled into clean bottles leaving room for expansion in the second heating. The bottled juice is now heated a second time after which it is immediately corked and sealed. The principles involved in making grape juice are the same as those observed in canning fruit and the operation may be varied in the former as it is in the latter if only certain fundamental processes are followed.[91]A raisin is a dried and cured grape. Raisin-making is a simple process. The grapes are arranged on shallow trays, and placed in the sun to dry, being turned now and then by placing an empty tray on a full one and turning both over after which the top tray is removed. When the grapes are properly dried they are put in bins to sweat preparatory to packing and shipping. The finishing touch in the drying is sometimes given in curing-houses, however, to avoid injury from rain or dust. Seeding, grading, packing and selling are now separate industries from growing and curing. At present all raisins are made from varieties of the Old World grape, no American sort having been found suitable for raisin-making. A variety adapted for making a raisin, something better than simply a “dried grape”, must have a large percentage of sugar and solids, a thin skin, and a high flavor. American grapes lack in sugar content and have a skin so thick and tough that the fruit does not cure properly for a good raisin. The raisin industry in the United States is carried on only in California, the great bulk of the crop coming from the San Joaquin Valley and a few of the southern counties of that State. Formerly the raisins used in this country were wholly imported; now this product of the grape is exported and in increasing quantities. The annual production of raisins is in the neighborhood of 100,000,000 pounds.[92]According to Bartram, the aborigines of eastern America made raisins from the wild grapes. He describes the process they used as follows: “The Indians gather great quantities of wild grapes which they prepare for keeping, by first sweating them on hurdles over a gentle fire, and afterwards dry them on their bunches in the sun and air, and store them up for provisions.”[93]Tarr, R. S.,Cornell(N. Y.)Exp. Sta. Bul., 109. 1896.[94]Burke, R. T. Avon, and Marean, Herbert, Field Operations, Bureau of Soils, U. S. Dept. of Agriculture. 1901.[95]Tarr, R. S.,Cornell(N. Y.)Exp. Sta. Bul., 109. 1896.[96]Burke, R. T. Avon, and Marean, Herbert, Field Operations, Bureau of Soils, U. S. Dept. of Agriculture. 1901.[97]Elijah Fay was born in Southborough, Massachusetts, in 1781. He moved to Brocton, Chautauqua County, New York, in the fall of 1811. The early history of not only the viticulture but of the horticulture of the Chautauqua region is interwritten with that of the Fay family. Elijah Fay’s children and grandchildren inherited a love of horticulture from their ancestor and several of them, as mentioned in the text, have been noted for their horticultural work in this region. Lincoln Fay, a nephew of Elijah Fay, one of the first men to grow and sell grape vines in the region, originated the Fay currant which was afterwards introduced by him and his son Elijah H. Fay. Of the Fay family, noted in the annals of grape-growing in this region, only G. E. Ryckman and L. R. Ryckman, grandchild and great-grandchild of Elijah Fay, are now living. Elijah Fay lived to the ripe age of eighty, dying in 1860. His memory should be long cherished as one of the founders of the viticulture of New York.[98]The writer is indebted to Mr. G. E. Ryckman of this firm, for the information given here.[99]The Grape Belt, 16: No. 20, Feb. 26, 1907.[100]The Grape Belt, 16: No. 20, Feb. 26, 1907.[101]The grape-vine fidia (Fidia viticidaWalsh) is a robust beetle, a quarter of an inch in length, brown in color but whitened by a thick covering of yellowish-white hairs. The beetle lays its eggs in the cracks and crevices of the bark of the grape vines well above ground. The eggs are produced in large numbers, often as many as several hundred to the vine. Upon hatching, the larvae quickly worm their way into the ground and begin to feed upon the fibrous roots of the vine, passing from these to the larger roots. Possibly the chief damage is done on the larger roots which are often entirely stripped of bark for a length of several feet. The larvae attain their full size, a half inch in length, by the middle of August, and then hibernate until the following June. The winter is spent in earthen cells. After about two weeks as pupae in June, the full grown beetles emerge from the ground and begin to feed upon the upper surface of the leaves, eating out the cellular tissue, thus skeletonizing the foliage. The adults disappear the succeeding August. The most efficient means of checking the fidia so far found is an application of an arsenical spray applied during the time the beetles are feeding on the foliage.[102]Grape-vine flea-beetle (Haltica chalybeaIll.).—The adult insects are shining steel-blue flea-beetles measuring about one-fifth of an inch in length. They live during the winter under the bark of the old vines or in rubbish in the fields. They emerge from their winter quarters during the first warm days of spring, and feed upon the opening buds and young leaves. Egg-laying begins late in April or early in May. The eggs are placed singly near the buds or upon the leaves and hatch in about ten days. The young larvae are dark brown in color but soon become prominently marked with black dots and patches. They are full grown in from three to four weeks at which time they measure about a quarter of an inch in length. They feed on the leaves devouring only the soft parts at first, but finally eating irregular holes through the leaves. When ready to pupate they go a short distance into the ground. The adults emerge during the latter part of June or early in July. They probably feed during all of the summer, finally seeking shelter for the winter as above indicated.The vines should be sprayed with paris green, one pound to fifty gallons of water, just before the buds begin to swell or with some other arsenite. Much pains should be taken to make this application thorough. Later when the worms appear on the leaves, paris green may be applied at the usual strength, one pound to 150 gallons of lime and water, or combined with bordeaux mixture. Both upper and under surfaces of the leaves should be covered. Applications of arsenicals for the grape-vine fidia will help greatly to keep this insect in check.[103]Grape leaf-hopper (Typhlocyba comesSay).—There are several species of leaf-hoppers which attack the grape but this species is probably the most common in this State. These little leaf-hoppers are often erroneously called thrips. The adult insects measure about one-eighth of an inch in length. They vary greatly in color but the prevailing color is usually light yellowish-green. The back and wings are ornamented with bright red, yellow and brown. They are found upon the vines from spring until fall. They feed together, sucking the sap from the leaves, principally from the under surface, causing them to turn brown in patches. The eggs are deposited singly in the tissue of the under surface of the leaves. The young resemble the adults in form but are not provided with wings and are green or yellowish-green in color. There are several broods during the season. Some of the adults of the last brood hibernate in any convenient rubbish about the vineyard. Treatment for young hoppers should be made early in July. To obtain the best results use whale-oil soap at the rate of one pound to ten gallons of water, directing the spraying with the hand. Vineyards and adjacent land should be kept as free as possible from grass and weeds as they afford shelter to the insect.[104]Grape berry moth (Polychrosis viteanaClem.).—The young caterpillars feed within the grapes finally causing them to turn dark colored and to wither. This injury is sometimes mistaken for the black-rot. After devouring the soft parts of one grape the caterpillar goes to another, fastening the two together by a silken thread. This may be continued until several in a bunch have been destroyed by one caterpillar. The young caterpillars are very light green in color with a brown head. When full grown they measure about one-fourth of an inch in length and are dark olive green in color tinged slightly with red. The cocoon is formed on a leaf and is partially composed of two small pieces cut out of the leaf. The adults of the spring brood emerge in from twelve to fourteen days. The fore-wings have a bluish tinge and are marked with brown, while the posterior wings are dull brown. The moths are small measuring nearly half an inch from tip to tip when the wings are spread. The eggs are probably laid late in June or early in July. There are two broods annually in this State. As the caterpillars spend most of their lives within the grape berries, spraying does not entirely control the pest. Yet the arsenicals applied for the grape-vine fidia will help much in keeping it in check. Picking and destroying the infested fruit and the leaves containing the cocoons helps much.[105]For a full account of the geology of these lakes and the valleys in which they lie, see thePhysical Geography of New York Stateby Ralph S. Tarr. New York. 1902.[106]Black-rot (Guignardia bidwellii(Ell.) V. & R.) usually appears first on the leaves where it forms circular, reddish-brown spots on which black pimples, or spore cases, develop. Within these spore cases, at maturity, are the summer spores. These are distributed by the elements to the growing parts of the plant and form new centers of infection. The diseased berries show analogous circular spots bearing spores and as the disease progresses the grapes wither, turn black, and become hard and shrivelled, sometimes clinging to the vine until the following spring. Growing shoots are attacked as well as leaves and fruit. During the winter and spring the resting spores are formed, usually upon the shrivelled berries.Treatment consists of destroying as far as possible all diseased fruit, old leaves and prunings and in spraying thoroughly with bordeaux mixture as follows:—1. Just as the pink tips of the first leaves appear.2. From ten days to two weeks after the first spraying.3. Just after the blossoming.4. From ten to fourteen days after the third spraying.5. After an interval of from ten to fourteen days from the fourth spraying.[107]Downy mildew (Plasmopara viticola(B. & C.) Berl. & De Toni) is a troublesome fungus attacking all of the tender growing parts of the grape. It does most damage to the leaves, upon the upper surface of which it produces greenish-yellow spots of irregular outline. At the same time a loose white downy growth appears on the under side of the leaves. This growth consists of short filaments bearing spores, the summer spores, which are carried by the elements to other growing parts of the plant, thus spreading the disease. Affected berries, if young, first show a brown spot, and become covered with the gray down which distinguishes the fungus. On older berries the fungus causes a brown-purple spot which spreads until it takes in the whole berry, which then becomes soft and often falls, or they may become hard and persist. At this stage the disease is commonly known as “brown rot”. The winter, or resting, spores are produced in the tissue of fruit and leaves and with a thick protective covering. The winter spores are dark, almost black, in color. Downy mildew spreads and does most damage in hot wet weather. Spraying with bordeaux mixture as indicated for black-rot will keep downy mildew in check.[108]Powdery mildew (Uncinula necator(Schw.) Burr.) is caused by a fungus which lives on the surface of the leaves. It subsists by means of sucker-like organs which penetrate the walls of the surface layer of cells. The vegetative portion of the parasite consists of fine white filaments which spread over the surface of the leaves, shoots and fruit. In the summer these filaments send up short, irregular stalks upon which large numbers of barrel-shaped spores are produced in chain-like arrangement. These are the summer spores of the fungus. They are borne in greatest quantity on the upper surfaces of the leaves and give the leaf a gray, powdery appearance—hence the name, powdery mildew. Affected leaves finally become light brown and often fall. Diseased fruits are gray in color, scurfy, become specked with brown, fail to develop and often burst on one side thereby showing the seeds. The winter or resting spores are borne in sacs, in the latter part of the season. The spore sacs, in their turn, are borne in small, black, spherical spore cases, each furnished with a number of slender appendages having curled tips. The powdery mildew, unlike most other fungus troubles of the grape, is most prevalent in hot dry weather. The disease is combatted by dusting with flowers of sulphur or by spraying with bordeaux mixture as for black-rot.[109]Anthracnose (Sphaceloma ampelinumDe By.).—This disease attacks any of the tender portions of the growing vine. When the leaves are affected dark spots are first formed on their surface. As the disease advances these spots enlarge, and irregular cracks are often formed through the dead tissue. Frequently many of these small cracks run together, forming a long irregular slit through the leaf. Similar marks are formed on the tender shoots, though they are not so noticeable. When the fruit is attacked the disease is sometimes called bird’s-eye rot. Circular spots are formed on the surface of the berry. The spots may be of different colors and usually have a dark border; as the spots enlarge and eat in, a seed is often exposed in the center. In rotting the tissue becomes hard and wrinkled. Sometimes the disease girdles the stem of a fruit cluster, cutting off the supply of sap from the grapes beyond the diseased line and causing them to shrivel and die.Anthracnose does not spread as rapidly as some other vineyard diseases, neither does it yield as readily to treatment. When a vineyard is badly infested with anthracnose, it requires prompt attention and a careful treatment to control the disease. It is not satisfactorily controlled by bordeaux mixture alone. It is suggested that in addition to such treatment with this mixture as is given for black-rot the plan be followed which is advocated by certain European authorities, of applying a warm saturated solution of copperas (iron sulphate) in spring when the buds are swelling but before they begin to open. One per ct. or more of sulphuric acid may be added to the solution before it is applied. This solution must be handled with care as it is very caustic. It is applied with swabs or if the acid is not used it may be sprayed. It is essential that the work be done thoroughly, covering all the surface of the canes.[110]Chlorosis or yellow leaf.—The name is applied to a grape disease in which the foliage turns yellow, later becoming brown. It is common in several parts of the State but more particularly in the Central Lakes district. Chlorosis is more likely to appear in wet seasons. Some varieties, as the Diamond, are much more susceptible than others. In some seasons portions of the leaves may become yellow but eventually regain their normal color so that at the close of the season the vine appears to be in a healthy condition. In other instances the yellow color extends over the entire leaf; brown, dead patches appear; the leaf curls and eventually drops from the vine. If the vine loses its leaves two or three seasons in succession it is likely to die. One striking peculiarity of the disease is the fact that a badly diseased vine may appear by the side of a perfectly healthy vine of the same variety.The cause of chlorosis, as given by foreign investigators, is the presence of a large amount of lime in the soil which prevents the roots from taking up an amount of iron sufficient for satisfactory growth. Their experiments seem to show that the difficulty may be overcome by applying a small amount of sulphate of iron around affected plants. But since there are a number of good American varieties that are not subject to chlorosis, perhaps the better method to pursue is to plant only such varieties as are known to be free from this trouble.The standard varieties given in the following list are, so far as we know, practically exempt from chlorosis: Moore Early, Concord, Winchell, Delaware, Worden, Niagara, Catawba, Vergennes and Agawam.[111]Tarr, R. S.,The Physical Geography of New York State: 4. 1902.[112]SeeStory of the Vine, E. R. Emerson: 198. 1902.[113]Joseph Pitton de Tournefort, a French botanist of considerable reputation in his day, was born at Aix, Provence, in 1656 and died in 1708. He was educated by the Jesuits for a priest but following a natural inclination he later became a botanist. In 1683 he became professor of botany at the Jardin des Plantes in Paris. While occupying this position he made trips through western Europe, Greece and Asia Minor. His principal work, and the one quoted here, isInstitutiones Rei Herbariaein three volumes, published in Paris in 1700. He was one of the most prominent systematic botanists who preceded Linnaeus.[114]Humphrey Marshall was born in the town of West Bradford, Pennsylvania, in 1722, of Quaker parents. He was a cousin of John Bartram, their mothers being sisters. Like Bartram, he had few opportunities for education, not going to school after he was twelve years of age. He was a stone-mason by trade, studying botany in his leisure moments. In 1773 he started a botanic garden at Marshallton. In 1785 he publishedArbustrum Americanum, The American Grove, or An Alphabetical Catalog of Forest Trees and Shrubs, Natives of the American United States. This work had been in preparation about five years previous to its publication. It is said to be the first botanical work of a native American. Marshall died in 1801.[115]But little is known of the life of Thomas Walter. He was a native of Hampshire, England, and migrated to St. John’s Parish, South Carolina, where he had a plantation on the Santee River. Here he died in 1788 at about the age of forty-eight years. His only publication of note is theFlora Caroliniana, published in the year of his death. He must have been in correspondence with European botanists of that time as his herbarium is preserved in the British Museum.[116]Grapes are not to-day considered dioecious but polygamo-dioecious, a distinction which will be defined later.[117]John Bartram was born near the village of Darby in Delaware (then Chester) County, Pennsylvania, in 1699. Bartram is generally credited with having established the first botanical garden in America. This garden was founded about 1728, some four miles south of what was the town of Philadelphia and is now a part of the Park System of that city. He was bred a Quaker but owing to his liberal opinions was excluded from that Society in 1758. During his life he was in correspondence with many of the leading scientific men of Europe to whom he sent many specimens of plants and other things of scientific interest. He made many trips into various parts of the colonies, to Ontario, Lake George, the Carolinas, Florida and Georgia, in search of information. The last of these journeys, that to the southern states, was made after he was seventy years of age. Bartram is blamed by all of his contemporaries for not having published more than he did. His death occurred in 1777.William Bartram, son of John Bartram, was born in 1739 and died in 1823. Much of his work was done in connection with his father under whom he received his botanical training. His best known work is hisTravels in the Carolinas, Georgia and Florida(1791), in which he gives an interesting account of that region, including descriptions of a number of new southern plants. His article on grapes which is here quoted was published in theDomestic Encyclopedia, 1804, and also in theMedical Repositoryof the same year.[118]Thomas Nuttall was born in Settle in Yorkshire, England, in 1786. He migrated to the United States in 1807, making his home in Philadelphia where he became acquainted with William Bartram and Dr. Barton. It was largely owing to the influence of these men that he turned his attention to botany. Nuttall was an extensive traveler and made botanical expeditions into many parts of the country. He explored the Middle West up to the Rocky Mountains and made a trip around the Horn to California. From 1825 to 1834 he was connected with Harvard College. In 1842 he was called to England by a bequest from an uncle left to him conditional on his residing for nine months of each year in England; compliance with this request caused a cessation of his botanical work in America. He died at Nutgrove, Lancashire, in 1859. Nuttall’s first and probably greatest work was hisGenera of North American Plants and Catalogue of the Species, published in 1818. Besides various accounts of his expeditions he made an addition of three volumes to Michaux’sSylvabringing that work up to six volumes.[119]Constantine Samuel Rafinesque was born in Galata, a suburb of Constantinople in European Turkey, in 1783. He was of French-German descent, his father being a French merchant of Marseilles, and his mother of Saxon parentage. In 1802 he came to Philadelphia. While here he was busied with mercantile pursuits, occupying a position as clerk, but studied botany out of office hours for amusement. In 1805 he went to Sicily where he spent the next ten years. Here he commenced the extensive series of publications which have made his name so well known to scientists. In 1815 he returned to the United States, traveling about from place to place for some time and finally settling in Lexington, Kentucky, where he became a professor in Transylvania University. He left Lexington in 1825, removing to Philadelphia, where he spent the remainder of his life, dying in poverty in 1840. Rafinesque’s biographer gives 420 differently titled articles on nearly all scientific subjects as the product of his pen. His monograph on grapes, entitledAmerican Manual of the Grape Vine and The Art of Making Wines, etc., was published in Philadelphia in 1830.[120]Mo. Ent. Rpt.,1874:71.[121]Bush. Cat.,1883:9.[122]N. Y. Sta. An. Rpt.,17:518. 1898.N. Y. Sta. Bul.157.1898.[123]Tex. Sta. Bul.,56:239. 1900.[124]Gar. and For.,8:47. 1895.[125]W. Brennan, Gilgandra, N. S. W.[126]André Michaux was a French botanist, born at Satory, Versailles, in 1746. He took up the study of botany and made many trips to foreign lands in behalf of the French Government. One of these was an expedition to North America where he remained from 1785 to 1796 exploring the country and gathering many botanical specimens through Canada, Nova Scotia and the United States as far west as the Mississippi. His chief works areHistoire des chenes de l’Amerique Septentrionale (History of the Oaks of North America), 1801; andFlora Boreali Americana, 1803. He described and namedVitis rotundifolia,V. aestivalis,V. cordifolia,V. riparia, andV. rubra, as well as giving much information on other species. Michaux died on the Island of Madagascar in 1802.F. André Michaux was born at Versailles in 1770 and died at Vaureal in 1855. He was a son of André Michaux and also a botanist, and like his father employed by the French Government to explore North America with a view of introducing valuable plants into France. He published in1810-13 aHistoire des Arbres Forestieres de l’Amerique Septentrionalewhich was later translated into English under the nameNorth American Sylva. He also publishedA Voyage a l-ouest des Monts Alleghanys, 1804.[127]For discussion ofVitis vulpinasee foot-note underVitis riparia.[128]All grapes, other than the Rotundifolia, are in the South known as “bunch grapes” because they are sold on the market in clusters, the Rotundifolia being sold off the stems.[129]S. C. Sta. Bul.132. 1907.[130]Bush. Cat.,1894:22.[131]Husmann,1895:188.[132]Husmann, G. C.,California Fruit Grower, Mar. 14, 1908.[133]Samuel Botsford Buckley was born in 1809, in Yates County, New York, and was educated at Wesleyan University, where he graduated in 1836. In 1866 he was appointed State Geologist of Texas where he resided until he died in 1884. Buckley traveled extensively in connection with his work, explored the southwestern region of the Appalachian Mountains, as well as the southwestern portion of the United States. He was at great disadvantage in his publications in that they were prepared without the benefit of a library. His articles on grapes were published in theProceedings of the Philadelphia Academy of Natural Sciencesfor 1861, and in theUnited States Patent Office Reportfor the same year.[134]The description ofVitis vulpinaby Linnaeus is so meager, including the leaves only, that for many years botanists were in doubt as to the species intended. Muhlenberg was the single exception when he gave Linnaeus’ Vulpina and Michaux’s Cordifolia as synonymous. Whether he did this from knowledge, or whether it was by chance, it is impossible to say. He states no reasons and consequently received no following among other botanists. Elliott supposed that Linnaeus intended to describe the southern Rotundifolia and this view seems to have been generally accepted.In the late eighties or early nineties, Planchon first, and later Britton, by referring to Linnaeus’ specimens, determined that the latter’s Vulpina was the same as Riparia, and in accordance with botanical rules, presented the name Vulpina as the correct name for this species. Bailey, however, states (Ev. Nat. Fr.,1898:102) that he found two specimens in the Linnaeus collection labeled Vulpina, one of which was the true Riparia and the other Cordifolia. Since a change of the name would bring confusion to more than ninety years of botanical and horticultural literature, it seems inadvisable to make one on such contradictory evidence.
[77]American Pomological Society Reportfor 1852:45.
[77]American Pomological Society Reportfor 1852:45.
[78]Horticulturist, 6:445. 1851.
[78]Horticulturist, 6:445. 1851.
[79]Horticulturist, 6:444. 1851.
[79]Horticulturist, 6:444. 1851.
[80]American Pomological Society Reportfor 1852:45.
[80]American Pomological Society Reportfor 1852:45.
[81]Magazine of Horticulture, 11:134. 1845.
[81]Magazine of Horticulture, 11:134. 1845.
[82]Nuttall says: “It is probable that hybrids betwixt the European Vine (Vitis vinifera) and those of the United States would better answer the variable climates of North America, than the unacclimated vine of Europe. When a portion of the same industry shall have been bestowed upon the cultivation of the native vines of America, which has for so many ages and by so many nations, been devoted to the amelioration ofVitis vinifera, we cannot imagine that the citizens of the United States will be longer indebted to Europe for the luxury of wine. It is not however in the wilds of uncultivated nature that we are to obtain vines worthy of cultivation. Were this the case, Europe would to the present have known no other Malus than the worthless austere crab, in place of the finest apple; no other Pyrus than the acerb and inedible Pyraster or stone Pear, from which cultivation has obtained all the other varieties. It is from seed that new and valuable varieties are invariably to be obtained. There is however at the present time, a variety of one of the native species cultivated under the name of ‘Bland’s grape’, a hybrid no way in my opinion inferior to some of the best European grapes.”
[82]Nuttall says: “It is probable that hybrids betwixt the European Vine (Vitis vinifera) and those of the United States would better answer the variable climates of North America, than the unacclimated vine of Europe. When a portion of the same industry shall have been bestowed upon the cultivation of the native vines of America, which has for so many ages and by so many nations, been devoted to the amelioration ofVitis vinifera, we cannot imagine that the citizens of the United States will be longer indebted to Europe for the luxury of wine. It is not however in the wilds of uncultivated nature that we are to obtain vines worthy of cultivation. Were this the case, Europe would to the present have known no other Malus than the worthless austere crab, in place of the finest apple; no other Pyrus than the acerb and inedible Pyraster or stone Pear, from which cultivation has obtained all the other varieties. It is from seed that new and valuable varieties are invariably to be obtained. There is however at the present time, a variety of one of the native species cultivated under the name of ‘Bland’s grape’, a hybrid no way in my opinion inferior to some of the best European grapes.”
[83]“People who have a good deal of leisure time, ought to make those experiments which take many years to know the result. If any where in the United States a public Botanic garden should be established, there would be the proper place, to have a corner of it appropriated solely for the purpose of trying the raising of new species of grapes, either by seeds or grafts; and if there was a green or hot house, several species of the best grapes, and even a male plant of the most vigorous indigenous ought to be introduced in it, and trained so that the crossing of the breed may be easily done, by bringing two different sorts of grapes together in time of blossoming, and sow the seeds. I think we may anticipate some very good results from such an arrangement.”Vine Dresser’s Guide: 228. 1826.
[83]“People who have a good deal of leisure time, ought to make those experiments which take many years to know the result. If any where in the United States a public Botanic garden should be established, there would be the proper place, to have a corner of it appropriated solely for the purpose of trying the raising of new species of grapes, either by seeds or grafts; and if there was a green or hot house, several species of the best grapes, and even a male plant of the most vigorous indigenous ought to be introduced in it, and trained so that the crossing of the breed may be easily done, by bringing two different sorts of grapes together in time of blossoming, and sow the seeds. I think we may anticipate some very good results from such an arrangement.”Vine Dresser’s Guide: 228. 1826.
[84]Of hybridization he says: “In all attempts at artificial fecundation, I would recommend that one of the varieties selected be of native origin, as there exists no want of hybrids between European varieties alone; a large proportion of those now in cultivation having been doubtless produced by natural admixture of the pollen, in the vineyards where they originated. For the purpose of hybridizing, the varieties ofVitis aestivalisshould be selected in preference to those ofVitis labrusca, on account of the much higher vinous properties of the former; and there cannot exist a doubt but that we may readily produce well acclimated hybrids between the native and foreign varieties, without the trouble of continuing the course of reproduction for many generations, although such reproduction from species so dissimilar may continue to present additional modifications of character.”A Treatise on the Vine: 253-254. 1830.
[84]Of hybridization he says: “In all attempts at artificial fecundation, I would recommend that one of the varieties selected be of native origin, as there exists no want of hybrids between European varieties alone; a large proportion of those now in cultivation having been doubtless produced by natural admixture of the pollen, in the vineyards where they originated. For the purpose of hybridizing, the varieties ofVitis aestivalisshould be selected in preference to those ofVitis labrusca, on account of the much higher vinous properties of the former; and there cannot exist a doubt but that we may readily produce well acclimated hybrids between the native and foreign varieties, without the trouble of continuing the course of reproduction for many generations, although such reproduction from species so dissimilar may continue to present additional modifications of character.”A Treatise on the Vine: 253-254. 1830.
[85]U. S. Dept. of Agriculture. Special Report, No. 36. 1880.
[85]U. S. Dept. of Agriculture. Special Report, No. 36. 1880.
[86]Wine is the fermented juice of the grape. When the juice or must of the grape is exposed to temperatures ranging from 55° to 65°F. the micro-organisms which accompany the fruit, the yeast of the wine-maker, are transformed from a comparatively dormant state to one of great activity. The action of the organisms on grape must is called fermentation and through it certain physical and chemical changes take place whereby the must is changed in taste and in color, and a part or all of its sugar is changed into alcohol. The methods of making wine differ in different countries and in different localities depending upon the climate, kind of grapes grown, condition of growth, and the kind of wine produced, yet the principles and chief processes are much the same and may be briefly described as follows:In general grapes are not picked for wine-making until they have reached full maturity thus insuring a higher sugar content, richness of flavor and perfect color. It is customary to determine the composition of the must as to sugar and acid content by various instruments devised for the purpose and if it lack sugar this ingredient is added; if it be too acid water is added; or the composition may be otherwise changed depending upon a number of circumstances though manifestly reputable wine-makers change the natural grape juice as little as possible. Soon after harvesting the grapes are crushed. The ancient method, which still prevails in many parts of Europe, was to tramp the grapes with bare feet or wooden shoes. Tramping is for most part superseded by mechanical crushers which break the skins but do not crush the seeds. For some wines the stems of the grapes are removed; for others it is essential that the grapes be not stemmed. Stemming may be done by hand, by a rake over a screen, or by specially devised machines. If white wine is to be made the juice is separated from skins and pulp at once; if red wine is desired fermentation takes place in the crushed grapes or marc.Fermentation is carried on in large tanks or vats varying in capacity from 1000 gallons to 10,000 gallons or more. Some wine-makers prefer open vats, others keep them closed. The duration of fermentation depends upon many conditions and varies from two or three to fifteen or twenty days, depending upon the amount of sugar in the must, the temperature, activity of ferments, etc., etc. Wine-makers observe several distinct stages of fermentation which must be closely watched and controlled. A most important influence is exerted on fermentation by temperature. The limits below which and above which fermentation does not take place are 55° and 90°F. In general it is desirable that fermentation take place at temperatures ranging about 70°. When it is found that the sugar is practically all converted into alcohol, or that such conversion has proceeded far enough, the new wine is drawn or pumped from the fermenting vats into casks or barrels where it ages though it may require special treatment for clearing. Before bottling it is usually necessary to rack the wine into new barrels twice or three times to stop secondary fermentations which invariably take place.Special treatments result in several distinct classes of wine. Thus we can divide wine intoredandwhiteas to color. Red wines are produced from colored grapes the color being extracted in the process of fermentation. White wines are made from light colored grapes or if from colored fruit the must is not allowed to ferment on the marc and so extract the color. We may again divide wines intodryandsweet. Dry wines are those in which the sugar is practically all converted into alcohol. Sweet wines are those which retain more or less sugar. These are often fortified by the addition of alcohol. A third division is that ofstillandsparklingwines. Still wines are those in which the carbonic acid gas formed by fermentation has wholly escaped. Sparkling wines retain a greater or less amount of this carbonic acid gas.All of the above classes are further divided into well marked types according to their color and taste, their alcoholic content, and the countries in which they are produced. The following are the leading wines made from native grapes:Catawba,Delaware,Concord,Norton’s Virginia,Ives,Scuppernong,Iona,Claret,PortandChampagne. Of theseClaret,Norton’s VirginiaandIvesare red dry wines.Catawba,Delaware,IonaandScuppernongmay be either dry or sweet white wines.Portis a red sweet wine.
[86]Wine is the fermented juice of the grape. When the juice or must of the grape is exposed to temperatures ranging from 55° to 65°F. the micro-organisms which accompany the fruit, the yeast of the wine-maker, are transformed from a comparatively dormant state to one of great activity. The action of the organisms on grape must is called fermentation and through it certain physical and chemical changes take place whereby the must is changed in taste and in color, and a part or all of its sugar is changed into alcohol. The methods of making wine differ in different countries and in different localities depending upon the climate, kind of grapes grown, condition of growth, and the kind of wine produced, yet the principles and chief processes are much the same and may be briefly described as follows:
In general grapes are not picked for wine-making until they have reached full maturity thus insuring a higher sugar content, richness of flavor and perfect color. It is customary to determine the composition of the must as to sugar and acid content by various instruments devised for the purpose and if it lack sugar this ingredient is added; if it be too acid water is added; or the composition may be otherwise changed depending upon a number of circumstances though manifestly reputable wine-makers change the natural grape juice as little as possible. Soon after harvesting the grapes are crushed. The ancient method, which still prevails in many parts of Europe, was to tramp the grapes with bare feet or wooden shoes. Tramping is for most part superseded by mechanical crushers which break the skins but do not crush the seeds. For some wines the stems of the grapes are removed; for others it is essential that the grapes be not stemmed. Stemming may be done by hand, by a rake over a screen, or by specially devised machines. If white wine is to be made the juice is separated from skins and pulp at once; if red wine is desired fermentation takes place in the crushed grapes or marc.
Fermentation is carried on in large tanks or vats varying in capacity from 1000 gallons to 10,000 gallons or more. Some wine-makers prefer open vats, others keep them closed. The duration of fermentation depends upon many conditions and varies from two or three to fifteen or twenty days, depending upon the amount of sugar in the must, the temperature, activity of ferments, etc., etc. Wine-makers observe several distinct stages of fermentation which must be closely watched and controlled. A most important influence is exerted on fermentation by temperature. The limits below which and above which fermentation does not take place are 55° and 90°F. In general it is desirable that fermentation take place at temperatures ranging about 70°. When it is found that the sugar is practically all converted into alcohol, or that such conversion has proceeded far enough, the new wine is drawn or pumped from the fermenting vats into casks or barrels where it ages though it may require special treatment for clearing. Before bottling it is usually necessary to rack the wine into new barrels twice or three times to stop secondary fermentations which invariably take place.
Special treatments result in several distinct classes of wine. Thus we can divide wine intoredandwhiteas to color. Red wines are produced from colored grapes the color being extracted in the process of fermentation. White wines are made from light colored grapes or if from colored fruit the must is not allowed to ferment on the marc and so extract the color. We may again divide wines intodryandsweet. Dry wines are those in which the sugar is practically all converted into alcohol. Sweet wines are those which retain more or less sugar. These are often fortified by the addition of alcohol. A third division is that ofstillandsparklingwines. Still wines are those in which the carbonic acid gas formed by fermentation has wholly escaped. Sparkling wines retain a greater or less amount of this carbonic acid gas.
All of the above classes are further divided into well marked types according to their color and taste, their alcoholic content, and the countries in which they are produced. The following are the leading wines made from native grapes:Catawba,Delaware,Concord,Norton’s Virginia,Ives,Scuppernong,Iona,Claret,PortandChampagne. Of theseClaret,Norton’s VirginiaandIvesare red dry wines.Catawba,Delaware,IonaandScuppernongmay be either dry or sweet white wines.Portis a red sweet wine.
[87]Vol. 22: No. 3:22.
[87]Vol. 22: No. 3:22.
[88]Champagne obtains its name from the fact that it is chiefly produced in the Province of Champagne in France. Its special characteristic is that during fermentation, which is usually brought about in the bottle, the carbonic acid gas generated is absorbed by the wine. When the bottle is opened the gas is disengaged and the wine effervesces or “sparkles”. Good champagne requires grapes of high quality and of special adaptability; the fruit must be well ripened, free from decayed berries, and clean. The first fermentation takes place during a period of several months in the regular receptacles for this purpose after which the wine from several varieties of grapes is blended. Good champagne usually contains some old wine. After bottling, the wine is held at slightly different temperatures for varying lengths of time to secure proper fermentation in the bottle until at the end of several months it is held at a comparatively low temperature in which the bottles remain from three to four years. The bottles must then receive some treatment which will remove the sediment which has been formed by fermentation. This is usually done by placing them in racks cork down at about an angle of 45 degrees or a little more. By dexterously shaking and jarring the bottles the sediment is loosened and deposited in the neck of the bottle. Lastly the sediment is disgorged by skillfully withdrawing the cork, a small portion of the wine being wasted in the operation. The bottles are then filled with a dosage of rock-candy dissolved in an old dry wine, the amount used determining the sweetness of the champagne. The bottles are then corked, wired, capped, labelled and cased, after which the champagne is ready for the market.
[88]Champagne obtains its name from the fact that it is chiefly produced in the Province of Champagne in France. Its special characteristic is that during fermentation, which is usually brought about in the bottle, the carbonic acid gas generated is absorbed by the wine. When the bottle is opened the gas is disengaged and the wine effervesces or “sparkles”. Good champagne requires grapes of high quality and of special adaptability; the fruit must be well ripened, free from decayed berries, and clean. The first fermentation takes place during a period of several months in the regular receptacles for this purpose after which the wine from several varieties of grapes is blended. Good champagne usually contains some old wine. After bottling, the wine is held at slightly different temperatures for varying lengths of time to secure proper fermentation in the bottle until at the end of several months it is held at a comparatively low temperature in which the bottles remain from three to four years. The bottles must then receive some treatment which will remove the sediment which has been formed by fermentation. This is usually done by placing them in racks cork down at about an angle of 45 degrees or a little more. By dexterously shaking and jarring the bottles the sediment is loosened and deposited in the neck of the bottle. Lastly the sediment is disgorged by skillfully withdrawing the cork, a small portion of the wine being wasted in the operation. The bottles are then filled with a dosage of rock-candy dissolved in an old dry wine, the amount used determining the sweetness of the champagne. The bottles are then corked, wired, capped, labelled and cased, after which the champagne is ready for the market.
[89]Champagne: Decrease in Imports and Increase in Domestic Production, April 25, 1907, p. 427.
[89]Champagne: Decrease in Imports and Increase in Domestic Production, April 25, 1907, p. 427.
[90]Grape juice is made from clean, sound but not over-ripe grapes. The juice is pressed out by machinery in commercial practice but in the home manufacture of the product, the grapes may be pressed by the hands. If a light-colored juice is desired the liquid is extracted without heating the grapes; for a red juice the pulp is heated before pressing and the grapes must be dark in color. In either case the heating is done in a double boiler so that the juice does not come in direct contact with the fire. The proper temperature ranges from 180° F. to 200° F. and must never exceed the 200° mark if the flavor of uncooked grapes is desired. After heating, the juice is allowed to settle for twenty-four hours in a glass, crockery or enameled vessel after which it is carefully drained from the sediment and strained through some sterilized filter. In home practice several thicknesses of flannel, previously boiled, will do for a filter. The liquid is then filled into clean bottles leaving room for expansion in the second heating. The bottled juice is now heated a second time after which it is immediately corked and sealed. The principles involved in making grape juice are the same as those observed in canning fruit and the operation may be varied in the former as it is in the latter if only certain fundamental processes are followed.
[90]Grape juice is made from clean, sound but not over-ripe grapes. The juice is pressed out by machinery in commercial practice but in the home manufacture of the product, the grapes may be pressed by the hands. If a light-colored juice is desired the liquid is extracted without heating the grapes; for a red juice the pulp is heated before pressing and the grapes must be dark in color. In either case the heating is done in a double boiler so that the juice does not come in direct contact with the fire. The proper temperature ranges from 180° F. to 200° F. and must never exceed the 200° mark if the flavor of uncooked grapes is desired. After heating, the juice is allowed to settle for twenty-four hours in a glass, crockery or enameled vessel after which it is carefully drained from the sediment and strained through some sterilized filter. In home practice several thicknesses of flannel, previously boiled, will do for a filter. The liquid is then filled into clean bottles leaving room for expansion in the second heating. The bottled juice is now heated a second time after which it is immediately corked and sealed. The principles involved in making grape juice are the same as those observed in canning fruit and the operation may be varied in the former as it is in the latter if only certain fundamental processes are followed.
[91]A raisin is a dried and cured grape. Raisin-making is a simple process. The grapes are arranged on shallow trays, and placed in the sun to dry, being turned now and then by placing an empty tray on a full one and turning both over after which the top tray is removed. When the grapes are properly dried they are put in bins to sweat preparatory to packing and shipping. The finishing touch in the drying is sometimes given in curing-houses, however, to avoid injury from rain or dust. Seeding, grading, packing and selling are now separate industries from growing and curing. At present all raisins are made from varieties of the Old World grape, no American sort having been found suitable for raisin-making. A variety adapted for making a raisin, something better than simply a “dried grape”, must have a large percentage of sugar and solids, a thin skin, and a high flavor. American grapes lack in sugar content and have a skin so thick and tough that the fruit does not cure properly for a good raisin. The raisin industry in the United States is carried on only in California, the great bulk of the crop coming from the San Joaquin Valley and a few of the southern counties of that State. Formerly the raisins used in this country were wholly imported; now this product of the grape is exported and in increasing quantities. The annual production of raisins is in the neighborhood of 100,000,000 pounds.
[91]A raisin is a dried and cured grape. Raisin-making is a simple process. The grapes are arranged on shallow trays, and placed in the sun to dry, being turned now and then by placing an empty tray on a full one and turning both over after which the top tray is removed. When the grapes are properly dried they are put in bins to sweat preparatory to packing and shipping. The finishing touch in the drying is sometimes given in curing-houses, however, to avoid injury from rain or dust. Seeding, grading, packing and selling are now separate industries from growing and curing. At present all raisins are made from varieties of the Old World grape, no American sort having been found suitable for raisin-making. A variety adapted for making a raisin, something better than simply a “dried grape”, must have a large percentage of sugar and solids, a thin skin, and a high flavor. American grapes lack in sugar content and have a skin so thick and tough that the fruit does not cure properly for a good raisin. The raisin industry in the United States is carried on only in California, the great bulk of the crop coming from the San Joaquin Valley and a few of the southern counties of that State. Formerly the raisins used in this country were wholly imported; now this product of the grape is exported and in increasing quantities. The annual production of raisins is in the neighborhood of 100,000,000 pounds.
[92]According to Bartram, the aborigines of eastern America made raisins from the wild grapes. He describes the process they used as follows: “The Indians gather great quantities of wild grapes which they prepare for keeping, by first sweating them on hurdles over a gentle fire, and afterwards dry them on their bunches in the sun and air, and store them up for provisions.”
[92]According to Bartram, the aborigines of eastern America made raisins from the wild grapes. He describes the process they used as follows: “The Indians gather great quantities of wild grapes which they prepare for keeping, by first sweating them on hurdles over a gentle fire, and afterwards dry them on their bunches in the sun and air, and store them up for provisions.”
[93]Tarr, R. S.,Cornell(N. Y.)Exp. Sta. Bul., 109. 1896.
[93]Tarr, R. S.,Cornell(N. Y.)Exp. Sta. Bul., 109. 1896.
[94]Burke, R. T. Avon, and Marean, Herbert, Field Operations, Bureau of Soils, U. S. Dept. of Agriculture. 1901.
[94]Burke, R. T. Avon, and Marean, Herbert, Field Operations, Bureau of Soils, U. S. Dept. of Agriculture. 1901.
[95]Tarr, R. S.,Cornell(N. Y.)Exp. Sta. Bul., 109. 1896.
[95]Tarr, R. S.,Cornell(N. Y.)Exp. Sta. Bul., 109. 1896.
[96]Burke, R. T. Avon, and Marean, Herbert, Field Operations, Bureau of Soils, U. S. Dept. of Agriculture. 1901.
[96]Burke, R. T. Avon, and Marean, Herbert, Field Operations, Bureau of Soils, U. S. Dept. of Agriculture. 1901.
[97]Elijah Fay was born in Southborough, Massachusetts, in 1781. He moved to Brocton, Chautauqua County, New York, in the fall of 1811. The early history of not only the viticulture but of the horticulture of the Chautauqua region is interwritten with that of the Fay family. Elijah Fay’s children and grandchildren inherited a love of horticulture from their ancestor and several of them, as mentioned in the text, have been noted for their horticultural work in this region. Lincoln Fay, a nephew of Elijah Fay, one of the first men to grow and sell grape vines in the region, originated the Fay currant which was afterwards introduced by him and his son Elijah H. Fay. Of the Fay family, noted in the annals of grape-growing in this region, only G. E. Ryckman and L. R. Ryckman, grandchild and great-grandchild of Elijah Fay, are now living. Elijah Fay lived to the ripe age of eighty, dying in 1860. His memory should be long cherished as one of the founders of the viticulture of New York.
[97]Elijah Fay was born in Southborough, Massachusetts, in 1781. He moved to Brocton, Chautauqua County, New York, in the fall of 1811. The early history of not only the viticulture but of the horticulture of the Chautauqua region is interwritten with that of the Fay family. Elijah Fay’s children and grandchildren inherited a love of horticulture from their ancestor and several of them, as mentioned in the text, have been noted for their horticultural work in this region. Lincoln Fay, a nephew of Elijah Fay, one of the first men to grow and sell grape vines in the region, originated the Fay currant which was afterwards introduced by him and his son Elijah H. Fay. Of the Fay family, noted in the annals of grape-growing in this region, only G. E. Ryckman and L. R. Ryckman, grandchild and great-grandchild of Elijah Fay, are now living. Elijah Fay lived to the ripe age of eighty, dying in 1860. His memory should be long cherished as one of the founders of the viticulture of New York.
[98]The writer is indebted to Mr. G. E. Ryckman of this firm, for the information given here.
[98]The writer is indebted to Mr. G. E. Ryckman of this firm, for the information given here.
[99]The Grape Belt, 16: No. 20, Feb. 26, 1907.
[99]The Grape Belt, 16: No. 20, Feb. 26, 1907.
[100]The Grape Belt, 16: No. 20, Feb. 26, 1907.
[100]The Grape Belt, 16: No. 20, Feb. 26, 1907.
[101]The grape-vine fidia (Fidia viticidaWalsh) is a robust beetle, a quarter of an inch in length, brown in color but whitened by a thick covering of yellowish-white hairs. The beetle lays its eggs in the cracks and crevices of the bark of the grape vines well above ground. The eggs are produced in large numbers, often as many as several hundred to the vine. Upon hatching, the larvae quickly worm their way into the ground and begin to feed upon the fibrous roots of the vine, passing from these to the larger roots. Possibly the chief damage is done on the larger roots which are often entirely stripped of bark for a length of several feet. The larvae attain their full size, a half inch in length, by the middle of August, and then hibernate until the following June. The winter is spent in earthen cells. After about two weeks as pupae in June, the full grown beetles emerge from the ground and begin to feed upon the upper surface of the leaves, eating out the cellular tissue, thus skeletonizing the foliage. The adults disappear the succeeding August. The most efficient means of checking the fidia so far found is an application of an arsenical spray applied during the time the beetles are feeding on the foliage.
[101]The grape-vine fidia (Fidia viticidaWalsh) is a robust beetle, a quarter of an inch in length, brown in color but whitened by a thick covering of yellowish-white hairs. The beetle lays its eggs in the cracks and crevices of the bark of the grape vines well above ground. The eggs are produced in large numbers, often as many as several hundred to the vine. Upon hatching, the larvae quickly worm their way into the ground and begin to feed upon the fibrous roots of the vine, passing from these to the larger roots. Possibly the chief damage is done on the larger roots which are often entirely stripped of bark for a length of several feet. The larvae attain their full size, a half inch in length, by the middle of August, and then hibernate until the following June. The winter is spent in earthen cells. After about two weeks as pupae in June, the full grown beetles emerge from the ground and begin to feed upon the upper surface of the leaves, eating out the cellular tissue, thus skeletonizing the foliage. The adults disappear the succeeding August. The most efficient means of checking the fidia so far found is an application of an arsenical spray applied during the time the beetles are feeding on the foliage.
[102]Grape-vine flea-beetle (Haltica chalybeaIll.).—The adult insects are shining steel-blue flea-beetles measuring about one-fifth of an inch in length. They live during the winter under the bark of the old vines or in rubbish in the fields. They emerge from their winter quarters during the first warm days of spring, and feed upon the opening buds and young leaves. Egg-laying begins late in April or early in May. The eggs are placed singly near the buds or upon the leaves and hatch in about ten days. The young larvae are dark brown in color but soon become prominently marked with black dots and patches. They are full grown in from three to four weeks at which time they measure about a quarter of an inch in length. They feed on the leaves devouring only the soft parts at first, but finally eating irregular holes through the leaves. When ready to pupate they go a short distance into the ground. The adults emerge during the latter part of June or early in July. They probably feed during all of the summer, finally seeking shelter for the winter as above indicated.The vines should be sprayed with paris green, one pound to fifty gallons of water, just before the buds begin to swell or with some other arsenite. Much pains should be taken to make this application thorough. Later when the worms appear on the leaves, paris green may be applied at the usual strength, one pound to 150 gallons of lime and water, or combined with bordeaux mixture. Both upper and under surfaces of the leaves should be covered. Applications of arsenicals for the grape-vine fidia will help greatly to keep this insect in check.
[102]Grape-vine flea-beetle (Haltica chalybeaIll.).—The adult insects are shining steel-blue flea-beetles measuring about one-fifth of an inch in length. They live during the winter under the bark of the old vines or in rubbish in the fields. They emerge from their winter quarters during the first warm days of spring, and feed upon the opening buds and young leaves. Egg-laying begins late in April or early in May. The eggs are placed singly near the buds or upon the leaves and hatch in about ten days. The young larvae are dark brown in color but soon become prominently marked with black dots and patches. They are full grown in from three to four weeks at which time they measure about a quarter of an inch in length. They feed on the leaves devouring only the soft parts at first, but finally eating irregular holes through the leaves. When ready to pupate they go a short distance into the ground. The adults emerge during the latter part of June or early in July. They probably feed during all of the summer, finally seeking shelter for the winter as above indicated.
The vines should be sprayed with paris green, one pound to fifty gallons of water, just before the buds begin to swell or with some other arsenite. Much pains should be taken to make this application thorough. Later when the worms appear on the leaves, paris green may be applied at the usual strength, one pound to 150 gallons of lime and water, or combined with bordeaux mixture. Both upper and under surfaces of the leaves should be covered. Applications of arsenicals for the grape-vine fidia will help greatly to keep this insect in check.
[103]Grape leaf-hopper (Typhlocyba comesSay).—There are several species of leaf-hoppers which attack the grape but this species is probably the most common in this State. These little leaf-hoppers are often erroneously called thrips. The adult insects measure about one-eighth of an inch in length. They vary greatly in color but the prevailing color is usually light yellowish-green. The back and wings are ornamented with bright red, yellow and brown. They are found upon the vines from spring until fall. They feed together, sucking the sap from the leaves, principally from the under surface, causing them to turn brown in patches. The eggs are deposited singly in the tissue of the under surface of the leaves. The young resemble the adults in form but are not provided with wings and are green or yellowish-green in color. There are several broods during the season. Some of the adults of the last brood hibernate in any convenient rubbish about the vineyard. Treatment for young hoppers should be made early in July. To obtain the best results use whale-oil soap at the rate of one pound to ten gallons of water, directing the spraying with the hand. Vineyards and adjacent land should be kept as free as possible from grass and weeds as they afford shelter to the insect.
[103]Grape leaf-hopper (Typhlocyba comesSay).—There are several species of leaf-hoppers which attack the grape but this species is probably the most common in this State. These little leaf-hoppers are often erroneously called thrips. The adult insects measure about one-eighth of an inch in length. They vary greatly in color but the prevailing color is usually light yellowish-green. The back and wings are ornamented with bright red, yellow and brown. They are found upon the vines from spring until fall. They feed together, sucking the sap from the leaves, principally from the under surface, causing them to turn brown in patches. The eggs are deposited singly in the tissue of the under surface of the leaves. The young resemble the adults in form but are not provided with wings and are green or yellowish-green in color. There are several broods during the season. Some of the adults of the last brood hibernate in any convenient rubbish about the vineyard. Treatment for young hoppers should be made early in July. To obtain the best results use whale-oil soap at the rate of one pound to ten gallons of water, directing the spraying with the hand. Vineyards and adjacent land should be kept as free as possible from grass and weeds as they afford shelter to the insect.
[104]Grape berry moth (Polychrosis viteanaClem.).—The young caterpillars feed within the grapes finally causing them to turn dark colored and to wither. This injury is sometimes mistaken for the black-rot. After devouring the soft parts of one grape the caterpillar goes to another, fastening the two together by a silken thread. This may be continued until several in a bunch have been destroyed by one caterpillar. The young caterpillars are very light green in color with a brown head. When full grown they measure about one-fourth of an inch in length and are dark olive green in color tinged slightly with red. The cocoon is formed on a leaf and is partially composed of two small pieces cut out of the leaf. The adults of the spring brood emerge in from twelve to fourteen days. The fore-wings have a bluish tinge and are marked with brown, while the posterior wings are dull brown. The moths are small measuring nearly half an inch from tip to tip when the wings are spread. The eggs are probably laid late in June or early in July. There are two broods annually in this State. As the caterpillars spend most of their lives within the grape berries, spraying does not entirely control the pest. Yet the arsenicals applied for the grape-vine fidia will help much in keeping it in check. Picking and destroying the infested fruit and the leaves containing the cocoons helps much.
[104]Grape berry moth (Polychrosis viteanaClem.).—The young caterpillars feed within the grapes finally causing them to turn dark colored and to wither. This injury is sometimes mistaken for the black-rot. After devouring the soft parts of one grape the caterpillar goes to another, fastening the two together by a silken thread. This may be continued until several in a bunch have been destroyed by one caterpillar. The young caterpillars are very light green in color with a brown head. When full grown they measure about one-fourth of an inch in length and are dark olive green in color tinged slightly with red. The cocoon is formed on a leaf and is partially composed of two small pieces cut out of the leaf. The adults of the spring brood emerge in from twelve to fourteen days. The fore-wings have a bluish tinge and are marked with brown, while the posterior wings are dull brown. The moths are small measuring nearly half an inch from tip to tip when the wings are spread. The eggs are probably laid late in June or early in July. There are two broods annually in this State. As the caterpillars spend most of their lives within the grape berries, spraying does not entirely control the pest. Yet the arsenicals applied for the grape-vine fidia will help much in keeping it in check. Picking and destroying the infested fruit and the leaves containing the cocoons helps much.
[105]For a full account of the geology of these lakes and the valleys in which they lie, see thePhysical Geography of New York Stateby Ralph S. Tarr. New York. 1902.
[105]For a full account of the geology of these lakes and the valleys in which they lie, see thePhysical Geography of New York Stateby Ralph S. Tarr. New York. 1902.
[106]Black-rot (Guignardia bidwellii(Ell.) V. & R.) usually appears first on the leaves where it forms circular, reddish-brown spots on which black pimples, or spore cases, develop. Within these spore cases, at maturity, are the summer spores. These are distributed by the elements to the growing parts of the plant and form new centers of infection. The diseased berries show analogous circular spots bearing spores and as the disease progresses the grapes wither, turn black, and become hard and shrivelled, sometimes clinging to the vine until the following spring. Growing shoots are attacked as well as leaves and fruit. During the winter and spring the resting spores are formed, usually upon the shrivelled berries.Treatment consists of destroying as far as possible all diseased fruit, old leaves and prunings and in spraying thoroughly with bordeaux mixture as follows:—1. Just as the pink tips of the first leaves appear.2. From ten days to two weeks after the first spraying.3. Just after the blossoming.4. From ten to fourteen days after the third spraying.5. After an interval of from ten to fourteen days from the fourth spraying.
[106]Black-rot (Guignardia bidwellii(Ell.) V. & R.) usually appears first on the leaves where it forms circular, reddish-brown spots on which black pimples, or spore cases, develop. Within these spore cases, at maturity, are the summer spores. These are distributed by the elements to the growing parts of the plant and form new centers of infection. The diseased berries show analogous circular spots bearing spores and as the disease progresses the grapes wither, turn black, and become hard and shrivelled, sometimes clinging to the vine until the following spring. Growing shoots are attacked as well as leaves and fruit. During the winter and spring the resting spores are formed, usually upon the shrivelled berries.
Treatment consists of destroying as far as possible all diseased fruit, old leaves and prunings and in spraying thoroughly with bordeaux mixture as follows:—
1. Just as the pink tips of the first leaves appear.
2. From ten days to two weeks after the first spraying.
3. Just after the blossoming.
4. From ten to fourteen days after the third spraying.
5. After an interval of from ten to fourteen days from the fourth spraying.
[107]Downy mildew (Plasmopara viticola(B. & C.) Berl. & De Toni) is a troublesome fungus attacking all of the tender growing parts of the grape. It does most damage to the leaves, upon the upper surface of which it produces greenish-yellow spots of irregular outline. At the same time a loose white downy growth appears on the under side of the leaves. This growth consists of short filaments bearing spores, the summer spores, which are carried by the elements to other growing parts of the plant, thus spreading the disease. Affected berries, if young, first show a brown spot, and become covered with the gray down which distinguishes the fungus. On older berries the fungus causes a brown-purple spot which spreads until it takes in the whole berry, which then becomes soft and often falls, or they may become hard and persist. At this stage the disease is commonly known as “brown rot”. The winter, or resting, spores are produced in the tissue of fruit and leaves and with a thick protective covering. The winter spores are dark, almost black, in color. Downy mildew spreads and does most damage in hot wet weather. Spraying with bordeaux mixture as indicated for black-rot will keep downy mildew in check.
[107]Downy mildew (Plasmopara viticola(B. & C.) Berl. & De Toni) is a troublesome fungus attacking all of the tender growing parts of the grape. It does most damage to the leaves, upon the upper surface of which it produces greenish-yellow spots of irregular outline. At the same time a loose white downy growth appears on the under side of the leaves. This growth consists of short filaments bearing spores, the summer spores, which are carried by the elements to other growing parts of the plant, thus spreading the disease. Affected berries, if young, first show a brown spot, and become covered with the gray down which distinguishes the fungus. On older berries the fungus causes a brown-purple spot which spreads until it takes in the whole berry, which then becomes soft and often falls, or they may become hard and persist. At this stage the disease is commonly known as “brown rot”. The winter, or resting, spores are produced in the tissue of fruit and leaves and with a thick protective covering. The winter spores are dark, almost black, in color. Downy mildew spreads and does most damage in hot wet weather. Spraying with bordeaux mixture as indicated for black-rot will keep downy mildew in check.
[108]Powdery mildew (Uncinula necator(Schw.) Burr.) is caused by a fungus which lives on the surface of the leaves. It subsists by means of sucker-like organs which penetrate the walls of the surface layer of cells. The vegetative portion of the parasite consists of fine white filaments which spread over the surface of the leaves, shoots and fruit. In the summer these filaments send up short, irregular stalks upon which large numbers of barrel-shaped spores are produced in chain-like arrangement. These are the summer spores of the fungus. They are borne in greatest quantity on the upper surfaces of the leaves and give the leaf a gray, powdery appearance—hence the name, powdery mildew. Affected leaves finally become light brown and often fall. Diseased fruits are gray in color, scurfy, become specked with brown, fail to develop and often burst on one side thereby showing the seeds. The winter or resting spores are borne in sacs, in the latter part of the season. The spore sacs, in their turn, are borne in small, black, spherical spore cases, each furnished with a number of slender appendages having curled tips. The powdery mildew, unlike most other fungus troubles of the grape, is most prevalent in hot dry weather. The disease is combatted by dusting with flowers of sulphur or by spraying with bordeaux mixture as for black-rot.
[108]Powdery mildew (Uncinula necator(Schw.) Burr.) is caused by a fungus which lives on the surface of the leaves. It subsists by means of sucker-like organs which penetrate the walls of the surface layer of cells. The vegetative portion of the parasite consists of fine white filaments which spread over the surface of the leaves, shoots and fruit. In the summer these filaments send up short, irregular stalks upon which large numbers of barrel-shaped spores are produced in chain-like arrangement. These are the summer spores of the fungus. They are borne in greatest quantity on the upper surfaces of the leaves and give the leaf a gray, powdery appearance—hence the name, powdery mildew. Affected leaves finally become light brown and often fall. Diseased fruits are gray in color, scurfy, become specked with brown, fail to develop and often burst on one side thereby showing the seeds. The winter or resting spores are borne in sacs, in the latter part of the season. The spore sacs, in their turn, are borne in small, black, spherical spore cases, each furnished with a number of slender appendages having curled tips. The powdery mildew, unlike most other fungus troubles of the grape, is most prevalent in hot dry weather. The disease is combatted by dusting with flowers of sulphur or by spraying with bordeaux mixture as for black-rot.
[109]Anthracnose (Sphaceloma ampelinumDe By.).—This disease attacks any of the tender portions of the growing vine. When the leaves are affected dark spots are first formed on their surface. As the disease advances these spots enlarge, and irregular cracks are often formed through the dead tissue. Frequently many of these small cracks run together, forming a long irregular slit through the leaf. Similar marks are formed on the tender shoots, though they are not so noticeable. When the fruit is attacked the disease is sometimes called bird’s-eye rot. Circular spots are formed on the surface of the berry. The spots may be of different colors and usually have a dark border; as the spots enlarge and eat in, a seed is often exposed in the center. In rotting the tissue becomes hard and wrinkled. Sometimes the disease girdles the stem of a fruit cluster, cutting off the supply of sap from the grapes beyond the diseased line and causing them to shrivel and die.Anthracnose does not spread as rapidly as some other vineyard diseases, neither does it yield as readily to treatment. When a vineyard is badly infested with anthracnose, it requires prompt attention and a careful treatment to control the disease. It is not satisfactorily controlled by bordeaux mixture alone. It is suggested that in addition to such treatment with this mixture as is given for black-rot the plan be followed which is advocated by certain European authorities, of applying a warm saturated solution of copperas (iron sulphate) in spring when the buds are swelling but before they begin to open. One per ct. or more of sulphuric acid may be added to the solution before it is applied. This solution must be handled with care as it is very caustic. It is applied with swabs or if the acid is not used it may be sprayed. It is essential that the work be done thoroughly, covering all the surface of the canes.
[109]Anthracnose (Sphaceloma ampelinumDe By.).—This disease attacks any of the tender portions of the growing vine. When the leaves are affected dark spots are first formed on their surface. As the disease advances these spots enlarge, and irregular cracks are often formed through the dead tissue. Frequently many of these small cracks run together, forming a long irregular slit through the leaf. Similar marks are formed on the tender shoots, though they are not so noticeable. When the fruit is attacked the disease is sometimes called bird’s-eye rot. Circular spots are formed on the surface of the berry. The spots may be of different colors and usually have a dark border; as the spots enlarge and eat in, a seed is often exposed in the center. In rotting the tissue becomes hard and wrinkled. Sometimes the disease girdles the stem of a fruit cluster, cutting off the supply of sap from the grapes beyond the diseased line and causing them to shrivel and die.
Anthracnose does not spread as rapidly as some other vineyard diseases, neither does it yield as readily to treatment. When a vineyard is badly infested with anthracnose, it requires prompt attention and a careful treatment to control the disease. It is not satisfactorily controlled by bordeaux mixture alone. It is suggested that in addition to such treatment with this mixture as is given for black-rot the plan be followed which is advocated by certain European authorities, of applying a warm saturated solution of copperas (iron sulphate) in spring when the buds are swelling but before they begin to open. One per ct. or more of sulphuric acid may be added to the solution before it is applied. This solution must be handled with care as it is very caustic. It is applied with swabs or if the acid is not used it may be sprayed. It is essential that the work be done thoroughly, covering all the surface of the canes.
[110]Chlorosis or yellow leaf.—The name is applied to a grape disease in which the foliage turns yellow, later becoming brown. It is common in several parts of the State but more particularly in the Central Lakes district. Chlorosis is more likely to appear in wet seasons. Some varieties, as the Diamond, are much more susceptible than others. In some seasons portions of the leaves may become yellow but eventually regain their normal color so that at the close of the season the vine appears to be in a healthy condition. In other instances the yellow color extends over the entire leaf; brown, dead patches appear; the leaf curls and eventually drops from the vine. If the vine loses its leaves two or three seasons in succession it is likely to die. One striking peculiarity of the disease is the fact that a badly diseased vine may appear by the side of a perfectly healthy vine of the same variety.The cause of chlorosis, as given by foreign investigators, is the presence of a large amount of lime in the soil which prevents the roots from taking up an amount of iron sufficient for satisfactory growth. Their experiments seem to show that the difficulty may be overcome by applying a small amount of sulphate of iron around affected plants. But since there are a number of good American varieties that are not subject to chlorosis, perhaps the better method to pursue is to plant only such varieties as are known to be free from this trouble.The standard varieties given in the following list are, so far as we know, practically exempt from chlorosis: Moore Early, Concord, Winchell, Delaware, Worden, Niagara, Catawba, Vergennes and Agawam.
[110]Chlorosis or yellow leaf.—The name is applied to a grape disease in which the foliage turns yellow, later becoming brown. It is common in several parts of the State but more particularly in the Central Lakes district. Chlorosis is more likely to appear in wet seasons. Some varieties, as the Diamond, are much more susceptible than others. In some seasons portions of the leaves may become yellow but eventually regain their normal color so that at the close of the season the vine appears to be in a healthy condition. In other instances the yellow color extends over the entire leaf; brown, dead patches appear; the leaf curls and eventually drops from the vine. If the vine loses its leaves two or three seasons in succession it is likely to die. One striking peculiarity of the disease is the fact that a badly diseased vine may appear by the side of a perfectly healthy vine of the same variety.
The cause of chlorosis, as given by foreign investigators, is the presence of a large amount of lime in the soil which prevents the roots from taking up an amount of iron sufficient for satisfactory growth. Their experiments seem to show that the difficulty may be overcome by applying a small amount of sulphate of iron around affected plants. But since there are a number of good American varieties that are not subject to chlorosis, perhaps the better method to pursue is to plant only such varieties as are known to be free from this trouble.
The standard varieties given in the following list are, so far as we know, practically exempt from chlorosis: Moore Early, Concord, Winchell, Delaware, Worden, Niagara, Catawba, Vergennes and Agawam.
[111]Tarr, R. S.,The Physical Geography of New York State: 4. 1902.
[111]Tarr, R. S.,The Physical Geography of New York State: 4. 1902.
[112]SeeStory of the Vine, E. R. Emerson: 198. 1902.
[112]SeeStory of the Vine, E. R. Emerson: 198. 1902.
[113]Joseph Pitton de Tournefort, a French botanist of considerable reputation in his day, was born at Aix, Provence, in 1656 and died in 1708. He was educated by the Jesuits for a priest but following a natural inclination he later became a botanist. In 1683 he became professor of botany at the Jardin des Plantes in Paris. While occupying this position he made trips through western Europe, Greece and Asia Minor. His principal work, and the one quoted here, isInstitutiones Rei Herbariaein three volumes, published in Paris in 1700. He was one of the most prominent systematic botanists who preceded Linnaeus.
[113]Joseph Pitton de Tournefort, a French botanist of considerable reputation in his day, was born at Aix, Provence, in 1656 and died in 1708. He was educated by the Jesuits for a priest but following a natural inclination he later became a botanist. In 1683 he became professor of botany at the Jardin des Plantes in Paris. While occupying this position he made trips through western Europe, Greece and Asia Minor. His principal work, and the one quoted here, isInstitutiones Rei Herbariaein three volumes, published in Paris in 1700. He was one of the most prominent systematic botanists who preceded Linnaeus.
[114]Humphrey Marshall was born in the town of West Bradford, Pennsylvania, in 1722, of Quaker parents. He was a cousin of John Bartram, their mothers being sisters. Like Bartram, he had few opportunities for education, not going to school after he was twelve years of age. He was a stone-mason by trade, studying botany in his leisure moments. In 1773 he started a botanic garden at Marshallton. In 1785 he publishedArbustrum Americanum, The American Grove, or An Alphabetical Catalog of Forest Trees and Shrubs, Natives of the American United States. This work had been in preparation about five years previous to its publication. It is said to be the first botanical work of a native American. Marshall died in 1801.
[114]Humphrey Marshall was born in the town of West Bradford, Pennsylvania, in 1722, of Quaker parents. He was a cousin of John Bartram, their mothers being sisters. Like Bartram, he had few opportunities for education, not going to school after he was twelve years of age. He was a stone-mason by trade, studying botany in his leisure moments. In 1773 he started a botanic garden at Marshallton. In 1785 he publishedArbustrum Americanum, The American Grove, or An Alphabetical Catalog of Forest Trees and Shrubs, Natives of the American United States. This work had been in preparation about five years previous to its publication. It is said to be the first botanical work of a native American. Marshall died in 1801.
[115]But little is known of the life of Thomas Walter. He was a native of Hampshire, England, and migrated to St. John’s Parish, South Carolina, where he had a plantation on the Santee River. Here he died in 1788 at about the age of forty-eight years. His only publication of note is theFlora Caroliniana, published in the year of his death. He must have been in correspondence with European botanists of that time as his herbarium is preserved in the British Museum.
[115]But little is known of the life of Thomas Walter. He was a native of Hampshire, England, and migrated to St. John’s Parish, South Carolina, where he had a plantation on the Santee River. Here he died in 1788 at about the age of forty-eight years. His only publication of note is theFlora Caroliniana, published in the year of his death. He must have been in correspondence with European botanists of that time as his herbarium is preserved in the British Museum.
[116]Grapes are not to-day considered dioecious but polygamo-dioecious, a distinction which will be defined later.
[116]Grapes are not to-day considered dioecious but polygamo-dioecious, a distinction which will be defined later.
[117]John Bartram was born near the village of Darby in Delaware (then Chester) County, Pennsylvania, in 1699. Bartram is generally credited with having established the first botanical garden in America. This garden was founded about 1728, some four miles south of what was the town of Philadelphia and is now a part of the Park System of that city. He was bred a Quaker but owing to his liberal opinions was excluded from that Society in 1758. During his life he was in correspondence with many of the leading scientific men of Europe to whom he sent many specimens of plants and other things of scientific interest. He made many trips into various parts of the colonies, to Ontario, Lake George, the Carolinas, Florida and Georgia, in search of information. The last of these journeys, that to the southern states, was made after he was seventy years of age. Bartram is blamed by all of his contemporaries for not having published more than he did. His death occurred in 1777.William Bartram, son of John Bartram, was born in 1739 and died in 1823. Much of his work was done in connection with his father under whom he received his botanical training. His best known work is hisTravels in the Carolinas, Georgia and Florida(1791), in which he gives an interesting account of that region, including descriptions of a number of new southern plants. His article on grapes which is here quoted was published in theDomestic Encyclopedia, 1804, and also in theMedical Repositoryof the same year.
[117]John Bartram was born near the village of Darby in Delaware (then Chester) County, Pennsylvania, in 1699. Bartram is generally credited with having established the first botanical garden in America. This garden was founded about 1728, some four miles south of what was the town of Philadelphia and is now a part of the Park System of that city. He was bred a Quaker but owing to his liberal opinions was excluded from that Society in 1758. During his life he was in correspondence with many of the leading scientific men of Europe to whom he sent many specimens of plants and other things of scientific interest. He made many trips into various parts of the colonies, to Ontario, Lake George, the Carolinas, Florida and Georgia, in search of information. The last of these journeys, that to the southern states, was made after he was seventy years of age. Bartram is blamed by all of his contemporaries for not having published more than he did. His death occurred in 1777.
William Bartram, son of John Bartram, was born in 1739 and died in 1823. Much of his work was done in connection with his father under whom he received his botanical training. His best known work is hisTravels in the Carolinas, Georgia and Florida(1791), in which he gives an interesting account of that region, including descriptions of a number of new southern plants. His article on grapes which is here quoted was published in theDomestic Encyclopedia, 1804, and also in theMedical Repositoryof the same year.
[118]Thomas Nuttall was born in Settle in Yorkshire, England, in 1786. He migrated to the United States in 1807, making his home in Philadelphia where he became acquainted with William Bartram and Dr. Barton. It was largely owing to the influence of these men that he turned his attention to botany. Nuttall was an extensive traveler and made botanical expeditions into many parts of the country. He explored the Middle West up to the Rocky Mountains and made a trip around the Horn to California. From 1825 to 1834 he was connected with Harvard College. In 1842 he was called to England by a bequest from an uncle left to him conditional on his residing for nine months of each year in England; compliance with this request caused a cessation of his botanical work in America. He died at Nutgrove, Lancashire, in 1859. Nuttall’s first and probably greatest work was hisGenera of North American Plants and Catalogue of the Species, published in 1818. Besides various accounts of his expeditions he made an addition of three volumes to Michaux’sSylvabringing that work up to six volumes.
[118]Thomas Nuttall was born in Settle in Yorkshire, England, in 1786. He migrated to the United States in 1807, making his home in Philadelphia where he became acquainted with William Bartram and Dr. Barton. It was largely owing to the influence of these men that he turned his attention to botany. Nuttall was an extensive traveler and made botanical expeditions into many parts of the country. He explored the Middle West up to the Rocky Mountains and made a trip around the Horn to California. From 1825 to 1834 he was connected with Harvard College. In 1842 he was called to England by a bequest from an uncle left to him conditional on his residing for nine months of each year in England; compliance with this request caused a cessation of his botanical work in America. He died at Nutgrove, Lancashire, in 1859. Nuttall’s first and probably greatest work was hisGenera of North American Plants and Catalogue of the Species, published in 1818. Besides various accounts of his expeditions he made an addition of three volumes to Michaux’sSylvabringing that work up to six volumes.
[119]Constantine Samuel Rafinesque was born in Galata, a suburb of Constantinople in European Turkey, in 1783. He was of French-German descent, his father being a French merchant of Marseilles, and his mother of Saxon parentage. In 1802 he came to Philadelphia. While here he was busied with mercantile pursuits, occupying a position as clerk, but studied botany out of office hours for amusement. In 1805 he went to Sicily where he spent the next ten years. Here he commenced the extensive series of publications which have made his name so well known to scientists. In 1815 he returned to the United States, traveling about from place to place for some time and finally settling in Lexington, Kentucky, where he became a professor in Transylvania University. He left Lexington in 1825, removing to Philadelphia, where he spent the remainder of his life, dying in poverty in 1840. Rafinesque’s biographer gives 420 differently titled articles on nearly all scientific subjects as the product of his pen. His monograph on grapes, entitledAmerican Manual of the Grape Vine and The Art of Making Wines, etc., was published in Philadelphia in 1830.
[119]Constantine Samuel Rafinesque was born in Galata, a suburb of Constantinople in European Turkey, in 1783. He was of French-German descent, his father being a French merchant of Marseilles, and his mother of Saxon parentage. In 1802 he came to Philadelphia. While here he was busied with mercantile pursuits, occupying a position as clerk, but studied botany out of office hours for amusement. In 1805 he went to Sicily where he spent the next ten years. Here he commenced the extensive series of publications which have made his name so well known to scientists. In 1815 he returned to the United States, traveling about from place to place for some time and finally settling in Lexington, Kentucky, where he became a professor in Transylvania University. He left Lexington in 1825, removing to Philadelphia, where he spent the remainder of his life, dying in poverty in 1840. Rafinesque’s biographer gives 420 differently titled articles on nearly all scientific subjects as the product of his pen. His monograph on grapes, entitledAmerican Manual of the Grape Vine and The Art of Making Wines, etc., was published in Philadelphia in 1830.
[120]Mo. Ent. Rpt.,1874:71.
[120]Mo. Ent. Rpt.,1874:71.
[121]Bush. Cat.,1883:9.
[121]Bush. Cat.,1883:9.
[122]N. Y. Sta. An. Rpt.,17:518. 1898.N. Y. Sta. Bul.157.1898.
[122]N. Y. Sta. An. Rpt.,17:518. 1898.N. Y. Sta. Bul.157.1898.
[123]Tex. Sta. Bul.,56:239. 1900.
[123]Tex. Sta. Bul.,56:239. 1900.
[124]Gar. and For.,8:47. 1895.
[124]Gar. and For.,8:47. 1895.
[125]W. Brennan, Gilgandra, N. S. W.
[125]W. Brennan, Gilgandra, N. S. W.
[126]André Michaux was a French botanist, born at Satory, Versailles, in 1746. He took up the study of botany and made many trips to foreign lands in behalf of the French Government. One of these was an expedition to North America where he remained from 1785 to 1796 exploring the country and gathering many botanical specimens through Canada, Nova Scotia and the United States as far west as the Mississippi. His chief works areHistoire des chenes de l’Amerique Septentrionale (History of the Oaks of North America), 1801; andFlora Boreali Americana, 1803. He described and namedVitis rotundifolia,V. aestivalis,V. cordifolia,V. riparia, andV. rubra, as well as giving much information on other species. Michaux died on the Island of Madagascar in 1802.F. André Michaux was born at Versailles in 1770 and died at Vaureal in 1855. He was a son of André Michaux and also a botanist, and like his father employed by the French Government to explore North America with a view of introducing valuable plants into France. He published in1810-13 aHistoire des Arbres Forestieres de l’Amerique Septentrionalewhich was later translated into English under the nameNorth American Sylva. He also publishedA Voyage a l-ouest des Monts Alleghanys, 1804.
[126]André Michaux was a French botanist, born at Satory, Versailles, in 1746. He took up the study of botany and made many trips to foreign lands in behalf of the French Government. One of these was an expedition to North America where he remained from 1785 to 1796 exploring the country and gathering many botanical specimens through Canada, Nova Scotia and the United States as far west as the Mississippi. His chief works areHistoire des chenes de l’Amerique Septentrionale (History of the Oaks of North America), 1801; andFlora Boreali Americana, 1803. He described and namedVitis rotundifolia,V. aestivalis,V. cordifolia,V. riparia, andV. rubra, as well as giving much information on other species. Michaux died on the Island of Madagascar in 1802.
F. André Michaux was born at Versailles in 1770 and died at Vaureal in 1855. He was a son of André Michaux and also a botanist, and like his father employed by the French Government to explore North America with a view of introducing valuable plants into France. He published in1810-13 aHistoire des Arbres Forestieres de l’Amerique Septentrionalewhich was later translated into English under the nameNorth American Sylva. He also publishedA Voyage a l-ouest des Monts Alleghanys, 1804.
[127]For discussion ofVitis vulpinasee foot-note underVitis riparia.
[127]For discussion ofVitis vulpinasee foot-note underVitis riparia.
[128]All grapes, other than the Rotundifolia, are in the South known as “bunch grapes” because they are sold on the market in clusters, the Rotundifolia being sold off the stems.
[128]All grapes, other than the Rotundifolia, are in the South known as “bunch grapes” because they are sold on the market in clusters, the Rotundifolia being sold off the stems.
[129]S. C. Sta. Bul.132. 1907.
[129]S. C. Sta. Bul.132. 1907.
[130]Bush. Cat.,1894:22.
[130]Bush. Cat.,1894:22.
[131]Husmann,1895:188.
[131]Husmann,1895:188.
[132]Husmann, G. C.,California Fruit Grower, Mar. 14, 1908.
[132]Husmann, G. C.,California Fruit Grower, Mar. 14, 1908.
[133]Samuel Botsford Buckley was born in 1809, in Yates County, New York, and was educated at Wesleyan University, where he graduated in 1836. In 1866 he was appointed State Geologist of Texas where he resided until he died in 1884. Buckley traveled extensively in connection with his work, explored the southwestern region of the Appalachian Mountains, as well as the southwestern portion of the United States. He was at great disadvantage in his publications in that they were prepared without the benefit of a library. His articles on grapes were published in theProceedings of the Philadelphia Academy of Natural Sciencesfor 1861, and in theUnited States Patent Office Reportfor the same year.
[133]Samuel Botsford Buckley was born in 1809, in Yates County, New York, and was educated at Wesleyan University, where he graduated in 1836. In 1866 he was appointed State Geologist of Texas where he resided until he died in 1884. Buckley traveled extensively in connection with his work, explored the southwestern region of the Appalachian Mountains, as well as the southwestern portion of the United States. He was at great disadvantage in his publications in that they were prepared without the benefit of a library. His articles on grapes were published in theProceedings of the Philadelphia Academy of Natural Sciencesfor 1861, and in theUnited States Patent Office Reportfor the same year.
[134]The description ofVitis vulpinaby Linnaeus is so meager, including the leaves only, that for many years botanists were in doubt as to the species intended. Muhlenberg was the single exception when he gave Linnaeus’ Vulpina and Michaux’s Cordifolia as synonymous. Whether he did this from knowledge, or whether it was by chance, it is impossible to say. He states no reasons and consequently received no following among other botanists. Elliott supposed that Linnaeus intended to describe the southern Rotundifolia and this view seems to have been generally accepted.In the late eighties or early nineties, Planchon first, and later Britton, by referring to Linnaeus’ specimens, determined that the latter’s Vulpina was the same as Riparia, and in accordance with botanical rules, presented the name Vulpina as the correct name for this species. Bailey, however, states (Ev. Nat. Fr.,1898:102) that he found two specimens in the Linnaeus collection labeled Vulpina, one of which was the true Riparia and the other Cordifolia. Since a change of the name would bring confusion to more than ninety years of botanical and horticultural literature, it seems inadvisable to make one on such contradictory evidence.
[134]The description ofVitis vulpinaby Linnaeus is so meager, including the leaves only, that for many years botanists were in doubt as to the species intended. Muhlenberg was the single exception when he gave Linnaeus’ Vulpina and Michaux’s Cordifolia as synonymous. Whether he did this from knowledge, or whether it was by chance, it is impossible to say. He states no reasons and consequently received no following among other botanists. Elliott supposed that Linnaeus intended to describe the southern Rotundifolia and this view seems to have been generally accepted.
In the late eighties or early nineties, Planchon first, and later Britton, by referring to Linnaeus’ specimens, determined that the latter’s Vulpina was the same as Riparia, and in accordance with botanical rules, presented the name Vulpina as the correct name for this species. Bailey, however, states (Ev. Nat. Fr.,1898:102) that he found two specimens in the Linnaeus collection labeled Vulpina, one of which was the true Riparia and the other Cordifolia. Since a change of the name would bring confusion to more than ninety years of botanical and horticultural literature, it seems inadvisable to make one on such contradictory evidence.