Trees, Fruits and Flowers of Minnesota, 1916 - Part 34
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Part 34

In this distribution all members will be treated exactly alike and altogether in accordance with the conditions noted in connection with the list of premiums as found on page six of the society folder and on the inside front cover page of the magazine.

[Ill.u.s.tration: VIEW IN FRUIT-BREEDING GREENHOUSE, STATE COLLEGE, BROOKINGS, S.D.

This is Prof. N. E. Hansen's laboratory, where he works out his problems in cross-breeding. (See opposite page.)]

While it is not the intention to publish anything in this magazine that is misleading or unreliable, yet it must be remembered that the articles published herein recite the experience and opinions of their writers, and this fact must always be noted in estimating their practical value.

THE MINNESOTA HORTICULTURIST

Vol. 44 MAY, 1916 No. 5

What is Hardiness?

PROF. N. E. HANSEN, HORTICULTURIST, BROOKINGS, S.D.

By the term hardiness is understood the capacity to resist against any special condition of environment. So in speaking of hardiness of the plant it may mean hardiness as to either cold, heat, drouth, fungus or insect trouble. In the present discussion hardiness against cold will be considered mainly, since that is the most difficult problem we have to meet in this horticultural field. It would be of great advantage could we determine by examination of the plant its power to resist cold. If we could determine by the looks of a new apple tree its power of resistance to our test winters, it would save us many thousands of dollars and much vexation of spirit. Some years ago the Iowa State Horticultural Society made a determined and praiseworthy effort to determine hardiness by some characteristic of the plant, especially in apple trees. A chemical test of the sap of hardy and tender varieties was made. The palisade cells of the leaf, and the cellular structure of the wood, were examined under high powers of the microscope to determine some means by which a tender variety could be distinguished from a hardy one, but no general rule or conclusion could be formulated. In a general way nurserymen and orchardists say that a variety that ripens its wood well in the fall shows it by the twigs being st.u.r.dy and not easily bent, while twigs that are not well ripened indicate lack of hardiness.

The winter of 1884-85 was preceded by a late, wet autumn that kept trees of all varieties growing very late, so that winter came before the wood was ripened. In all the literature on this subject, I have been unable to find any method by which a hardy variety could be distinguished from a tender one of the same species, or, in other words, there is no correlation between morphology and hardiness.

Although we do not know what determines hardiness, we may still go ahead with our experimental work. We do not really know what electricity is, but inventors in that line have enough of a theory on this subject so that they are able to work very successfully with this gigantic force of nature. We know there is a difference in hardiness between the red cedar of Tennessee and the red cedar of Minnesota, and that it is safest for us to plant the tree as it is found at the north. The same applies to many other trees that are found native over a wide area. At Moscow, Russia, the box elder as first imported was from St. Louis, and it winter-killed. Afterwards they got the box elder from Manitoba, and it proved perfectly hardy. Although botanically both are the same, yet there is a difference in hardiness.

My way of securing hardiness is to work with plants that are already hardy. I like to work with native plums in my plant breeding experiments because there need be no concern about their hardiness. We know they are hardy, or they would not be here after thousands of years of natural selection in this climate.

The other way of obtaining hardiness is by crossing a tender variety with a hardy one. When we cross the native plum with the j.a.panese plum, we obtain seedlings that combine in a fair measure the hardiness of the native plum with the size and quality of the j.a.panese plum.

In many states of the Union the question of varieties for commercial orchards has been to a large degree settled. There is always room for a new apple, but for commercial purposes the varieties already in cultivation are sufficiently satisfactory as to size, color and quality as well as in keeping and shipping capacity. So the main effort in their horticultural societies is along other lines, such questions as marketing, packing, spraying, insects, fungi and orchard management. But in this region the winter apple question is still a vital one.

Some promising winter apples have appeared recently, and it remains to be seen whether they will stand up under the next test winter. They are certainly satisfactory in size, color, quality and keeping capacity.

The greatest question now presents itself in planting apple seed. What variety shall I choose? Some pedigrees may be like a blind alley, they will lead us nowhere. The commercial apples of the East and of the Pacific Coast are the survivors of millions of apple seedlings raised by immigrants from Western Europe during the past three centuries. They survived because they were the best. From time to time very good varieties are super-ceded by new ones that appear. From the ashes of millions of seedlings will arise, Phoenix-like, the creations that will dominate our future prairie pomology. Here in the Northwest thousands of farmers have already determined to a considerable extent what we may expect from planting the seed of certain standard varieties.

[Ill.u.s.tration: The Waneta plum. A promising variety originated and introduced by Prof. N. E. Hansen.]

Wisconsin, Minnesota and Iowa are full of seedlings of the d.u.c.h.ess. Some of the best are Okabena, Peerless, Patten's Greening, Milwaukee, Dudley, Pewaukee. A very large amount of Wealthy seed has been planted, especially in Minnesota. Many of these give promise, but in none do we appear to have obtained the true winter-keeping capacity. The Wealthy has given us the Lord's L, Evelyn, Lyman Sweet, Perfect and many more, observed at Minnesota state fairs from time to time. The Malinda has given us in the Perkins' seedlings a number of promising new varieties that evidently are true winter keepers. The fact that they appear hardy may come from the fact that the original orchard had hardy varieties, like the d.u.c.h.ess, standing near the Malinda. From the experience with these three varieties I would like to draw the conclusion that in order to get winter apples we should save the seed of winter apples, but it would not be safe to draw this conclusion without further experiments.

There is an immense number of Ben Davis seedlings in Missouri and adjoining states, but none appear to have come into extensive commercial notice except the Black Ben Davis and Gano. But as near as I can learn we cannot obtain real hardiness from this line of descent, unless the Ben Davis in the mother orchard is standing near varieties like the d.u.c.h.ess.

The seed of standard winter apples top-grafted on hardy stocks like Hibernal should be carefully saved as nature may have smiled with indulgence upon your efforts and created the desired variety. I am watching with great interest a tree of very vigorous, smooth growth, from seed of Talman Sweet top-grafted on d.u.c.h.ess. You would not expect to get anything hardy from seed of the Talman Sweet, but the entire hardiness so far of the young trees propagated from the original seedling, makes me impatient to see the fruit. A blend of Talman Sweet and d.u.c.h.ess ought certainly to bring something good, but they will not all be hardy or all good. The fact that there are so many different lines of pedigree available to us in our apple work, makes it all the more necessary for us to divide the work.

Let us gather inspiration from the story of Johnny Apple-Seed--one of the patron saints of American horticulture--who about one hundred and twenty-five years ago forced his way through the wilderness of Indiana and Ohio and planted many bushels of apple seed as he went along, so that when settlers came they found their orchards ready for them. The story of John Chapman and his unselfish efforts in planting the seed of apples and other fruits in the American wilderness should give us courage and patience to give a little of our time to this work. Make a record of what seeds you plant, and when the seedlings are one year of age plant them out in a row where they can be cultivated. Select the best ones as they fruit and bring to the state fair or horticultural meeting. You may not win the grand prize, but you will have the satisfaction of having made some contribution to the common welfare.

In localities where cottontails are sufficiently abundant to be a continual menace, the safest and most nearly permanent method of securing immunity from their ravages is to fence against them. It has been found that woven wire netting of one and one-half inch mesh and thirty inches high will exclude rabbits, provided, that the lower border of the fence is buried five or six inches below the surface of the ground. In cases where a small number of trees are concerned, a cylinder of similar wire netting around each tree, if so fastened that it cannot be pushed up close against the tree, serves the purpose more economically.

Standardizing Minnesota Potatoes.

A. W. AAMODT, UNIVERSITY FARM, ST. PAUL.

(Gideon Memorial Contest.)

The potato is one of the large farm crops of the country, rating next to the cereals in importance. According to the census report of 1909, United States produced 389,194,965 bushels, and three-fourths of these were consumed in the states in which they were produced. The report also shows that the most extensive production was along the northern tier of states, from Maine to Minnesota. In 1909 the states ranked in production as follows: New York, Michigan, Wisconsin, Maine, Minnesota, Pennsylvania, Ohio, Iowa, Illinois and Colorado. In the same year Minnesota ranked fourth in surplus production, producing sixteen per cent. of the potatoes which entered into interstate commerce. Wisconsin produced twenty per cent., Michigan twenty-four per cent. and Maine twenty-five per cent.

[Ill.u.s.tration: Figure I. Rural New Yorker.]

In Minnesota the largest part of these potatoes are grown in certain districts of the state, and according to the 1909 census the counties rank in respective order, namely: Hennepin, Isanti, Chisago, Clay, Anoka, Sherburne, Washington, Ottertail, Dakota, and Mille Lacs. This shows that the largest production is in the vicinity of St. Paul and Minneapolis, and the Red River Valley, especially in Clay County.

The following statement shows the per cent. of increase in acreage from 1900 to 1910 and that the older districts are being rapidly outdone by the counties towards the northern part of the state:

Clay, 455 per cent.; Sherburne, 254 per cent.; Polk, 136 per cent.; Todd, 109 per cent.; Hennepin, 83 per cent.; Anoka, 58 per cent.; Isanti, 26 per cent.; Chisago, 17 per cent.

From these reports it is also evident that the distribution of the surplus is entirely towards the southern states, either as table stock or as seed potatoes, which in turn varies with the different years because of differences in crop yields. But as a general rule Maine, New York and Michigan supply the states in the east, east central and southeastern part of the country, Wisconsin the Chicago market and Minnesota the Mississippi Valley, especially Nebraska and Kansas. In addition Minnesota ships seed potatoes to many of the Southern states.

[Ill.u.s.tration: Figure II. Burbank.]

Because of these markets, potato shippers maintain that compet.i.tion is extremely keen between the potato growing sections of this country.

There can be no doubt that the only way Minnesota can meet her increase in yield and increase in demand is to determine whether or not she will expand her markets to the territory which is now being held by the other states. But before Minnesota can get these markets and obtain the better prices, she must standardize her potatoes. That is, Minnesota can obtain great improvement by adopting certain standards for the grading and sorting of potatoes.

At a conference held in Chicago, last February, of representatives from the growing, shipping and marketing interests, the following recommendations for greater uniformity in potato shipments were made:

_Size._--Market stock of round white varieties shall be graded over a screen which measures 1-7/8 inches in the clear. For long white varieties a screen of 1-3/4 inches, in the clear, is recommended.

_Weight._--Stock running over twelve ounces is undesirable and not over five per cent. of this maximum weight should be allowed in first cla.s.s shipments.

[Ill.u.s.tration: Figure III. Burbank Russet.]

_Quality._--Stock should be practically free from serious external imperfections, including late blight rot, common scab, sunburn, frost injury, bruises, k.n.o.bbiness, second growth, etc. Stock should be mature and clean.

_Varietal purity._--Commercial potato shipments should be graded to one variety.

All indications show that Minnesota must grade and sort for commercial shipments of potatoes, and that a definite brand or grade designating a definite standard must be adopted in order to secure the highest prices.

All inferior stock must be thrown out, and the best potatoes given a chance to make an attractive showing.

The standing which Minnesota potatoes will have in the market will be determined a great deal by the grading, which is usually the work of the dealer, although some farmers do their own grading by hand. Ungraded potatoes injure the Minnesota potato trade and reduce the profits, as the freight is the same on dirt, small and unsound potatoes as it is on the fine stock. As much as a ton of dirt and culls is sometimes found in a car on the Chicago "team tracks" after the wholesale merchant has sacked all he is willing to accept. This freight, sorting charges and cost of disposing of refuse must be paid by some one. Co-operating to improve the sorting done at loading stations is a means of establishing a grade to meet compet.i.tion and to reach new markets.

[Ill.u.s.tration: Figure IV. Early Ohio.]

Standardization also means grading to eliminate potatoes infected with disease, such as common scab and late blight, sunken discolorations or dry hard blisters, green, spongy and coa.r.s.e stock. All of these defects tend to lower prices.