Agrotechnical method for training branch cordon vine and for...

Plant husbandry – Process

Reexamination Certificate

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C047S070000, C047S046000, C047S044000, C056S330000

Reexamination Certificate

active

06668485

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to an agrotechnical method for the training of branch cordon vine and for the mechanizable regulation of its growth and yield.
BACKGROUND OF THE INVENTION
It is known that all work procedures required by vine production have been successfully mechanized, but for winter pruning—which regulates the yield, the quality of the crop and the condition of the stem—no adequate machinery, replacing manual pruning has been constructed until now. The lack of mechanizing in the area of pruning results in a temporary peak in labour demand.
Crop regulation by pruning is problematic because, as it is well known, winter pruning forces the vines to exert intense vegetative activity in developing “long” shoots, canes. As a result of the unnecessary “cane yield”, the amount of crop is by far lower than the biologically possible yield. (The cane yield of the vine grows at the expense of cluster yield.)
These problems led researchers to conduct more detailed investigations into possibilities of viticulture without regular pruning. The experiments proved that the omission of winter pruning is very detrimental—especially in the first years of transition—for the stems that were formerly regularly pruned and have long shoots, canes. This, due to the greater yield, often leads to the exhaustion of stems. Years after the cancellation of pruning the plants reach a state where they are capable of self-regulation. In the average of many years, their yield is greater than the yield of the pruned stems. The number of shoots increases, their length is much shorter than with the pruned vines. The ripening of the shoots customarily depends on the yield and the amount of shadow cast on them. The densely sprouted stem sections sooner or later thin themselves, because the shoots become mature in a shorter length. On the stem sections however, that are less dense, the ripening of the shoots that receive more sunlight improves. Thus shoot density becomes balanced on the stem; the shoots “migrate” to the sun.
Yield and average vine (cane) length of vines vary inversely. In the intermittent year, the number of shoots is smaller than the average of many years, and they get comparatively longer ripened by fall. The must degree of the crop is generally high. A growth in the yield may be expected in the following year. In years with high amount of yield the number of shoots increases, their production improves, but shoot growing capacity and ripening of canes worsens. The loose clusters are less sweet. A year with high amount of yield is thus followed by an intermittent year.
Often about 70-95% of the short shoots of vine cultivated regularly without pruning do not become ripened, do not turn into wood. The parts of the shoots that did not grow fully ripe break off after defoliating; the vine thus “prunes” itself.
With the knowledge of the mentioned self-regulation of the unpruned vine, a new method of vine-stock training was developed.
This is the so-called Branch Cordon vine-stock training (“ágaskordon”, “Senkrechtes Spalier”), which is described in detail in the specification U.S. Pat. No. 4,333,266, granted for the Applicant of the present application.
The above mentioned, comparatively new stock training method requires a wired support system.
The support system may be single, or double layered. The single layer support system is in most cases identical with the Single Curtain, the double layer support system with the G.D.C. (Geneva Double Curtain) stock training's T-shaped support system. The horizontal wire (or wires) of the support system carries the cordon arm, and the (full) weight of the vine stock. The poles of the support system sustain the horizontal wire (wires).
It is preferable to decide on a 160-190 cm height for the trunk. The horizontal expansion of the stock is controlled by the length of the cordon arm, and by the number of the shoots and producing canes on the cordon arm. Therefore on the cordon arm, that was trained as the continuation of the stem, long shoots (canes) are trained in the first years.
When this is accomplished, the vine is turned to “bearing”. In the spring of the year of turning to bearing, the canes of the cordon arm are thinned out about every 10-30-40 cm, and the canes are cut back near the ground. Subsequent to pruning, the number of shoots on the vine and the cluster load is large. The shoot, and cane production will be similar to that of the regularly unpruned vine stock. Through the years, the produced long canes age to producing twigs. The Branch Cordon stock training method (according to the mentioned previous patent) solved the crop regulation by the shortening of the canes and produced long canes, also by cutting them back from the ground at different lengths, and by thinning the clusters of flower off (applying a chemical agent). In practice however, the mentioned methods did not fulfil the expectations. After their application the difference between the bud, shoot and cluster load of the stocks was significantly different. The producing twigs shortened, and by the cordon arm shoots developed that ripened on a long section, such as are typical of vine cultivated by pruning. The parts that were cut off near the ground were not “replaced”. The production surface of the vines that were production controlled in this manner “withdrew” near the cordon arm, and the stem became bushy there. The training method had to be abandoned, and the traditional manual pruning reintroduced.
It was also confirmed that the branch cordon trained stems require growth control along with the reduction of the number of clusters.
With regard to the above detailed problems, the aim of the present invention is to develop a procedure that makes possible to maintain the stem shape formed by pruning, the regulation of shoot growing capacity and yield on the branch cordon cultivated vines.
It is known that on the canes of the vine side buds by the main buds of the winter light buds can be found. At bud pushing the main buds start swelling, but the side buds commonly remain dormant. The growth capacity, ripening and fertility of shoots pushing out of side buds is in general far behind the ones developing from main buds. It is also known that bud differentiation—fertility—is worse with the branch cordon vines, than with the vines that were production controlled by pruning. The growth and yield control method, which is the object of the present invention, is based on the knowledge of these facts. According to the invention, the task is solved by thinning out of the swelling buds, short shoots (later main buds) using a specific process.
SUMMARY OF THE INVENTION
The solution of the invention is primarily based on the recognition that sustaining of the form of the stem that was created by pruning and the yield amount and quality control may be achieved by main bud thinning—mainly in the area specified by the invention.
Therefore the object of the invention is an agrotechnical method for Branch Cordon trained vine, for the mechanizable control of its growth, and yield; where in the branch cordon plantation a cordon arm is used supporting wire parallel with the direction of the stock row, preferably in 160-190 cm height; preferably long canes are cultivated every 10-30-40 cm from one another into producing twigs; characterised by that sprouting, yield and quality are regulated by the amount (rate) of thinning of the main buds in the upper zone of the foliage wall, thus producing twigs are cultivated having short shoots and short canes (which require no pruning), that expediently reach near the ground, have off-shoots and sometimes grow higher than the cordon arm.
The growth and yield control method according to the invention fits well the shooting characteristics of the branch cordon vine.
The pushing out of the branch cordon buds is a process extended in time. The buds with more advantageous polarity may push out weeks before the other ones. Consequently the shoots in the stem's upper region—near the cordon arm—will mature fully and long, while the

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