A method for controlling the planting of olive trees for the continuous mechanical harvesting of the olives using harvesting machines, the method having the following steps: planting parallel rows of olive tree saplings with a spacing between the tree trunks and a spacing between the rows; placing trellising on each row; placing divergent supports for each tree; attaching two divergent branches of each tree, which are arranged in a single vertical plane and in the vertical plane of the row to which said tree belongs, onto a pair of supports; removing other branches of said tree; adapting the shape of the foliage of the trees so as to impart a configuration flattened in alignment with the rows thereto; maintaining said configuration by periodically pruning the trees until the latter reach maturity and bear fruit; and removing the supports and the trellising when the trees are fully grown.

The present application relates to an amino acid that accelerates fruit ripening, and provides a use of the amino acid for accelerating fruit ripening. A composition containing the amino acid can achieve an excellent effect of promoting plant growth and/or fruit ripening.

The present invention relates to a method for improving the growth, development and productivity of non-leguminous plants using a composition comprising at least one mycorriza and at least one yeast extract, and optionally a substrate; the present invention also relates to such a composition and, when it comprises a substrate, to the process for the production thereof.

A method and a system for increasing the degree days in the immediate environment of fruit bearing vines for the cultivation of particular fruit bearing vines, such as non-rustic vinifera variety vines, in unfavourable climatic regions where the degree days is insufficient for the full maturity of the fruit, is described. Rows of the vines are protected in removable shelters which have a removable tarp cover disposed over a support frame structure to shield the rows of vines from the harsh, vine damaging, winter month temperatures while keeping the vines in a controlled temperature environment. Heated liquid circulation conduits are supported in the shelters at predetermined locations and provide controlled heat during the winter months to prevent the vines and the cordon bearing spuds of the vines from damaging cold temperatures. In the early spring the roots are activated early and the tarp is removed and a transparent film sheet covering is substituted to admit sunlight to help activate the vine early to gain degree days. The method and system is also applicable to semi-rustic or rustic wine producing grape vines grown in these climatic regions having degree days down to about 1200.

Coloring of fruits is promoted by applying a one or more the amino acids leucine, isoleucine, and/or phenylalanine, in combination with abscisic acid to a fruit plant, such as those of the genus Vitaceae or Rosaceae. The amino acid(s) and abscisic acid may be present in a solution(s) having concentrations of 0.2 mM to 100 mM and 0.1 M to 10 mM, respectively.

A device and method of thinning grape vine shoots comprises a Normalized Differential Vegetative Index (NDVI) sensor. Further, the device comprises a shoot removal whip assembly configured to remove at least one grape vine shoot per stroke. Further, the device comprises a programmable logic controller (PLC) to control the shoot removal whip assembly, the programmable logic controller comprising a memory unit and a processor. Further, the memory unit stores information regarding optimal shoot height and density parameters, and a set of program modules. The processor contained in the PLC takes readings of shoot height and density via the NDVI sensor, and sends an output to a proportional hydraulic valve. The PLC also takes an input from an adjustable gain potentiometer, which allows the user to increase or decrease the acceptable shoot parameters. Via the signal sent to the proportional hydraulic valve, the PLC controls the shoot removal whip assembly, in order to remove a variable number of shoots. This variable shoot removal can be any number from 0 to 25, in any given area along the grape vine. This variable control of the removal whip assembly results in a grape vine that has a balanced number and density of growth shoots.

The invention relates to the use of a compound of formula (I) or salts thereof for controlling coffee rust, citrus black spot, citrus scab or banana black sigatoka disease, and to corresponding methods.

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The present invention relates to a polymeric human growth hormone prodrug and dry, liquid and reconstituted pharmaceutical formulation comprising said prodrug. It furthermore relates to their use as medicaments for the treatment of diseases which can be treated with growth hormone and to methods of treatment. It also relates to methods of application of such polymeric human growth hormone prodrug or pharmaceutical formulation.

This disclosure includes a method for pruning a fruit plant. An exemplary method step includes obtaining an image of the fruit plant that has branches. Next, creating exclusion zones surrounding the branches. Then pruning the fruit plant based upon the exclusion zones.

An apparatus and method for training a grape vine. The apparatus is a linear grid composed of transverse and longitudinal elements that are configured to result in a network of spaces that are sized to substantially provide a separate space for each vine shoot. The apparatus is mobile within the vine canopy serving various functions as the growing season progresses. The mobility of the grid apparatus allows repositioning throughout the growing season while still retaining the shoots within the grid openings.