TH34645B - Ways to provide an elevated photosynthesis - Google Patents

Abstract

DC60 (28/05/41) revealed as a method for enhancing the photosynthesis of horticultural crops. which involves the surface action of such horticultural crops. with substances in the form of particles that reflect light At most, one or more of them in effective quantities. Revealed is a method for enhancing the photosynthesis of horticultural crops. which is related to the surface action of the crops of the crop type. with substances in the form of particles that reflect light At most, one or more types are effective.

Claims (3)

Disclaimer (all) which will not appear on the advertisement page: 1. Methods for enhancing synthesis display. Horticultural crops which include The surface treatment of such horticultural crops is also applied. A substance in the form of particles that strongly reflects one or more light in an effective amount. Substances in the form of such particles are fine powder, and the particles as they are made allow gas exchange on the surface of the plant. And substances in the form of powder particles It has a specific particle size between approximately 3 microns in between. 2. Method according to claim 1, in which such particles have at least 90 block luminosity. 1 which such particulate matter is not hydrophobic 4. Method of claim 1 in which particle form is hydrophobic 5. Methods of claim 1 in which particle form has particle size distribution Most of which 6. Method of claim No. 1, in which particulate matter consists of hydrophobic core and hydrophobic outer surface. 7. Method of claim No. 6, which Substances with such hydrophilic essence Can be selected from the group It consists of calcium carbonate, mica, kaolin, bentonite, clay, pyrophilite, silica, feldspar, quartz sand, chalk, limestone, diatoms, earth, barite, aluminum, trihydrate. Titanium dioxide And mixtures of the substances. 8. Method of claim No. 4, in which the said hydrophobic substances were selected. From the group consisting of Calcium Carbonate, Anhydrous Oxidized, Calcined Caolin, Bentonite, Pyrophilite Clay, Silica Feldspar, Quartz Sand, Chalk, Limestone, Calcium Carbonate Precipitated Diatomaceous Earth Barite, Aluminum Trihydrate Pyrogen Silica Titanium dioxide and its mixtures 9. Method of Clause 6 in which substances having such a non-hydrophobic outer surface are Has been selected Obtained from the group that includes Organic titanate Aluminate coupling agent Or organic zirconates, organo, functional silane Liquid substances, modified silicones and fatty acids and their salts 1 0. Method of claim No. 1 where horticultural crops are selected from ornamental plants. Or growing agricultural crops Claims 1 1. Method of claim No. 1 where horticultural crops are selected from a group consisting of fruits, vegetables, trees, flowers, grass, tubers, seeds and flowers and ornamental plants. 2. The method of claim No. 1, in which the substances in the form of particles have a specific particle size that resides The intermediate is less than 3 microns. 1 3. Method of claim 6, in which the substances in the form of hydrophobic nuclei are selected from the group. Which consists of Calcium carbonate Calcine kaolin And mixtures of that substance 1 4. Method of claim No. 4, in which substances in the form of hydrophobic particles Can be selected from the group Which contains calcium carbonate, calcine, kaolin And mixtures of that substance. 1 5. Methods for enhancing photosynthesis of horticultural crops. Which consists of applying the surface of the growing horticultural crops Or produce lively fruit Selected from a group consisting of fruits, vegetables, trees, flowers, grasses, tubers, seeds and flowers and ornamental plants, which comprise the surface of the horticultural crops. With a gallery of substances in the form of reflective particles At least one or more types with lock luminosity are at least approximately 90 with an effective amount, such substances, consisting of one or more particle matter selected from the group containing calcium carbonate. Calcine kaolin And mixtures of that substance Substances in such particle form have a specific particle size between 1 micron or less, and As said as done Gas exchange is allowed on the surface of such crops 1 6. Method of claim 1 or 15, in which the particulate matter is applied one or more times. During the growing period of horticultural crops 1 7. Methods for enhancing the light formation of part crops, which consist of. By applying the surface of crops such as horticulture as well. Substances in the form of particles that are highly reflective. One or more of them in the effective volume Substances in the form of such particles are fine powders and their respective particles allow gas exchange on the surface of the crop. And particles have Luminous lock at least approximately 90 1 8. Method of clause 17 in which particle form is hydrophobic 1 9. Method of clause 17 in which particle form is hydrophobic. 2 0. Method of Clause 17 in which the substance in the form of particles has a particle size distribution, which is most Their particle size is less than about 10 microns. 2. 1. Method of Clause 17 in which the particle form consists of hydrophobic core and surface. The hydrophobic exterior 2 2. Method of Article 21, in which the hydrophobic substance was selected from the Which contains calcium carbonate, mica, kaolin, bentonite, clay, pyrophilite, silica, feldspar, quartz sand, chalk, limestone, diatomaceous earth, barite, aluminum trihydrate. Titanium dioxide 2 3. Method of claim 19, in which the hydrophilic substance is selected from a group consisting of Calcium carbonate, talc, hydrous kaolin, calcine kaolin, bentonite, pyrophilite clay, silica feldspar, quartz sand, limestone chalk, precipitated calcium carbonate. Diatom Mesius Earth Barite Aluminum Trihydrate Pyrogen Silica Titanium dioxide and its mixtures 2 4. Method of claim 21, in which substances having such a hydrophobic outer surface were selected from a group consisting of: Organic titanate Aluminate or organic zirconate couplers Organo Functional Silane Liquid substances, modified silicones and their fatty acids and salts 2 5. Method of claim 17 in which horticultural crops are selected from a group consisting of fruits, vegetables, trees, flowers, grasses, tubers, seeds and Flowering and ornamental plants 2 6. Method of claim 17, in which the substances in the form of fine powder particles have particle size. Only the intermediate species are below approximately 3 microns. 2. 7. Method of claim 21, in which the hydrophilic particulate matter is selected from the “hydrophilic” group. Which consists of Calcium carbonate Calcine kaolin 2. 8. Method of claim No. 19, in which substances in the form of hydrophobic particles. Selected from the group Which contains calcium carbonate Calcium, kaolin and its mixtures. 2. 9. Methods for enhancing photosynthesis of horticultural crops. Which consists of applying The surface of such horticultural crops with one or more highly reflective particle-like substances in effective quantities, the particles in the form of fine powder, and the particles as applied, allow There is gas exchange on the surface of such crops. And substances in the form of particles are not hydrophobic The particle has a lockable luminosity of at least 80 3 0. Method of claim 29, in which the particle has at least about 90 lock luminosity 3 1. Method of claim 29. In which substances in the form of particles have a particle size distribution, most Their particle size is less than about 10 microns. 3 2. Method of claim 29, in which the substance in the form of particles consists of The core likes water and the surface. Outside hydrophobic 3 3. Method of Clause 32, in which the hydrophobic substance was selected by the group. Which consists of Calcium Carbonate, Mica, Gaalin, Bentonite, Pyrophilite Clay, Silica Feldspar, Quartz Sand, Chalk, Limestone, Diatoms, Earth, Barite, Aluminum, Trihydrate Titanium dioxide 3 4. Method of Clause 32, in which substances having a hydrophobic outer surface were selected from a group consisting of: Organic titanate Aluminate coupling agent Or organic zirconate Organo Functional Silane Liquid substances, modified silicones, and fatty acids and their salts 3 5. Method of claim 29 in which horticultural crops are selected from a group consisting of fruits, vegetables, trees, flowers, grasses, tubers, seeds. And plants that are flowers and ornamental plants 3 6. Method of claim No. 29, in which the substances in the form of particles are fine powder with particle size. Only the intermediate species are below approximately 3 microns. 3 7. Method of claim 32, in which the hydrophilic particles are selected from the Group consisting of calcium carbonate Calcine kaolin 3 8. Methods for enhancing photosynthesis of horticultural crops. Which consists of Surface treatment of such horticultural crops with highly reflective particle-like substances. One or more of them in an effective quantity. Substances in the form of such particles are fine powders, and the particles as they are made allow gas exchange on the surface of the crop, and the matter in the form of particles has a particle size distribution, most of which are particle size. Particles below approx. 10 microns 3 9. Methods of claim 38, in which the particulate matter is hydrophobic 4 0. Methods of Clause 38 in which such particulate matter is hydrophobic 4 1. Method of Clause 38 in which particle form consists of hydrophobic essence and hydrophobic outer surface 4 2. Method of Clause 41 in which such hydrophilic substance is selected from group It consists of calcium carbonate, mica, kaolin, bentonite, clay, pyrophilite, silica, feldspar, quartz sand, chalk, limestone, diatoms, earth, barite, aluminum, trihydrate. Titanium dioxide 4 3. Method of claim No. 40, in which the aforementioned hydrophilic substance is selected from the group consisting of calcium carbonate, hydroxide, kaolin, calcine, bentonite, clay, pyrophilite, silica feldspar. Quartz sand, limestone, precipitated calcium carbonate, diatomaceous earth, barite, aluminum trihydrate Pyrogenic, silica, titanium dioxide and its mixtures 4 4. Method of Clause 41 in which substances with such hydrophobic outer surfaces are selected. From the group consisting of Organic titanate Aluminates or zirconates, organic organos, functional silanes, liquids, modified silicones, and fatty acids and salts of that substance 4 5. Method of claim 38, whereby plants The horticultural fruit was selected from a group consisting of fruits, vegetables, trees, flowers, tubers, seeds, and flowering plants and ornamental plants. 4 6. Method of Clause 41, in which the substance as a core particle. Like water was selected from the group Which consists of Calcium carbonate Calcine kaolin And mixtures of the substances. 4 7. Method of claim 40, in which substances in the form of hydrophobic particles. Selected from the group Which consists of Calcium carbonate Calcine kaolin 4 8. Methods for enhancing photosynthesis of horticultural crops. Which consists of applying The surface of such horticultural crops with one highly reflective particle or More than that in the effective quantity Substances in the form of such particles are fine powders and the particles they apply to allow gas exchange on the surface of the crop. And substances in the form of particles composed of core Hydrophobic and matte surfaces 4. 9. Method of claim No. 48, in which such hydrophobic substances were selected by the group. Which consists of Calcium Carbonate, Mica, Gaalin, Bentonite, Pyrophilite Clay, Silica Feldspar, Quartz Sand, Chalk, Limestone, Diatoms, Earth, Barite, Aluminum, Trihydrate Titanium dioxide 5 0. Method of Clause 48 in which a substance having a hydrophobic outer surface was selected. Obtained from the group that includes Organic titanate Aluminate coupling agent Or organic zirconates, organos, functional silanes, liquids, modified silicones, and fatty acids and their salts 5 1. Method of claim 48 in which horticultural crops are selected from woody plants. Ornamental or growing agricultural crops And bear fruit lively 5 2. Method of claim No. 48 in which the substances in the form of fine powder particles have particle size. Only the intermediate type is less than 3 microns 5. 3. Method of claim 48 in which the hydrophilic particle is selected from the group. Which consists of Calcium carbonate Calcine kaolin And mixtures of that substance