A grafting device includes: a transfer unit configured to transfer, in a predetermined direction, a grafted seedling that is in a state where a cut surface of a graft and a cut surface of a rootstock are closely attached to each other; a tape supply unit configured to arrange a tape on a transfer path of the grafted seedling in such a manner that the tape is allowed to be pulled out; a pull-out member configured to transfer through the transfer path in advance of the grafted seedling to pull out the tape from the tape supply unit, and sandwich a closely attached part of the grafted seedling between a first part of the tape and a second part facing the first part; and a welding unit configured to cover a periphery of the closely attached part of the grafted seedling with the tape and weld the tape.

A grafting device includes: a transfer unit configured to transfer, in a predetermined direction, a grafted seedling that is in a state where a cut surface of a graft and a cut surface of a rootstock are closely attached to each other; a tape supply unit configured to arrange a tape on a transfer path of the grafted seedling in such a manner that the tape is allowed to be pulled out; a pull-out member configured to transfer through the transfer path in advance of the grafted seedling to pull out the tape from the tape supply unit, and sandwich a closely attached part of the grafted seedling between a first part of the tape and a second part facing the first part; and a welding unit configured to cover a periphery of the closely attached part of the grafted seedling with the tape and weld the tape.

A grafting apparatus includes plate-shaped grafting members each provided with, on a main surface on one side in a thickness direction thereof, at least one plant holder to hold a plant for grafting. The grafting apparatus includes a cutter and a joiner. The cutter is configured to cut a stem of the plant for grafting that is held by the at least one plant holder of each of the grafting members. The joiner is configured to mutually join at least parts of the grafting members, while the at least one plant holder holds a part of the plant for grafting that has been cut by the cutter, to thereby mutually join parts of the plants for grafting.

A grafting apparatus includes plate-shaped grafting members each provided with, on a main surface on one side in a thickness direction thereof, at least one plant holder to hold a plant for grafting. The grafting apparatus includes a cutter and a joiner. The cutter is configured to cut a stem of the plant for grafting that is held by the at least one plant holder of each of the grafting members. The joiner is configured to mutually join at least parts of the grafting members, while the at least one plant holder holds a part of the plant for grafting that has been cut by the cutter, to thereby mutually join parts of the plants for grafting.

The present invention relates to a graft element (1) for joining together plant stem sections. The graft element is made of a resilient material and takes the form of a tubular structure having a hollow center that extends in a longitudinal direction so as to form a cylinder (2). The graft element further comprises a side opening (3) along its length and two elongated members. The side opening is connected to the hollow center over the entire length of the graft element. The two elongated members are located at opposite sides of the side opening and oriented substantially parallel thereto. The elongated members are provided with cutouts for receiving a gripping unit. The invention further relates to systems and methods for joining plant stem sections using the graft element. Finally, the invention relates to a system and a method for preparing the graft element.

The present invention relates to a graft element (1) for joining together plant stem sections. The graft element is made of a resilient material and takes the form of a tubular structure having a hollow center that extends in a longitudinal direction so as to form a cylinder (2). The graft element further comprises a side opening (3) along its length and two elongated members. The side opening is connected to the hollow center over the entire length of the graft element. The two elongated members are located at opposite sides of the side opening and oriented substantially parallel thereto. The elongated members are provided with cutouts for receiving a gripping unit. The invention further relates to systems and methods for joining plant stem sections using the graft element. Finally, the invention relates to a system and a method for preparing the graft element.

A method and apparatus for a Phytoimmune system to manage diseases in fruit trees, in which concomitant in vitro micrografting is used with actively growing plant tissue to create Complex Architecture Plants capable of generating immune, resistance, or tolerance responses to specific targeted plant diseases, such as the bacterial disease Huanglongbing (HLB), also, known as Citrus Greening Disease, and the viral disease Plum Pox Virus (PPV), also known as Sharka disease.

A method and apparatus for a Phytoimmune system to manage diseases in fruit trees, in which concomitant in vitro micrografting is used with actively growing plant tissue to create Complex Architecture Plants capable of generating immune, resistance, or tolerance responses to specific targeted plant diseases, such as the bacterial disease Huanglongbing (HLB), also, known as Citrus Greening Disease, and the viral disease Plum Pox Virus (PPV), also known as Sharka disease.

A grafting member including: a scion part including a first contact portion configured to contact a stem of a plant at a first position; a rootstock part detachable from the scion part, the rootstock part including a second contact portion configured to contact the stem at a second position located close to roots of the plant as compared with the first position; a first holder securable to the scion part, the first holder including a first press portion configured to press the stem of the plant against the first contact portion; and a second holder securable to the rootstock part, the second holder including a second press portion configured to press the stem of the plant against the second contact portion. A space is provided between the first holder secured to the scion part and the second holder secured to the rootstock part to expose the stem.

A grafting member including: a scion part including a first contact portion configured to contact a stem of a plant at a first position; a rootstock part detachable from the scion part, the rootstock part including a second contact portion configured to contact the stem at a second position located close to roots of the plant as compared with the first position; a first holder securable to the scion part, the first holder including a first press portion configured to press the stem of the plant against the first contact portion; and a second holder securable to the rootstock part, the second holder including a second press portion configured to press the stem of the plant against the second contact portion. A space is provided between the first holder secured to the scion part and the second holder secured to the rootstock part to expose the stem.