The invention relates to beekeeping. The claimed beehive comprises a hive body (1) having side walls (2, 3), a front wall (4), a rear wall (5), a bottom (6), and internally mounted trapezoidal frames (7); a cover (8) having a ceiling (9); and at least one bee entrance (14) having a flight board (15), said bee entrance being arranged in the wall of the hive body (1). The hive body (1) of the hive comprises at least three compartments, wherein a first compartment (10) comprises frames (7) that are arranged vertically at the same level, with the longer trapezoid base facing upward; a second compartment (11) is arranged higher than the first compartment (10) and comprises the same arrangement of vertical frames (7); and a third compartment (12) comprises frames (7) arranged vertically at different heights which gradually increase from one to the next within the third compartment, with the longer trapezoid base facing upward; wherein the third compartment (12) is arranged between the first compartment (10) and the second compartment (11) such that the height at which the frames (7) are positioned therein increases from the first compartment to the second compartment. The invention provides integration between a bee colony cluster and food reserves at all developmental stages, while also improving honey quality.

An artificially-created honey-yielding environment is established, including a hive and an associated flora cell, within which first and second plant populations cohabit. Within the cell, honey-producing insects from the hive are permitted to forage. One of the populations has been artificially introduced. The other may be indigenous to the cell. The first plant population serves as a primary source of nectar which yields bioactive honey and the second serves as a source of a nutrient, such as protein, which is not abundantly available from the first species at a nutritionally adequate level for sustaining the metabolism and energy of the foraging honey-producing insects for returning to the hive. The first flora population may be a Leptospermum species. An example of the second is Corymbia maculata.

A dipping station is provided for coating bee hive frame members with a coating of wax. The dipping station comprises a housing having a reservoir for receiving a supply of melted wax. The reservoir approximates the dimension of a frame member. The dipping station is provided with a heating element to melt the wax placed in the reservoir. Water is added to the reservoir to avoid overheating the wax. Individual frame members are dipped into the reservoir containing the melted wax whereby they are coated with melted wax as they are dipped into and removed from the reservoir.

An artificially-created honey-yielding environment is established, including a hive and an associated flora cell, within which first and second plant populations cohabit. Within the cell, honey-producing insects from the hive are permitted to forage. One of the populations has been artificially introduced. The other may be indigenous to the cell. The first plant population serves as a primary source of nectar which yields bioactive honey and the second serves as a source of a nutrient, such as protein, which is not abundantly available from the first species at a nutritionally adequate level for sustaining the metabolism and energy of the foraging honey-producing insects for returning to the hive. The first flora population may be a Leptospermum species. An example of the second is Corymbia maculata.

An artificially-created honey-yielding environment is established, including a hive and an associated flora cell, within which first and second plant populations cohabit. Within the cell, honey-producing insects from the hive are permitted to forage. One of the populations has been artificially introduced. The other may be indigenous to the cell. The first plant population serves as a primary source of nectar which yields bioactive honey and the second serves as a source of a nutrient, such as protein, which is not abundantly available from the first species at a nutritionally adequate level for sustaining the metabolism and energy of the foraging honey-producing insects for returning to the hive. The first flora population may be a Leptospermum species. An example of the second is Corymbia maculata.

A method is provided of producing a Lactuca plant seed including using a Megachile bee as pollination means, and providing the a Megachile bee a minor nectar plant to have preference in flower visiting, in addition to a pollen parent Lactuca plant and a seed parent Lactuca plant and to perform a crossing of a Lactuca plant using a plant species having the preference in flower visiting equivalent to or lower than that of the Lactuca plant. According to one embodiment, it is possible to produce a Lactuca hybrid plant seed more efficiently and economically than before while using a Megachile bee as pollination means.

A beehive according to this disclosure includes a plurality of modular sections that are configured to be positioned adjacent to one another in a manner that enables simplified, even automated, extraction of honey. Such a beehive may include, or even consist essentially of, a plurality of interchangeable rings, or plates, that are configured to be stacked relative to one another in an assembled relationship, and to be secured together in the assembled relationship. In some embodiments, a beehive may consist of a plurality of rings and a mechanism for securing the rings in an assembled relationship (e.g., tie rods, etc.).

A beehive according to this disclosure includes a plurality of modular sections that are configured to be positioned adjacent to one another in a manner that enables simplified, even automated, extraction of honey. Such a beehive may include, or even consist essentially of, a plurality of interchangeable rings, or plates, that are configured to be stacked relative to one another in an assembled relationship, and to be secured together in the assembled relationship. In some embodiments, a beehive may consist of a plurality of rings and a mechanism for securing the rings in an assembled relationship (e.g., tie rods, etc.).

A bee installation funnel apparatus, including: (1) a unitary blank having (a) a back panel, wherein the back panel includes a top side, a left side, a right side, and a bottom side, and at least one aperture, (b) at least one side panel, wherein the at least one side panel emanates contiguously from the back panel; and (c) a bottom panel, wherein the bottom panel comprises a top side, a left side, a right side, and a bottom side, and at least one tab, and (2) a security strap member, wherein the security strap member is positionable around an associated bee hive.

Technologies for monitoring beehives in an apiary includes one or more sensors communicatively coupled to a remote data analysis computing device, which is communicatively coupled to a client computing device. The sensors are configured to monitor beehives and/or the environment of the apiary and transmit the sensed data to the remote data analysis computing device. The remote data analysis computing device is configured to analyze the received sensor data, determine whether to perform an action as a function of a result of the analysis, and perform the function, as applicable. The client computing device is configured to interface with the remote data analysis computing device such that a user of the client computing device can view results of the data analysis and actions, as well as provide input and adjust settings administered by the remote data analysis computing device. Other embodiments are described herein.