An agricultural seed planter is provided. The agricultural seed planter has a large diameter rotating planting wheel with fingers or teeth spaced around the periphery of the planting wheel. The teeth are positioned so as to achieve a spacing of the seeds when planted in the soil. The teeth have a small dimple in the end and an even smaller hole passing through the entire length. The dimple provides a place for the seed to sit in and the small hole allows positive or negative air pressure to be transmitted to the seed. The negative air pressure creates a vacuum suction that attaches the seed to the teeth, and the positive air pressure releases the seed from the teeth. In an example implementation, the wheel includes many individual mechanical modules that are linked together to form the wheel.

A method for planting marine grass seed via a seed assembly comprising the steps of: selecting a body of water and area suitable for eele grass and shellfish, wherein the body of water has a bottom wherein shellfish can sufficiently bury themselves; selecting a living shellfish; placing a drop of non-toxic biodegradable adhesive on the shell of the living shellfish; positioning a grass seed to touch adhesive; waiting a predetermined time period for the adhesive to cure; and deploying the seed assembly into the body of water, wherein the seed assembly comprises the living shellfish, the drop of adhesive, and the positioned grass seed, wherein the body of water has a bottom where the shellfish can bury themselves sufficiently to bury the grass seed.

A planting method of grass-white clover grassland includes the follows steps: (1) plowing and broadcasting Vicia villosa from July to August in a first year, applying a first base fertilizer, harvesting the Vicia villosa from December of the first year to March of a second year; (2) plowing and drilling corn from April to May of the second year, applying a second base fertilizer, weeding in a stage of 5 leaves of the corn, topdressing in a stage of 7-9 true leaves of the corn, and harvesting the corn in September of the second year; (3) plowing and drilling a grass from September to October of the second year, and applying a third base fertilizer; (4) not plowing but broadcasting white clover from May to June of a third year, applying a fourth base fertilizer, completing the planting.

A method for growing plants includes both a seeder and a harvester both of which include arrangements for singulating the seeds and for measuring parameters of the seeds while singulated. This can be used for seeding selected seeds and for harvesting particular plants. The system operates by correlating information from the individual seeded seeds and from the harvested seeds in respect of a particular location on the growth medium and may include information relating the growth medium at the location. The location can be determined by seeding the plants in patterns which can be detected by a reader on the harvester. The system can be used to control selection of seeds to take into account soil conditions at the plant.

A seed unit for placing seeds into soil is described herein. A seed unit includes a seed meter for singulating seeds, a shaft to deliver the seeds into soil during operation, and an actuator coupled to the shaft. The actuator moves the shaft during operation and the shaft delivers seeds into the soil without a continuous seed trench.

Disclosed herein is a nut planter tool comprising an elongate drop tube fixed to a dig tube. The dig tube is spaced from the drop tube with each having generally parallel central axes. A plunger assembly comprises a plunger at an inferior end that translates within the dig tube. The tool ergonomically removes a soil core that is larger than the diameter of the tree nut, delivers the nut from an ergonomic height to a proper depth for germination; and replaces the soil core, covering the tree nut. The device is utilized standing upright thus eliminating the physical labor of bending over and reducing typical nut planting time.

A seed planting apparatus for planting seeds and performing other agricultural processes includes a chassis, one or more rear wheels coupled to a rear end of the chassis, a seat coupled to the rear end of the chassis, and an air propulsion apparatus and a storage container that are positioned behind the seat. A frame is coupled to the chassis, a plurality of hollow members are coupled to the frame, and a seed metering apparatus is coupled to the plurality of hollow members, arranged so that the seed metering apparatus is in communication with the air propulsion apparatus.

A seed unit for placing seeds into soil is described herein. A seed unit includes a seed meter for singulating seeds, a shaft to deliver the seeds into soil during operation, and an actuator coupled to the shaft. The actuator moves the shaft during operation and the shaft delivers seeds into the soil without a continuous seed trench.

A seed unit for placing seeds into soil is described herein. A seed unit includes a seed meter for singulating seeds, a shaft to deliver the seeds into soil during operation, and an actuator coupled to the shaft. The actuator moves the shaft during operation and the shaft delivers seeds into the soil without a continuous seed trench.

A method for growing plants includes both a seeder and a harvester both of which include arrangements for singulating the seeds and for measuring parameters of the seeds while singulated. This can be used for seeding selected seeds and for harvesting particular plants. The system operates by correlating information from the individual seeded seeds and from the harvested seeds in respect of a particular location on the growth medium and may include information relating the growth medium at the location. The location can be determined by seeding the plants in patterns which can be detected by a reader on the harvester. The system can be used to control selection of seeds to take into account soil conditions at the plant.