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 seeding machine includes a seed metering system and a seed delivery system in communication with the seed metering system. The seed delivery system includes a housing having a first opening for receiving seed from the seed metering system and a second opening through which seed is discharged. The seed delivery system also includes a conveyor forming a loop with a fixed length and positioned within the housing. The conveyor is disposed around a first drive pulley and a second idler pulley. The conveyor is deformable in order to retain seed at any point along the fixed length.

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 seed delivery system for a seeding machine having a seed meter comprises a housing that defines an upper seed loading area and a lower seed discharge area. A drive pulley is mounted to rotate with respect to the housing. A belt is supported for rotation by the drive pulley within the housing. A loading wheel is mounted to rotate with respect to the housing to transfer seeds from the seed meter into the belt at the seed loading area. The belt conveys the seeds through the housing as the belt travels from the seed loading area to the seed discharge area.

Methods for growing plants and seeds may include blending a polyacrylamide polymer with the uppermost portion of the soil, usually top 1 inch of the soil at a rate of around 1 pound polyacrylamide per 100 square feet of soil. The polyacrylamide attaches to the roots of the plant and acts as an extension of the root system facilitating the uptake of water by the plant and increasing the soil permeability around the root system. The method also improves germination of the seeds and facilitates the growth of the resulting plants. The method may be utilized with a variety of plants, sod, and trees.

An automated leveling system for maintaining a level of a surface, comprising a surface traveling device and a leveling module attached to the surface traveling device. The leveling module comprises a depression detector arm assembly, at least one computing device, and a level-sensing detector. The level-sensing detector senses a level of a surface as the surface traveling device operates across the surface. The level-sensing detector moves across the surface according to the operation of the surface traveling device, and transmits a depression reporting signal to the computing device. The depression reporting signal indicates the presence of a depression in the surface if the level-sensing detector contacts a depression in the surface over a depression threshold.

Disclosed is a system and method that provides a sprig plugger that inserts sprigs into soil using a movable tine in conjunction with an aerator or purpose-built mechanical sprig plugger.

Systems and methods are provided to assess water/rain runoff conditions at an area such as a turf or lawnscape. The system can include a computer processor (CP) and a database. The processing can include (a) inputting first data regarding a first candidate ingredient or operation to be considered for application (recommendation, initiation, etc.) to the area; (b) inputting second data regarding a second candidate ingredient or operation to be considered for application to the area; (c) inputting third data including a runoff score for the area; (d) determining a selected candidate ingredient or operation based on the runoff score; and (e) applying the selected candidate ingredient or operation to the area.

A seed delivery system for use in a seeding or planting machine that removes the seed from a seed meter by capturing the seed therefrom. The delivery system then moves the seed down to a lower discharge point and accelerates the seed horizontally rearward to a speed approximately equal to the forward travel speed of the seeding machine such that the seed, when discharged has a low or zero horizontal velocity relative to the ground. Rolling of the seed in the trench is thus reduced. Furthermore, as the seed only has a short drop from the outlet to the bottom of the seed trench, the seed has little vertical speed to induce bounce. The delivery system uses a brush belt to capture, move and accelerate the seed. By capturing the seed and moving it from the meter to the discharge, the seed is held in place relative to other seeds and the planter row unit. As a result, the seeds are isolated from row unit dynamics thereby maintaining seed spacing.

A soil regulation and control device for preventing grassland soil degradation is provided, and relates to the field of grassland restoration. The soil regulation and control device includes a vehicle body arranged in a horizontal state; a reaction cylinder fixedly arranged above the vehicle body and accommodating fertilizer and water; a mixing and stirring mechanism connected with the reaction cylinder and fully mixing the fertilizer and water in the reaction cylinder a reciprocating water spraying mechanism arranged at a lower end of the mixing and stirring mechanism and spraying uniformly mixed fertilizer and water; and a loosening and sowing assembly including a reciprocating soil loosening mechanism connected with the reciprocating water spraying mechanism and loosening soil, and a vibrating sowing mechanism connected with the reciprocating soil loosening mechanism and scattering grass seeds on the loosened soil.