A planting system (100) for arrangement on a vehicle (110) comprises at least one plant arm (130) comprising a plant head (140) configured to penetrate ground and a plant feeding device (120) configured to feed plant seedlings (125) to the plant arm by dropping the plant seedlings from the plant feeding device. The plant arm comprises at least one articulation (180) and is configured to receive plant seedlings (125) and to guide the plant seedlings to the plant head. The planting system is configured to operate the plant arm by penetrating the ground and release the plant seedlings from the plant head into the ground while the plant system (100) is in motion and the plant head has a fixed position relative the ground. The plant seedlings fall from the plant feeding device (120) to the plant head (140) while the plant arm (130) is in motion.

The present invention discloses a primer set of LAMP-LFD detection for detecting a leaf curl virus of Melia azedaeach L. and a detection method, and belongs to the field of detection of crop diseases. The primer set of LAMP-LFD visual detection includes five primers: CLSV-F3, CLSV-B3, CLSV-FIP, CLSV-BIP and CLSV-LB and one probe primer: CLSV-Pb. The present invention also provides a visual detection method for a leaf curl virus of Melia azedaeach L., which is a combination of a loop-mediated isothermal amplification method and a lateral flow dipstick to establish an LAMP-LFD method to detect CLSV, so that the results of LAMP amplification detection are more obvious and intuitive. The present invention has the characteristics of high specificity, high sensitivity and simple operation, and is suitable for substrate and field use.

A reforestation machine includes: a main body; a planting device which plants a plant body for reforestation at a predetermined position of soil; a traveling device which allows the main body and the planting device to travel; a power source which drives the traveling device; and a barrier installation device which installs a weed barrier, restricting the growth of weeds growing around a position in which the plant body is planted, around the predetermined position of the soil.

Provided is a method for planting a mixed forest of yew trees and fig trees. Yew trees and fig trees are interplanted based on characteristics of yew trees and fig trees. A seedling bed method is used in the plain zones, and a terrace field method is used in mountain zones in order to improve land utilization rate and make full use of complementary advantages of ecological niches. In the present disclosure, ground and underground spaces on tree growing site are fully used. Fig trees grow fast and have large leaves, thus shading part of sunlight for yew trees and savings costs required for building shade shelters for yew trees. By using the method for constructing a mixed forest in the present disclosure, the constructed mixed forest not only allows for increase of biomass, but also provides higher paclitaxel content in yew trees than that in pure forest.

A planting system (100) for arrangement on a vehicle (110) is provided and comprises at least one plant arm (130) comprising a plant head (140) configured to penetrate ground and a plant feeding device (120) configured to feed plant seedlings (125) to the plant arm by dropping the plant seedlings from the plant feeding device. The plant arm comprises at least one articulation (180) and is configured to receive plant seedlings (125) and to guide the plant seedlings to the plant head. The planting system is configured to operate the plant arm by penetrating the ground and release the plant seedlings from the plant head into the ground while the plant system (100) is in motion and the plant head has a fixed position relative the ground. The plant seedlings fall from the plant feeding device (120) to the plant head (140) while the plant arm (130) is in motion.

Provided is a method for planting a mixed forest of yew trees and fig trees. Yew trees and fig trees are interplanted based on characteristics of yew trees and fig trees. A seedling bed method is used in the plain zones, and a terrace field method is used in mountain zones in order to improve land utilization rate and make full use of complementary advantages of ecological niches. In the present disclosure, ground and underground spaces on tree growing site are fully used. Fig trees grow fast and have large leaves, thus shading part of sunlight for yew trees and savings costs required for building shade shelters for yew trees. By using the method for constructing a mixed forest in the present disclosure, the constructed mixed forest not only allows for increase of biomass, but also provides higher paclitaxel content in yew trees than that in pure forest.

In one embodiment, the present invention provides a degradable seed pod arranged to be delivered from a vehicle to a ground surface, the pod comprising a seed encased in a hardened material, the hardened material being composed and manufactured in a manner that shields the seed from damage when the pod experiences an impact force.

A tree eggplant and a cultivation method, a rapid propagation method and an application thereof are provided by the present disclosure. In the present disclosure, the Solanum wrightii is specifically selected as the female parent, and the Solanum torvum is used as the male parent, and the tree eggplant variety obtained by hybridization has fast growth, developed trunk, strong growth potential, and is perennial, and is strong in photosynthesis, strong in nutrient and water absorption capacity, high in affinity with the scion, fast in healing at the scion interface of the rootstock and good in healing; and has good resistance to soil-borne diseases such as fusarium wilt, verticillium wilt, bacterial wilt and root knot nematode; and the rapid propagation method of the tree eggplant has strong operability and high efficiency, and is easy to popularize in practical application.

A method for growing a seedling, the method includes specifying a growth-contributing fungus contributable to growth of a target plant to be grown artificially, isolating the growth-contributing fungus, culturing the isolated growth-contributing fungus to obtain an inoculum, growing the inoculum with a growth substrate to obtain a microorganism bed, and rooting and growing the target plant in compost including the microorganism bed. In the specifying a growth-contributing fungus contributable to growth of a target plant to be grown artificially, the growth-contributing fungus is an indigenous nonmycorrhizal filamentous fungus to inhabit a planting site in which the target plant is to be planted or a neighborhood of the planting site and to live in symbiosis with a plant without a mycorrhiza.

The present application relates to a system for providing nutrients to plantlets, the system comprising: a water controlling agent, an organic waste material, a seed germination enhancer, a binding material. The water controlling agent may be a super absorbent polymer. The organic waste material may be worm casting. The seed germination enhancer may be selected from a group consisting of GA3, GA 4+7, and a combination thereof. The ratio of the water controlling agent to the organic waste material may be between about 1:1 and about 1:6.