Tridimensional high-efficient cultivation method for interplanting sugarcane and eggplant

Abstract

The invention discloses a solid high-efficiency cultivation method for inter-planting cane and eggplants, changes the traditional the cane-row with sharp ridge and equal distance into wide and narrow rows with flat furrow and perforates and inter-plants the double-row eggplants in wide rows; the invention arranges the planting time of the eggplants and the canes reasonably, solves the mutual influence of symbiotic period of main crops and subsidiary crops, increases planting density, improves the inter-planting efficiency, adopts a degrading mulching film to cover, improves the yield and the quality of intercrop crops by fully using the condition of light, temperature, water and fertilizers, advances the planting time and the picking time, reduces the cost of work for removing the mulching films, adopts two-time single-side fertilizing and moulding method, prolongs the harvest time of the eggplants and ensures the normal growth of the canes; the average yield of the eggplant is 16 ton per hectare, the average yield of the canes is 125 ton per hectare and is increased by 12 ton per hectare compared with the contrast average yield of the canes. Comprehensive economic benefit is increased compared with the contrast economic benefit.

Description

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AI Technical Summary

Benefits of technology

This patented technology allows plants with different root systems (the roots) to be mixed together during their growing season while still maintaining good nutritional value from each other's stalkings. By selecting appropriate combinations of these root system types based upon factors like lengthening its own life cycle, increasing vegetative contact within the same area, reducing competition among neighboring species, enhancing greenhouse effectiveness, promoting better spatial distribution over both cropland areas, improving productivity at commercial scales, and create high yields per unit weight through improved seedling selection combined with broad rows interplanter techniques that maximizes space usage. Overall, this innovations enhance farming practices such as optimizing resource allocation and environmental impact reduction measures.

Problems solved by technology

Technological Problem: The current method of managing sweet sorghum plants involves selecting or choosing different types of grains from nearby ones that have been grown together over several years without affecting their quality due to factors like weather changes (temperature) and nutrients supply issues. Additionally, there may exist differences among various vegetables based on genetic makeup and growing environment. These challengings lead to reduced efficiency when developing new agricultural practical solutions involving both sugarcans and greenhouse tomatoes.

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