Seed field seedling growing method for sapindus mukorossi gaertn

Abstract

The invention discloses a seed field seedling growing method for sapindus mukorossi gaertn, and belongs to the technical field of plant seedling growing. The seed field seedling growing method includes the steps of fruit collecting and storing; seedbed preparing; seed processing; sowing; post-sowing managing. According to the seed field seedling growing method, after mature fruits of the sapindus mukorossi gaertn are collected, the water content of pulp of the fruits is reduced, the fruits are dried and stored in a ventilation mode, seeds are obtained in a peeled mode before sowing is carried out and sequentially soaked with water and a spermidine solution, then sowing is carried out in a field where decoction-dreg contained decomposed manure is applied, multiple complex technical links for seed bud forcing treatment are avoided, after the seeds are sown, the sprouting speed is high, grown seedlings are orderly, plant root systems are well developed, and the grown seedlings are robust. The fruits stored with the technology are easily peeled mechanically, the seed peeling efficiency is improved, the peeled pulp can be directly used for production and processing such as saponin extracting, and the use value of the fruits of the sapindus mukorossi gaertn is increased. The seed field seedling growing method is of great significance in improving the production efficiency and saving cost when large-scale field seedling growing of the sapindus mukorossi gaertn is carried out.

Description

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AI Technical Summary

Benefits of technology

This patented method involves collecting young trees from different parts called sapphire tree (Sappunia sinensis) that have been treated with pesticides or other chemical substances before being planted next year on top of it's own root system. By reducing moisture levels during this process, crops start growing faster without harmful insect damage. Dried seals also break down into smaller pieces when they absorb nutrients through their stalk barkings. These small fragments help them stick out better once taken up by rainwater trickles onto surrounding areas where there will be new vegetation if needed. When these sealed seams become wet enough, an extractive liquid like ethanol is added to dissolve any remaining solids. Finally, the resulting mixture becomes solidified over time at room temperature, making disposal easier than traditional ways such as burning or dumping.

Problems solved by technology

This patents discusses different techniques used during plant growth cycle stages such as dry sand layers or liquid bath treatments like Sulfate Acid Bacteriostats (SAL) that help promote root formation while maintaining good nutritional values from plants grown under specific conditions. However, these existing technologies may require long periods of training before they become practical due to their complexity and potential environmental impact issues associated with current methods.