ABSTRACT
To study the breeding system and pollination characteristics of Gleditsia sinensis, we observed the development of flower development and the processing of pollination, and determined the pollen viability and stigma acceptability by TTC and benzidine-hydrogen peroxide method and detected its breeding system using OCI value, P/O ratio and artificial pollination.The results showed that: ①G. sinensis are racemes, divided into bisexual inflorescences (only a small amount of inactive pollen) and male inflorescences (occasionally a few bisexual flowers), flowers hermaphrodite. ②Male flowers had the strongest pollen activity 4 h after flowering; the stigma receptivity of bisexual was the highest at 1 h after flowering, and pollination was the best in this time. ③The pollen tube had a few elongation when the bisexual flower is half-opened. The number of pollen tube and length significantly increased when blooming. The flower reaches the ovary and even enters the ovule to complete the fertilization. ④When the OCI=4 and P/O=11 684, it means that the breeding system was facultative, outcrossing, and requiring pollinators based on the results of the bagging experiment.There was parthenogenesis. ⑤The characteristics of saponin pollination were wind pollination and insect vector pollination, and pollinators were initially identified as Apis mellifera ligustica. All these results provides a theoretical and technical foundation for the new germplasm of G. sinensis.
Subject(s)
Animals , Bees , Flowers , Gleditsia , Plant Breeding , Pollen , Pollination , ReproductionABSTRACT
To study morphological characteristics change of the development process and quercetin and polyphenols of accumulation dynamic of the spines of Gleditsia sinensis, measure and compare morphological indexes using Vernier caliper, ruler and balance, calibrate and analysis quercetin and polyphenols content using HPLC and colorimetric method. The spines of G. sinensis development process is divided into formation period (the beginning of August to the beginning of November), dormant period (the beginning of November to the end of March in the following year), germination period (the end of March to the middle of April), fast growth period (the middle of April to the middle of August), browning period (the middle of August to the end of August) and mature period (the beginning of September to the end of December). Formation period the spines primordium divides and forms the scale bubs; dormant period the scale bubs are in a dormant state; germination period the bubs scales fall off, spines primordium began to development; fast growth period rapid growth to maximum; browning period browning from the tip and browns until the whole becomes brown; mature period The early stage of maturity is full of luster, gradually the color deepened and the luster faded. The accumulation of quercetin was gradually decreasing after increasing. The total polyphenol accumulation was significantly decreased and then gradually increased, decreased finally. The content of quercetin was increased from 0.000 4%-0.002 6%, and the polyphenol content decreased from 0.761 9%-0.049 1% and then slowly increased to 0.286 9% in the fast growth period.The quercetin continuous increase to 0.004 3% and total polyphenol increased to 0.421 6% in the browning period. In the mature period, the quercetin content significantly decreased after reaching 0.009 6% in September, and the polyphenols content decreased after reaching 0.723 5% in October. Using principal component analysis results: September first, October 2nd, November 3rd. The morphological characteristics change of the development process and quercetin and polyphenols accumulation were determined. The development process is divided into six periods, the best harvest time is the early stage of mature period. Provide theoretical support for the utilization of the spines of G. sinensis and cultivation techniques of high yield.