[Effects of plant growth regulators and nitrogen on germination of Epimedium pseudowushanense after its stems and leaves reaped].

In order to explore appropriate measures to promote germination after the harvest of Epimedium pseudowushanense, 6-BA, urea, ammonium bicarbonate and GA3 were chosen to spray on the root and rhizomes, and then the biological indicators such as branches, leaf length, leaf width, plant height and so on, were measured in different periods, and the contents of epimedin A, epimedin B, epimedin C and icariin in the dry leaves were detected by HPLC. Results showed that 6-BA 90 mg·L⁻¹(B1), 6-BA 60 mg·L⁻¹(B2),6-BA 30 mg·L⁻¹+urea 300 mg·L⁻¹ (C1), 6-BA 60 mg·L⁻¹+urea 300 mg·L⁻¹(C2),6-BA 60 mg·L⁻¹+ ammonium bicarbonate 300 mg·L⁻¹(C4) significantly increased bud germination in the early period, and the plants quickly set up new system of photosynthesis, the branches in a month of which were higher than the control group respectively by 165.9%, 115.76%, 103.86%, 104.50%, 81.67%.However the branches developed the next year and the dry weight of leaves per plant in group B1 and B2 were much lower than that in control group. The groups that use 6-BA and nitrogen at the same time reaped a good yield of leaves even though the treatment had no significant influence on the branches developed the next year. The dry weight of leaves of C1, C2, C4 treatments were 36.80%, 32.84%, 45.97% more than the control group respectively. Therefore, C1, C2 and C4 treatments are the more appropriate to promote recovery after harvest. Furthermore, different groups, except 10 mg·L⁻¹ 6-BA treatment significantly reduced the content of epimedin C, other groups didn't have any significant effect on the contents of such flavonoids.

[Tissue cultivation of tiller buds of Epimedium wushanense].

OBJECTIVE: To established the rapid tissue propagation system of Epimedium wushanense, in order to provide theoretical basis for industrialized seed cultivation. METHOD: Tiller buds E. wushanense were used as explants, with MS, B5, WPM as basic media, and added with different concentrations of plant growth regulators such as 6-BA, NAA and GA3, in order to conduct a systematic study on induction and propagation conditions for tiller buds. RESULT: The suitable method for sterilizing bud was to disinfect with 75% ethanol for 30 s, and then treated with 0.1% HgCl2 for (4 + 2) min for consecutively twice, which could control the pollution rate below 5% and the survival rate above 75%. The optimal medium for bud induction was WPM + 6-BA 2.0 mg x L(-1) + NAA 0.1 mg x L(-1) + GA3 0.5 mg x L(-1), with the induction rate of 75.5%; meanwhile, the basic medium and 6-BA showed significant effect on the induction rate. The propagation medium suitable for buds was MS +6-BA 2.0 mg x L(-1) + NAA 0.5 mg x L(-1), with the propagation rate of 3.3. The optimal growth of rooting medium was 1/2 WPM + IBA 0.5 mg x L(-1) + activated carbon which (0.05%), with the rooting rate of 90%, three to six strong seedlings in each plant. CONCLUSION: The disinfection method suitable for tiller buds and the medium combination suitable for induction, propagation and rooting of adventitious buds are screened out to establish the rapid cultivation system for tiller buds of E. wushanense.

[Dormancy characteristics and breaking method of seeds from Epimedium wushanense].

OBJECTIVE: To research the mechanism of dormancy and find out the breaking method for the seeds of Epimedium wushanense. METHOD: The water permeability of seed coat was tested by weighing seeds. The germination inhibitor of the seeds were determined with biotic measurement. The development of embryos, germination rate and germination potential were determined after stratification. RESULT: The water permeability of seed coat was 41.86% after 5 h. The extracts of seeds had strong inhibition effects to the length growth of cabbage seedlings. The growth and development of embryos under the cold stratification (5 degrees C) were better than that under the other conditions. The embryo rate extended from 15.39% to 86.21% after 90 d. Germination rate and germination potential after stratification under 5 degrees C were significantly higher than that under other temperatures. CONCLUSION: The results showed that there was no obstacle of water permeability on the test of E. wushanense, after-ripening of embryogenesis and the germination inhibitor of the seed were the main reason for the seed dormancy. The cold stratification would be an effective way for breaking of the dormancy, which could significantly promote the seed embryogenesis and increase germination rate comparing to other methods.