Background:The dry bulb of Fritillaria thunbergii Miq.is a traditional Chinese medicine,and is the leading product of the geo-authentic crude drugs‘Zhebawei’in Zhejiang Province.Fritillaria thunbergii requires more ...Background:The dry bulb of Fritillaria thunbergii Miq.is a traditional Chinese medicine,and is the leading product of the geo-authentic crude drugs‘Zhebawei’in Zhejiang Province.Fritillaria thunbergii requires more potassium(K)than nitrogen and phosphorus,while the response of F.thunbergii to K has rarely been studied.Objective and Methods:To evaluate the K nutritional status of F.thunbergii,a 2-year field experiment was conducted under six K application rates(0,40,80,120,160,and 200 kg K_(2)O ha−1)with two F.thunbergii cultivars(ZB1,narrow-leaf;ZB2,broad-leaf).Results:The bulbus Fritillariae Thunbergii(BFT)yield increased to a plateau with more than~120 kg K_(2)O ha-1.The BFT quality met the standard of Pharmacopoeia of P.R.China with more than 40.0 kg K_(2)O ha^(-1).Leaf K concentration was significantly correlated with BFT yield,and was more sensitive to K application rate as compared to those of stems and flowers.Potassium application extended the duration of rapid leaf-biomass accumulation and increased the accumulation rate.Two cultivars had similar response patterns to K application,but ZB2 had higher K partial productivity,leaf-biomass,and leaf K concentration than ZB1.Conclusion:108.4-128.0 kg K_(2)O ha^(-1) was the optimal K application range for BFT yield.The potassium nutrition index(KNI)model established based on leaf K concentration has biological significance and can be used for dynamic diagnosis of K nutritional status of F.thunbergii with both accuracy and simplicity.展开更多
A new mutant strain J3 from Agaricus blazei Murril was obtained by 60Co irradiation. The yields of successive generations were increased more than 70% to compare with their original strain. The component analysis on a...A new mutant strain J3 from Agaricus blazei Murril was obtained by 60Co irradiation. The yields of successive generations were increased more than 70% to compare with their original strain. The component analysis on amino acids and fatty acid illuminated that the nutrient value of strain J3 fruiting body was better than the original strain. The apparent nodule structure was found in the hyphea of J3 strain through the observation by scanning electron microscope. RAPD analysis showed the great difference of PCR fingerprints between J3 and its original strain. It is a promising mutant strain for further commercial development in the future.展开更多
文摘Background:The dry bulb of Fritillaria thunbergii Miq.is a traditional Chinese medicine,and is the leading product of the geo-authentic crude drugs‘Zhebawei’in Zhejiang Province.Fritillaria thunbergii requires more potassium(K)than nitrogen and phosphorus,while the response of F.thunbergii to K has rarely been studied.Objective and Methods:To evaluate the K nutritional status of F.thunbergii,a 2-year field experiment was conducted under six K application rates(0,40,80,120,160,and 200 kg K_(2)O ha−1)with two F.thunbergii cultivars(ZB1,narrow-leaf;ZB2,broad-leaf).Results:The bulbus Fritillariae Thunbergii(BFT)yield increased to a plateau with more than~120 kg K_(2)O ha-1.The BFT quality met the standard of Pharmacopoeia of P.R.China with more than 40.0 kg K_(2)O ha^(-1).Leaf K concentration was significantly correlated with BFT yield,and was more sensitive to K application rate as compared to those of stems and flowers.Potassium application extended the duration of rapid leaf-biomass accumulation and increased the accumulation rate.Two cultivars had similar response patterns to K application,but ZB2 had higher K partial productivity,leaf-biomass,and leaf K concentration than ZB1.Conclusion:108.4-128.0 kg K_(2)O ha^(-1) was the optimal K application range for BFT yield.The potassium nutrition index(KNI)model established based on leaf K concentration has biological significance and can be used for dynamic diagnosis of K nutritional status of F.thunbergii with both accuracy and simplicity.
文摘A new mutant strain J3 from Agaricus blazei Murril was obtained by 60Co irradiation. The yields of successive generations were increased more than 70% to compare with their original strain. The component analysis on amino acids and fatty acid illuminated that the nutrient value of strain J3 fruiting body was better than the original strain. The apparent nodule structure was found in the hyphea of J3 strain through the observation by scanning electron microscope. RAPD analysis showed the great difference of PCR fingerprints between J3 and its original strain. It is a promising mutant strain for further commercial development in the future.