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High Efficiency of Propagation for Sagittaria sagittifolia Using a Temporary Immersion Bioreactor System 被引量:1
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作者 Meiping Gao Zhicheng Lin +7 位作者 Cong Luo Zhang Chi Zhihuan Mo Fanglian He Wen Jiang Lijuan Chen Xinhua He Shaolong Wei 《Journal of Agricultural Science and Technology(A)》 2016年第3期161-170,共10页
Although several studies have reported on the propagation of the Sagittaria sagittifolia to date, none of these methods have efficiently achieved the mass production of these plants. The present study aimed to investi... Although several studies have reported on the propagation of the Sagittaria sagittifolia to date, none of these methods have efficiently achieved the mass production of these plants. The present study aimed to investigate the propagation and growth of S. sagittifolia using a temporary immersion bioreactor system (TIBS) compared with conventional semi-solid and liquid culture. The effect of different immersion frequencies and immersion times together with supplementation of various plant growth regulators to the Murashige and Skoog (MS) medium was evaluated on shoot proliferation and plant growth. The results showed that the higher immersion frequency (every 6 h) and shorter immersion time (3 min and 10 rain) in medium containing 4 mg/L BA and 0.1 mg/L NAA produced the highest multiplication rate (23), which are significantly higher than conventional semi-solid (3.6) and liquid (4.5) method, and the best plant growth parameter. While, the lower immersion frequency and longer immersion time (30 rain every 12 h and 60 min every 24 h) induced vitrification and pollution rate in shoot tips 16.6% and 19%, 42% and 37%, respectively. There is distinct decrease in pollution rate (8.3%) in TIBS (10 min every 6 h) compared with the conventional semi-solid and liquid cultures. Medium containing 4 mg/L BA and 0.5 mg/L NAA using 10 min immersion every 6 h showed satisfaction at the rooting stage, with high shoot proliferation rate (21.6), 100% rooting and 94% plant survival. Therefore, applying TIBS in S. sagittifolia is an efficient method for scaling up the production of plantlets with high quality seedlings. 展开更多
关键词 Sagittaria sagittifolia temporary immersion bioreactor system proliferation and growth root formation.
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Rapid Propagation of Virus-free Sugarcane Plantlets via Temporary Immersion Bioreactor System 被引量:2
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作者 刘丽敏 李松 +11 位作者 余坤兴 唐红琴 刘红坚 淡明 卢曼曼 戴友铭 Li-min Kun-xing Hong-qin Hong-jian Man-man You-ming 《Agricultural Science & Technology》 CAS 2010年第5期148-150,190,共4页
By employing temporary immersion bioreactor system(TIBs),we studied virus-free culture of seedlings from sugarcane varieties ROC16 and ROC22,from medium recipe,inoculation amount,sucrose concentration,and variety diff... By employing temporary immersion bioreactor system(TIBs),we studied virus-free culture of seedlings from sugarcane varieties ROC16 and ROC22,from medium recipe,inoculation amount,sucrose concentration,and variety difference. The results showed,using this method,that proliferation rate of ROC16 improved by 40 times,per flask generated about 800 plantlets; of ROC22 improved by 30 times,per flask generated about 400-600 plantlets. The results provided basis for using TIBs in rapid propagation of plantlets via tissue culture. 展开更多
关键词 Seccharrum officinarurn L. temporary immersion bioreactor system Virus-free seedling Rapid propagation
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TIB for Micropropagation and the Relationship between Anthocyanins and Chlorophyll of Strawberry Seedlings
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作者 LIU Shou-ming NONG Zhi-wang +2 位作者 CHEN Yu-chen LIU Ren ZHU Xi-wu 《Agricultural Science & Technology》 CAS 2022年第1期32-38,共7页
In this study, we employed a temporary immersion bioreactor(TIB)system for the micropropagation of strawberry seedlings. The TIB method and the conventional method for the micropropagation of strawberry seedlings were... In this study, we employed a temporary immersion bioreactor(TIB)system for the micropropagation of strawberry seedlings. The TIB method and the conventional method for the micropropagation of strawberry seedlings were compared in terms of explant propagation coefficient, seedling fresh weight,contents of anthocyanins and chlorophyll, and photosynthetic characteristics. The results showed that an inoculation density of 40 explants/L was suitable for the micropropagation of ’Benihope’ strawberry seedlings in the TIB. The propagation coefficient, fresh weight, photosynthetic rate, stomatal conductance, transpiration coefficient, and the contents of total anthocyanins and chlorophyll of seedlings micropropagated in the TIB were significantly higher than those of the seedlings micropropagated by the conventional method. In conclusion, the TIB method was superior to the conventional method in the micropropagation of strawberry seedlings.The negative reciprocity did not occur between anthocyanins and chlorophyll in strawberry seedlings cultured under forced ventilation such as TIB. 展开更多
关键词 Strawberry seedlings MICROPROPAGATION temporary immersion bioreactor Anthocyanins Photosynthetic characteristics
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