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This study aimed to evaluate the disease antagonism and seed growth promotion effects of streptomyces on Amorphophallus konjac by agar block and axenic fermentation extract experiments. Pot experiments were taken to assess relative biocontrol effiency and effect of streptomyce preparation M (mixture of S. carnosus and S. pactum in solid-state fermentation with 1:1 ratio) on biomass, photosynthetic rate, yield and corm quality of A. konjac K. Koch ex N.E.Br. Results showed that: 1 Streptomyces Act12 had obvious antagonistic activity against six soft rot pathogens, and the diameter of growth inhibition zones ranged from 19.4 to 31.6 mm. Fermentation filtrate of streptomyces exhibited growth-promoting activity on melon seed germination and seedling growth. 2 Streptomyce-derived viable preparations had biocontrol effect on A. konjac regarding soft rot-disease prevention. In the pot experiment, individual inoculation of preparations achieved 65.0% relative biocontrol effect on A. konjac during the harvest stage. After 10 and 20 days of inoculation combined with Pectobacterium chrysanthemi (a bacterial pathogen), the relative biocontrol effiency of streptomyces were 100.0% and 58.4%, respectively. 3 Streptomyces showed obvious growth-promoting effect on growth and yield of A. konjac. In the pot experiment, combined inoculation of streptomyces and Pectobacterium chrysanthemi significantly increased the petiole diameter by 11.1%, net photosynthetic rate by 111.7%, fresh weight of corm by 54.8%, fresh weight of rhizome by 304.2%, and the number of rhizomes by 200.0%, compared with individual inoculation of Pectobacterium chrysanthemi. 4 Individual inoculation with streptomyces improved corm quality of A. konjac. The contents of glucomannan, starch and cellulose significantly increased by 14.0%, 8.1% and 27.7%, respectively compared with control (P < 0.05) . This study indicates that streptomyces promotes the growth of A. konjac, enhances the yield and the content of glucomannan, and at the same time helps disease prevention of A. konjac. 相似文献
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东南亚珠芽魔芋多苗接力生长特性及应用前景 总被引:4,自引:2,他引:2
以珠芽魔芋人工诱导开花进行规模化无性育种,可将魔芋繁殖系数从1位数提高约330倍;采用催苗技术让种子及叶面球茎提早出苗,可显著延长魔芋生长周期,使魔芋种植周期由3年缩短为1年;魔芋种子1年生长最高膨大率超过5000倍,当年即形成1180g球茎;魔芋叶面球茎最大膨大率超过100倍,两者种植一季魔芋即可用于加工.突破了魔芋繁殖系数低、膨大率低导致种植周期长的双重困局,显著降低了病害风险,大幅度缩短了魔芋种植周期,从而突破魔芋传统种植区域的地理限制,使魔芋总产量超常规增长. 相似文献
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