菌肥,亦称生物肥、生物肥料、细菌肥料或接种剂等。菌肥,形象说来就是“菌+肥”,因为菌肥一方面含有“有机质、氮、磷、钾”等作物生长所必需的营养成分,同时产品中还含有大量的有益微生物菌,有益微生物菌在土壤中繁殖,起到改良土壤、防治病害等功能。
磷菌肥 phosphobacterin ; phosphobacterial fertilizer ; Phosphorus bacterium fertilizer
硅酸细菌肥料 siliceous bacterium fertilizer
固氮细菌肥料 azotobacterin
固氮菌肥料 Azotobacter fertilizer ; nitrogen-fixing bacteria manure
酵素菌肥 Ferment Bacterial Fertilizer ; enzyme fertilizer
根瘤菌肥料 Rhizobium fertilizer
抗菌肥料 [肥料] antibiotic fertilizer
磷细菌肥料 Phosphate bacteria fertilizer
硅酸盐细菌肥料 Silicate bacteria fertilizer
Make biofertilizer containing BFA(biotechnology fulvic acid) combine reasonably with compound antagonistie agents to Produce tomato leaf mould disease specific bioehemical fulvie acid compound mierobial fertilizer. Field experimengt results show that the compound microbial fertilizer can effectively control tomato leaf mould.
YM2与L8号混合菌株和黄腐酸复配成微生物菌肥用于大田试验,田间试验结果表明,微生物菌肥能有效防治番茄叶霉病的发生。
参考来源 - 番茄叶霉病拮抗菌株的选育、复合诱变及田间试验研究Conclusion Applying different soil conditioners all had certain positive effects on soil and rice growth and ORYKTA,Danlu microbial inoculum and Danlu bacterial fertilizer had more significant effects on increasing yield.
结论施用不同土壤调理剂均对土壤及水稻生长有一定的积极效果,ORYKTA、丹路菌剂、丹路菌肥的增产效果较为显著。
参考来源 - 不同土壤调理剂对盐碱地土壤理化性质及水稻产量的影响·2,447,543篇论文数据,部分数据来源于NoteExpress
本文介绍了生物法制固氮菌肥的方法,以及菌种的检验方法。
The paper introduces the method of making azotobacter fertilizer by biological process and test method of bacteria.
采用气相色谱测定还原产物,以确定复合菌肥料的固氮活性。
Reduced products were analyzed by GC to determine of nitrogen-fixation activity in biologically compound fertilizer.
在富难溶性磷土壤上,施用磷细菌肥可以提高土壤速效磷含量。
In the rich sparingly soluble phosphorus soil. Phosphorus bacteria fertilizer could increase the content of soil available phosphate.
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