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溶磷菌株组合的溶磷效应及对玉米生长的影响 总被引:3,自引:0,他引:3
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采用盆栽试验,研究了施用硝态氮、铵态氮对解磷细菌发酵液不同组分解磷活性及其对小白菜产量、品质的影响。结果表明,施用相同氮肥时,浇灌解磷细菌原发酵液处理 T3的作用效果明显优于菌体悬浮液T2及菌液上清T1;以硝态氮为底肥时,施用发酵原液的土壤有效态磷含量较高,小白菜产量最高,品质明显优化,即硝态氮含量下降, Vc、可溶性糖、可溶性蛋白、纤维素以及植株磷含量显著增加,且增加变幅均高于以铵态氮为底肥的效果。由此可知,硝态氮与解磷细菌发酵原液配施时, W1菌株解磷效果更好,可能是解磷菌株W1最适的氮源。因此,种植小白菜时直接向其根际施用解磷细菌发酵液并配施硝态氮肥,更有利于提高小白菜的品质及产量。 相似文献
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人参是我国传统名贵中药材,也是吉林省对外交往中的代名词。吉林参畦土壤有效磷含量低,但大量施用磷肥又会导致人参品质的下降,因此,本研究从人参根区土壤中筛选高效解磷细菌,接种到人参根部,研究其对人参生长、品质、土壤速效养分、土壤酶活性的影响,以期为人参解磷微生物肥料提供优良菌株,从而促进人参产业绿色发展。采用PKO平板初筛及摇瓶复筛从野山参根区土壤筛选高效解磷细菌。盆栽试验以3年生人参种苗为材料,每盆种植6棵单株重相同的人参种苗,设对照(CK)和处理组,待完全展叶后间苗,留取4棵长势一致的人参苗,采用滴灌的方式将菌液接种在人参苗根部附近,生长至红果期(90 d)取样,测定植物生长量和叶绿素含量、土壤速效养分、参根和参叶中NPK的含量、土壤酶活性、参根中微量元素和8种皂苷的含量。结果表明,1)平板初筛和摇瓶复筛得到P1、P7菌株,摇瓶培养中,P1可溶性磷为472.85μg/m L,P7可溶性磷为437.33μg/m L。2)P1处理的人参参根鲜重、干重显著高于P7、BM、CK处理,株高显著高于对照,叶绿素含量显著高于P7、BM、CK(P0.05)。3)P1处理促进人参对土壤钾元素的吸收,提高磷素在参根中的积累量。4)接种菌剂可以不同程度的提高土壤酶活性,以P1处理的效果最显著,P1处理人参根际土壤脲酶、酸性磷酸酶、过氧化物酶活性均为最高。5)P1处理显著提高了人参根中Fe、Mn、Cu的含量,分别较对照增加了52.74%、127.03%、28.96%,P1处理Zn与对照相比增加19.96%;人参根中8种单体皂苷P1处理均显著高于P7、BM、CK。6)经16S rRNA分析结合P1形态初步鉴定为假单胞菌。 相似文献
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Iron‐reducing bacteria can enhance the activation and turnover of the Fe(III)‐fixed phosphorus for mycorrhizal plants 下载免费PDF全文
Shirong Zhang Rongping Wang Lin Zhang Shuyi Li Gu Feng Xiaodong Ding 《植物养料与土壤学杂志》2014,177(2):208-215
In a greenhouse experiment, Medicago sativa was grown in iron‐rich soil colonized with iron‐reducing bacteria (IRB) and/or Glomus mosseae (GM) under different inorganic phosphorus levels, which was to understand the effects of IRB and GM on the activation and turnover of the Fe(III)‐fixed phosphorus. The results showed that at the both P rates, dual‐inoculation treatment stimulated the hyphal growth and increased the shoot P content. IRB could accelerate mycorrhizal colonization, and showed a positive effect on plant biomass and P uptake at both P levels. Compared to sole‐IRB or GM treatment, the dual inoculation treatment increased the soil available P content at both P rates (p < 0.05), which was in the following order: the dual IRB+GM > the sole IRB > the sole GM > control for soil SMP content at low P rate, whilst the dual IRB+GM > the sole IRB ≈ the sole GM > control treatment at high P rate. Compared with the IRB treatment, the GM treatment significantly decreased the soil available P content and the MBP content at low P rate, but made no difference at high P rates. The soil MBC in dual‐inoculation treatment was greatest under the high P level, while the highest soil MBC was the sole‐GM treatment under the low P level. The sole GM treatment showed significantly (p < 0.05) higher soil MBC than that of sole IRB at low P rate (p < 0.05), while there was no significant differences between sole IRB and sole GM at high P rate. Our results suggested that the interaction between GM and IRB had synergetic effect on the mobilization of Fe(III)‐fixed P and their relationship could be regulated by the turnover of MBP. The fact that plants acquired more P via mycorrhizal pathway in the GM‐IRB system suggested that the three symbiont of plant‐GM‐IRB had great ecological and functional significance for P activity in tropical and subtropical soil. 相似文献
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用田间实验研究污水灌溉条件下夏玉米水分与氮素的利用效率。试验设置了高、中、低3个不同灌水水平下的9个对比处理,结果表明:灌水量、灌溉水质、施肥量对夏玉米叶面积指数、株高和产量的影响很小;不同灌溉水量条件下,污水灌溉夏玉米的耗水规律与清水灌溉的耗水规律十分接近,且累积耗水量随灌溉水量的增大而增加;水分利用效率与灌溉水质和施肥无关,仅随灌溉水量的增加而减少。清水灌溉处理玉米的吸氮量高于污水灌溉处理玉米的吸氮量;氮的利用效率与灌水量和施肥无关,仅与灌溉水质有关,且污水灌溉氮的利用效率高于清水灌溉氮的利用效率。 相似文献