多品系生物肥料提高不同绿豆基因型产量的田间评价

IF 0.4 Q4 SOIL SCIENCE
Z. Zahir, M. Ahmad, T. Hilger, A. Dar, S. R. Malik, G. Abbas, F. Rasche
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引用次数: 17

摘要

绿豆可以成功地种植在现有种植系统中的小块土地上,这可能会增加农民收入,也可以恢复土壤肥力。即使在不同的土壤和气候条件下,用细菌接种剂接种作物也有可能提高作物生产力。通过田间试验,评价了由根瘤菌、荧光假单胞菌和枯草芽孢杆菌联合使用制备的多菌株生物肥料在田间条件下对10个绿豆基因型的生长、结瘤和生产力的提高效果,以及接种对土壤中细菌总DNA(群体)的影响。实验采用随机完全区组设计(RCBD),因子安排和三次重复。结果表明,与未接种的对照相比,在不同基因型的绿豆下,接种多菌生物肥料可以增加根瘤数量、生长和产量。在田间条件下,接种或不接种的基因型表现出不同的生产潜力。在Bahawalpur的田间条件下,基因型NCM 2015产量更高,但接种基因型NM 17、NM 19和NCM-252-10更有效。16S rRNA分析结果显示,所有绿豆基因型的接种植物根际的基因拷贝数均高于未接种植物。在NM11接种植物的根际观察到最大的细菌总数,这显著优于同一绿豆品系的未接种对照植物,但与接种下的其他品系相比不显著。结果表明,将根瘤菌和含有ACC脱氨酶的PGPR菌株联合使用制备的多菌群生物肥料是提高绿豆基因型生长、结瘤和产量的有效途径。不同基因型对接种的反应差异显著。因此,应继续研究开发不同高级基因型的接种物,并应更加重视开发具有高效菌株的生物肥料,以便在不同的气候和土壤条件下使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Field evaluation of multistrain biofertilizer for improving the productivity of different mungbean genotypes
Mungbean can successfully be grown in the small slots present in the existing cropping systems that may increase the farmer income and can also restore soil fertility. The inoculation of crop plants with bacterial inoculants has the potential to increase crop productivity even under different soil and climatic conditions. A field experiment was conducted to evaluate the effectiveness of multi-strain biofertilizer prepared through combined use of Rhizobium phaseoli and Pseudomonas fluorescens and Bacillus subtilis for enhancing the growth, nodulation and productivity of ten mungbean genotypes under field conditions, and effect of inoculation on total bacterial DNA (population) in soil. The experiment was laid out in randomized complete block design (RCBD) with factorial arrangements and three replications. Results revealed that inoculation with multistrain biofertilizer increased the nodule numbers, growth, and yield under different mungbean genotypes when compared with their respective uninoculated control. The genotypes showed different productive potentials either with or without inoculation under field conditions. The genotype NCM 2015 yielded more but inoculation was more effective with genotypes NM 17, NM 19 and NCM-252-10 under field conditions of Bahawalpur. Results of 16S rRNA analysis showed a higher number of gene copies in the rhizosphere of inoculated plants of all mungbean genotypes than those of uninoculated plants. Maximum total bacterial population was observed in the rhizosphere of inoculated plants in NM 11 that was significantly better than un-inoculated control plants of the same mungbean line but non-significant when compared with other lines under inoculation. It is concluded that the use of multistrain biofertilizer prepared through combined use of Rhizobium and PGPR strains containing ACC-deaminase could be an effective approach to improve growth, nodulation and yield of mungbean genotypes. The response of different genotypes to the inoculation varied significantly. So, research for the development of inoculum for different advanced genotypes should be continued and more emphasis should be deployed to develop biofertilizers with efficient strains to use them under different climate and soil conditions.
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来源期刊
Soil & Environment
Soil & Environment SOIL SCIENCE-
CiteScore
1.10
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