多性状植物共接种促根菌可促进移栽安曼水稻的生长和养分同化。BRRI dhan49十分)

Phalguni Das, Protyasha Biswas, Mousumi Akter, Atiqur Rahman, Md Alam
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摘要

背景:促进植物生长的根际细菌(PGPR)是可以通过多种机制促进植物生长的根际细菌。本试验旨在研究植物促生菌对水稻生长和养分同化的影响。方法:移植阿曼水稻种子(cv。BRRI dhan49)收集自孟加拉国水稻研究所(BRRI)。盆栽试验采用完全随机设计,3个重复,分别接种两株PGPR分离株MQ1(增锌、产IAA、增磷、固氮)和MQ2(增锌、增磷、固氮),添加3种不同水平的化肥(FR0.0不施肥、FR0.5为推荐用量的一半、FR1.0为推荐用量的全部)。记录移栽后不同天数的株高、分蘖数、hill-1和生物量产量。分析了植物样品中N、P、Ca、Mg、S、Fe、Zn、Mn、Cu和Cd的含量。主要发现:水稻植株单独或联合接种PGPR,以及不同剂量的肥料均能改善植株生长,增加生物量产量。PGPRMQ1RF1.0处理的株高最高(74.057±3.164 cm),分蘖数最高(13.000±2.082),生物量最高(10.275±0.541 t ha-1)。与未接种的对照植株相比,PGPR处理的水稻植株的氮含量和吸收量也更高。此外,与未接种对照植株相比,处理植株的铁和锌含量也较高。PGPRMQ1RF1.0处理的N(0.268±0.046)、P(0.626±0.095)、Fe(6.062094±A)、Zn(1.237±0.197)、Mn(11.908±1.879)摄取量较高。结论:PGPR接种能促进水稻植株生长和养分吸收,具有广阔的应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Co-inoculation of multi-trait plant growth promoting rhizobacteria promotes growth and nutrient assimilation of transplant Aman rice (cv. BRRI dhan49)
BACKGROUND: Plant growth-promoting rhizobacteria (PGPR) are the rhizosphere bacteria that can enhance plant growth by a wide variety of mechanisms. This study was conducted to assess the effects of plant growth-promoting rhizobacteria on growth and nutrient assimilation of rice. METHODOLOGY: Seeds of transplant Aman rice (cv. BRRI dhan49) were collected from Bangladesh Rice Research Institute (BRRI). Pot experiment was conducted with rice plant inoculated with two PGPR isolates MQ1 (Zinc solubilizing, IAA producing, phosphate solubilizing and N2-fixing) and MQ2 (Zinc solubilizing, phosphate solubilizing and N2-fixing) with addition of three different levels of chemical fertilizers (FR0.0 no fertilizer, FR0.5 half of the recommended dose, FR1.0 full of the recommended dose of fertilizers) following Completely Randomized Design with three replications. Plant height at different days after transplanting, number of tillers hill-1 and biomass yield were recorded. Plant samples were analyzed for N, P, Ca, Mg, S, Fe, Zn, Mn, Cu and Cd contents. KEY FINDINGS: Rice plants inoculated with the PGPR both individually or in consortium along with different doses of fertilizers showed an improved plant growth and increased biomass production. Highest plant height (74.057±3.164 cm) and maximum number of tillers hill-1 (13.000±2.082) were recorded in PGPRMQ1RF1.0 treatment and the highest biomass production (10.275±0.541 t ha-1) was recorded in PGPRCONS.RF1.0. Nitrogen content and uptake of the individual PGPR treated rice plants was also found to be higher in comparison with the uninoculated control plants. Besides these iron and zinc content of the treated rice plants was also found to be higher in comparison with the uninoculated control plants. N (0.268±0.046), P (0.626±0.095), Fe (6.062094±A), Zn (1.237±0.197) and Mn (11.908±1.879) uptake were observed higher in PGPRMQ1RF1.0 treatment. CONCLUSION: PGPR inoculation has immense potential to be used as agricultural crop inoculants as they promote plant growth as well as nutrient assimilation of rice.
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