Comparing the symbiotic efficiency of auxin and ACC-deaminase producing rhizobia and rhizobacteria to improve soybean growth under axenic conditions

IF 0.4 Q4 SOIL SCIENCE

Soil & Environment Pub Date : 2023-09-22 DOI:10.25252/se/2023/243164

Muhammad Irfan, Zahir Ahmad Zahir, Hafiz Naeem Asghar, Muhammad Shahid

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引用次数: 0

Abstract

Potential of auxin and ACC-deaminase producing rhizobia and PGPR-strains was examined to improve soybean growth individually and in combination with L-tryptophan (L-TRP) in two different experiments conducted in a growth chamber. A consortium of selected PGPR and rhizobial strains was prepared by following the compatibility test. These bacteria were also evaluated for improving soybean growth along with different levels of L-TRP. Bacteria were isolated from the rhizosphere and nodules of soybean, and characterized in vitro for their production of ACC-deaminase and auxin. We observed that auxin production for rhizobia and rhizobacteria ranged from 14 to 39 and 2 to 48 µg IAA equivalents mL-1, respectively. Similarly, the ACC-deaminase production potential of rhizobia and rhizobacteria ranged between 0.024 to 3.252 and 0.178 to 3.188 μM α-ketobutyrate μg-1 protein h-1, respectively. In addition, among the different L-TRP levels, 10-3 M was found to be the most significant level. The soybean growth attributes such as shoot length (46 and 30%), root length (42 and 39%), fresh biomass (33 and 34%) and dry biomass (44 and 27%) were increase to the maximum by the inoculation of ‘IRS-13’ and ‘PS-2’ in the presence of 10-3 M L-TRP compared to the uninoculated control. Similarly, in the context of consortium application, the inoculation with bacterial consortium “IRS13-PS1” along with 10-4 M TRP led to maximum increment in shoot length (104%), root length (74%), shoot fresh and dry weights (179 and 138%), shoot and root dry weights (98 and 260%) and fresh weight as well as dry plant biomass (87.5 and 117%) compared to the control. We concluded that PGPR-rhizobial consortium in combination with L-TRP @ 10-4 M can effectively improve soybean growth under axenic conditions.

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比较生长素与产acc脱氨酶的根瘤菌和根瘤菌对无氧条件下大豆生长的促进作用

在生长室内进行了两种不同的试验，研究了生长素和acc -脱氨酶产生的根瘤菌和pgpr菌株单独和与l -色氨酸(L-TRP)联合促进大豆生长的潜力。通过相容性试验，筛选出PGPR与根瘤菌组合。在不同水平的L-TRP条件下，评价了这些细菌对大豆生长的促进作用。从大豆根际和根瘤中分离到产acc脱氨酶和生长素的细菌，并对其进行了体外鉴定。我们观察到根瘤菌和根瘤菌的生长素产量分别为14 ~ 39µg IAA当量mL-1和2 ~ 48µg IAA当量mL-1。根瘤菌和根瘤菌的ac -脱氨酶产势分别为0.024 ~ 3.252 μM和0.178 ~ 3.188 μM α-酮丁酸酯μg-1蛋白h-1。此外，在不同的L-TRP水平中，10-3 M是最显著的水平。在10-3 M L-TRP存在的情况下，接种IRS-13和PS-2的大豆生长性状，如茎长(46%和30%)、根长(42%和39%)、鲜生物量(33%和34%)和干生物量(44%和27%)均比未接种的对照显著增加。同样，在联合体施用条件下，接种细菌联合体“IRS13-PS1”和10-4 M TRP，与对照相比，地上部长(104%)、根长(74%)、地上部鲜重和干重(179和138%)、地上部和根干重(98和260%)、鲜重和干生物量(87.5%和117%)增幅最大。综上所述，pgpr -根瘤菌联合体与L-TRP @ 10-4 M组合可有效促进大豆在无氧条件下的生长。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Soil & Environment SOIL SCIENCE-

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

4 weeks