Gibberellin-Producing Bacteria Isolated from Coastal Soil Enhance Seed Germination of Mallow and Broccoli Plants under Saline Conditions.

IF 2.7 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY BioTech Pub Date : 2023-12-11 DOI:10.3390/biotech12040066
Ji-In Woo, Md Injamum-Ul-Hoque, Nazree Zainurin, Shifa Shaffique, Eun-Hae Kwon, Ho-Jun Gam, Jin Ryeol Jeon, In-Jung Lee, Gil-Jae Joo, Sang-Mo Kang
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Abstract

Salinity hinders plant growth, posing a substantial challenge to sustainable agricultural yield maintenance. The application of plant growth-promoting rhizobacteria (PGPR) offers an emerging strategy to mitigate the detrimental effects of high salinity levels. This study aimed to isolate and identify gibberellin-producing bacteria and their impact on the seed germination of Malva verticillata (mallow) and Brassica oleracea var. italica (broccoli) under salt stress. In this study, seven bacterial isolates (KW01, KW02, KW03, KW04, KW05, KW06, and KW07) were used to assess their capacity for producing various growth-promoting traits and their tolerance to varying amounts of salinity (100 mM and 150 Mm NaCl). The findings revealed that KW05 and KW07 isolates outperformed other isolates in synthesizing indole-3-acetic acid, siderophores, and exopolysaccharides and in solubilizing phosphates. These isolates also enhanced phosphatase activity and antioxidant levels, including superoxide dismutase and catalase. Both KW05 and KW07 isolate highlight the growth-promoting effects of gibberellin by enhancing of growth parameters of Waito-C rice. Further, gas chromatography-mass spectrometry validation confirmed the ability of KW05 and KW07 to produce gibberellins (GAs), including GA1, GA3, GA4, and GA7. Seed germination metrics were enhanced due to the inoculation of KW05 and KW07. Moreover, inoculation with KW05 increased the fresh weight (FW) (7.82%) and total length (38.61%) of mallow under salt stress. Inoculation with KW07 increased the FW (32.04%) and shoot length of mallow under salt stress. A single inoculation of these two isolates increased broccoli plants' FW and shoot length under salt stress. Gibberellin-producing bacteria helps in plant growth promotion by improving salt tolerance by stimulating root elongation and facilitating enhanced absorption of water and nutrient uptake in salty environments. Based on these findings, they can play a role in boosting agricultural yield in salt-affected areas, which would help to ensure the long-term viability of agriculture in coastal regions.

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从沿海土壤中分离出的赤霉素生产细菌可在盐碱条件下提高锦葵和西兰花的种子发芽率。
盐分阻碍植物生长,对可持续农业产量的维持构成了巨大挑战。应用促进植物生长的根瘤菌(PGPR)为减轻高盐度的不利影响提供了一种新兴策略。本研究旨在分离和鉴定产生赤霉素的细菌及其对盐胁迫下锦葵和西兰花种子萌发的影响。本研究使用了七种细菌分离物(KW01、KW02、KW03、KW04、KW05、KW06 和 KW07)来评估它们产生各种促进生长性状的能力及其对不同盐度(100 mM 和 150 Mm NaCl)的耐受性。研究结果表明,KW05 和 KW07 分离物在合成吲哚-3-乙酸、苷元、外多糖和溶解磷酸盐方面优于其他分离物。这些分离物还提高了磷酸酶活性和抗氧化剂水平,包括超氧化物歧化酶和过氧化氢酶。KW05 和 KW07 分离物通过提高 Waito-C 水稻的生长参数,突出了赤霉素的生长促进作用。此外,气相色谱-质谱验证证实了 KW05 和 KW07 产生赤霉素(GA)的能力,包括 GA1、GA3、GA4 和 GA7。接种 KW05 和 KW07 后,种子萌发指标得到提高。此外,接种 KW05 还能增加盐胁迫下锦葵的鲜重(7.82%)和总长(38.61%)。接种 KW07 能增加锦葵在盐胁迫下的鲜重(32.04%)和芽长。单一接种这两种分离菌株可增加西兰花植株在盐胁迫下的全长和芽长。产生赤霉素的细菌能刺激根系伸长,促进植物在盐胁迫环境下吸收水分和养分,从而提高耐盐性,有助于促进植物生长。基于这些发现,赤霉素细菌可在提高受盐影响地区的农业产量方面发挥作用,这将有助于确保沿海地区农业的长期生存能力。
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来源期刊
BioTech
BioTech Immunology and Microbiology-Applied Microbiology and Biotechnology
CiteScore
3.70
自引率
0.00%
发文量
51
审稿时长
11 weeks
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