利用卤代嗜碱性细菌促进废水处理后的可持续农业:对基因组适应性和环境适应性的认识

IF 1.8 3区 生物学 Q4 MICROBIOLOGY
Yosra Amara, Mouna Mahjoubi, Yasmine Souissi, Hanene Cherif, Islem Naili, Darine ElHidri, Imen Kadidi, Amor Mosbah, Ahmed S Masmoudi, Ameur Cherif
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引用次数: 0

摘要

土壤盐度和碱度的不断增加是一项全球性挑战,尤其是在突尼斯等干旱地区,约有 50% 的土地对土壤盐碱化十分敏感。人类活动,包括使用经过处理的废水(TWW)进行灌溉,加剧了这些问题。适应 TWW 条件并具有促进植物生长(PGP)和生物防治特性的卤代嗜碱性细菌可以提供解决方案。本研究从使用 TWW 灌溉 20 多年的橄榄树根圈样本中分离出 24 株半嗜卤细菌。利用 16S rRNA 基因测序进行的细菌鉴定表明,这些嗜卤细菌分离物能够在高盐度和碱性 pH 条件下生长,主要隶属于芽孢杆菌(海洋杆菌和葡萄球菌)。值得注意的是,这些菌株在正常和盐碱条件下都表现出生物肥化和酶的产生。这些菌株具有溶解磷酸盐、产生外多糖、苷元、氨和氰化氢等特性。这些菌株还具有酶活性,包括蛋白酶、淀粉酶和酯酶。四株入选的卤代嗜碱性 PGPR 菌株对赤霉病菌(Alternaria terricola)具有抗真菌活性,其中三株对重金属和农药具有耐受性。其中一株 Oceanobacillus picturea M4W.A2 被选中进行基因组测序。系统发生组分析表明,极端的环境条件可能影响了 M4W.A2 菌株特定适应性的发展,使其有别于其他海洋杆菌图画菌株。与植物生长促进、渗透和氧化胁迫耐受性、抗生素和重金属抗性相关的关键基因的存在,暗示了这些功能性能力可能有助于 M4W.A2 菌株在 TWW 灌溉土壤中茁壮成长。通过证明这种联系,我们希望加深对基因组适应胁迫环境的理解。此外,通过移动遗传因子识别基因复制和水平基因转移事件,也有助于理解这些适应动态。本研究揭示了来自 TWW 灌溉根瘤菌的卤代嗜碱性细菌具有促进植物生长和生物防治的特性,其基因组适应性使其能够在高盐度和碱性条件下生存,为解决土壤盐碱化问题提供了潜在的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tapping into haloalkaliphilic bacteria for sustainable agriculture in treated wastewater: insights into genomic fitness and environmental adaptation

Tapping into haloalkaliphilic bacteria for sustainable agriculture in treated wastewater: insights into genomic fitness and environmental adaptation

Tapping into haloalkaliphilic bacteria for sustainable agriculture in treated wastewater: insights into genomic fitness and environmental adaptation

The increasing salinity and alkalinity of soils pose a global challenge, particularly in arid regions such as Tunisia, where about 50% of lands are sensitive to soil salinization. Anthropogenic activities, including the use of treated wastewater (TWW) for irrigation, exacerbate these issues. Haloalkaliphilic bacteria, adapted to TWW conditions and exhibiting plant-growth promotion (PGP) and biocontrol traits, could offer solutions. In this study, 24 haloalkaliphilic bacterial strains were isolated from rhizosphere sample of olive tree irrigated with TWW for more than 20 years. The bacterial identification using 16S rRNA gene sequencing showed that the haloalkaliphilic isolates, capable of thriving in high salinity and alkaline pH, were primarily affiliated to Bacillota (Oceanobacillus and Staphylococcus). Notably, these strains exhibited biofertilization and enzyme production under both normal and saline conditions. Traits such as phosphate solubilization, and the production of exopolysaccharide, siderophore, ammonia, and hydrogen cyanide were observed. The strains also demonstrated enzymatic activities, including protease, amylase, and esterase. Four selected haloalkaliphilic PGPR strains displayed antifungal activity against Alternaria terricola, with three showing tolerances to heavy metals and pesticides. The strain Oceanobacillus picturea M4W.A2 was selected for genome sequencing. Phylogenomic analyses indicated that the extreme environmental conditions probably influenced the development of specific adaptations in M4W.A2 strain, differentiating it from other Oceanobacillus picturae strains. The presence of the key genes associated with plant growth promotion, osmotic and oxidative stress tolerance, antibiotic and heavy metals resistance hinted the functional capabilities might help the strain M4W.A2 to thrive in TWW-irrigated soils. By demonstrating this connection, we aim to improve our understanding of genomic fitness to stressed environments. Moreover, the identification of gene duplication and horizontal gene transfer events through mobile genetic elements allow the comprehension of these adaptation dynamics. This study reveals that haloalkaliphilc bacteria from TWW-irrigated rhizosphere exhibit plant-growth promotion and biocontrol traits, with genomic adaptations enabling their survival in high salinity and alkaline conditions, offering potential solutions for soil salinization issues.

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来源期刊
CiteScore
5.60
自引率
11.50%
发文量
104
审稿时长
3 months
期刊介绍: Antonie van Leeuwenhoek publishes papers on fundamental and applied aspects of microbiology. Topics of particular interest include: taxonomy, structure & development; biochemistry & molecular biology; physiology & metabolic studies; genetics; ecological studies; especially molecular ecology; marine microbiology; medical microbiology; molecular biological aspects of microbial pathogenesis and bioinformatics.
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