商品和塔里芽孢杆菌胞外多糖对盐渍粘壤土土壤团聚性和水力特性的影响。

IF 2.6 3区 生物学 Q3 MICROBIOLOGY
Lynda Smail, Nadjette Djemouai, Nadia Boukhelata, Nassima Baha, Yahia Kaci
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引用次数: 0

摘要

土壤结构及其稳定性对水的通量和保持以及植物生长和土壤侵蚀的控制至关重要,特别是在干旱地区。微生物胞外多糖(EPS)由于其流变性能,特别是其黏性、弹性和多电解质性质,在土壤聚集中起着关键作用。EPS-R1为分离自阿尔及利亚阿德拉省雷甘纳的塔里米芽孢杆菌REG 0201M。研究了EPS对钙质、粉质粘土、盐渍土物理性质的影响,包括土壤团聚体形成、稳定性和土壤渗透性。在酵母提取液蔗糖琼脂上产生细菌EPS- r1,然后回收细菌细胞和EPS,并以0.2、0.4和0.6% (w/w)的浓度与土壤混合。利用商业植物和微生物生物聚合物,即阿拉伯胶和琼脂胶,以及黄原胶,分别比较了它们的效果。在浓度低至0.2%时,EPS-R1显著增强了大团聚体,在浓度为0.6%时,大团聚体大于2mm的比例高达86.89%。骨料稳定性也有所提高,在0.6% EPS-R1条件下,骨料的崩解率仅为12.8%,而在XG条件下崩解率为29.8%。平均重径表明,EPS-R1处理使土壤结构由极不稳定转变为高度稳定。0.6%土壤渗透率增加251%。失水动力学结果表明,添加0.2% EPS-R1后,土壤保水力降低,提高了土壤团聚体的稳定性。研究结果表明,EPS-R1作为一种有效的生物结构土壤改良剂,具有改善干旱和退化盐渍土壤的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Commercial and Paenibacillus tarimensis Exopolysaccharides on Soil Aggregation and Hydraulic Properties of a Saline Clay Loam Soil.

Soil structure and its stability are crucial for water flux and retention, as well as for plant growth and the control of soil erosion, especially in arid regions. Microbial exopolysaccharides (EPS) play a key role in soil aggregation due to their rheological properties, particularly their viscosity, elasticity, and polyelectrolyte nature. EPS-R1 was obtained from Paenibacillus tarimensis REG 0201M, which was isolated from Reggane (Adrar Province, Algeria). The EPS was evaluated for its effects on the physical properties of a calcareous, silty-clay, saline soil, including soil aggregate formation, its stability, and the soil permeability. The bacterial EPS-R1 was produced on Yeast Extract Sucrose Agar, and then both bacterial cells and EPS were recovered and mixed with the soil at three concentrations: 0.2, 0.4, and 0.6% (w/w). Commercial plant and microbial biopolymers viz., gum Arabic and agar-agar, and xanthan gum, respectively, were used to compare their effects. EPS-R1 enhanced macroaggregation markedly at concentrations as low as 0.2%, achieving up to 86.89% of macroaggregates greater than 2 mm at 0.6%. Aggregate stability also improved, with only 12.8% disintegration at 0.6% EPS-R1, when compared with 29.8% with XG. The mean weight diameter showed that treatment with EPS-R1 transformed the soil from a very unstable to a highly stable structure. Furthermore, soil permeability increased by 251% at 0.6%. The water loss kinetics indicated that soil water retention forces decreased with the addition of 0.2% EPS-R1, thereby improving soil aggregate stability. The findings highlighted the potential of EPS-R1 as an effective bio-structuring soil amendment for arid and degraded salt-affected soils.

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来源期刊
Current Microbiology
Current Microbiology 生物-微生物学
CiteScore
4.80
自引率
3.80%
发文量
380
审稿时长
2.5 months
期刊介绍: Current Microbiology is a well-established journal that publishes articles in all aspects of microbial cells and the interactions between the microorganisms, their hosts and the environment. Current Microbiology publishes original research articles, short communications, reviews and letters to the editor, spanning the following areas: physiology, biochemistry, genetics, genomics, biotechnology, ecology, evolution, morphology, taxonomy, diagnostic methods, medical and clinical microbiology and immunology as applied to microorganisms.
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