Cellulase−Hemicellulase Activities and Bacterial Community Composition of Different Soils from Algerian Ecosystems

Houfani, Aicha Asma; Větrovský, Tomáš; Navarrete, Oscar; Štursová, Martina; Tláskal, Vojtěch; Beiko, Robert G.; Boucherba, Nawel; Baldrián, Petr; Benallaoua, Saı̈d; Jorquera, Milko A.

doi:10.1007/s00248-018-1251-8

Cited by 26 publications

(13 citation statements)

References 76 publications

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“…This nding is consistent with that of Cheng et al (2018) and who found that amino acid metabolism and carbohydrate metabolism are the main metabolic functions by PICRUSt predictions [37][38] . These results suggested that amino acid metabolism and carbohydrate metabolism are main bacterial functions in soil, not only in halophyte vegetation soil but also in other soil types [39][40][41] . Chaudhary et al (2018) indicated that the microbial functional gene abundance was affected by different halophyte vegetation types 42 .…”

Section: Discussionmentioning

confidence: 83%

Drivers on The Halophytes' Rhizosphere Bacteria Community and Functions in North China Salinized Areas

Yin

Zhang

Cheng

et al. 2021

Preprint

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Soil salinity is a serious environmental issue in arid China. Soil bacteria play a fundamental role in soil systems and respond rapidly to environmental changes. However, the responses of soil bacterial community to the different halophytes remains poorly understood. We investigated rhizosphere soil bacterial community changes under different halophytes in north China using high-throughput sequencing. Three typical halophytes were Leymus chinensis (LC), Puccinellia tenuiflora (PT), Suaeda glauca (SG). The dominant phyla were Proteobacteria, Actinobacteria, and Chloroflexi across three halophytic vegetation. These bacteria have important assistance for halophytes adapt to saline soil. PICRUSt forecasts demonstrated that energy metabolism, amino acid metabolism and carbohydrate metabolism are main bacterial functions in halophyte vegetation soil, and the abundance of metabolism these bacterial functions in SG was significantly higher than that in LC and PT. The pH value of different halophyte rhizosphere soils has a more significant effect on bacterial diversity than EC and soil trophic status, and soil water content (SWC) was important effect factors leading to differences in bacterial functions. These results give us a deeper understanding of the diversity and functional differences of rhizosphere soil bacterial communities in the typical halophytic vegetation of northern China.

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Section: Discussionmentioning

confidence: 83%

Drivers on The Halophytes' Rhizosphere Bacteria Community and Functions in North China Salinized Areas

Yin

Zhang

Cheng

et al. 2021

Preprint

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“…This results also implied that the rumen fluid had specialized enzymes secreted by the indigenous microorganisms for lignocellulose degradation, the presence of this microbial community have been detected through several modern molecular techniques [29]. Several investigations in the potential microorganism of rumen fluid were carried out, a significant reduction in content was achieved on cellulose in 72 h treatment as much as 23%, and it was found that the dominated microorganism was Firmicutes, and this particular group of bacteria are the potential cellulase producer [30], [31]. Another investigation also showed that the particular microorganism has the ability to degrade lignin due to extracellular peroxidase [32].…”

Section: Figurementioning

confidence: 88%

“…3Bio Journal of Biological Science, Technology and Management 2(2): [30][31][32][33][34][35][36][37][38] Ilhamy et al…”

Section: Methodsmentioning

confidence: 99%

“…The solubility from all conditions were still far from the total content of silica in the husk at 17%. Whereas for the husk char, the highest yield percentages of silica were 3.0, 1.75, and 0.5% 3Bio Journal of Biological Science, Technology and Management 2(2): [30][31][32][33][34][35][36][37][38] Ilhamy et al for hydrochloric acid, citric acid, and distilled water, respectively. For the control (untreated husk), the highest value was 2.0, 1.0, and 0.5% by sample weight for the corresponding medium, hydrochloric acid, citric acid, and distilled water respectively.…”

Section: Silica Release From Char and Rumen-treated Huskmentioning

confidence: 98%

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Increase of Silica Recovery by Lignocellulose-degrading Enzyme Complex from Cow Rumen Fluid in a Reactive Extraction of Oryza sativa L. Husk

Ilhamy

Burhan

Manurung

2020

J. Biol. Sci. Technol. Man.

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Si is one of the beneficial nutrients and has various essential roles to cope with stresses situation in the graminaceous plant. The availability of Si on earth is abundant however the form that can be readily uptake by the plant is limited, and without external addition, the silica content in the cultivated land would be depleted and decreasing plant growth, recycle Si from the decaying plant is a better alternative to protect from that situation. Rice husk is a leftover paddy by-product having significant Si content that can be reused. This study offered a biological way to treat the rice husk using rumen fluid as a better alternative to the high energy consuming thermal procedure. Rice husk was macerated in rumen fluid, the kinetic and model of lignocellulose degradation were evaluated. The study in Si release in liquid media i.e. 0.05 M hydrochloric acid, 0.1 citric acid and aquades, and Si extraction in alkaline solution 1 M KOH using the rumen-treated husk showed that this method could be a better alternative to develop high Si content of solid and liquid fertilizer, respectively.

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“…In addition, metagenomic studies showed that genes encoding cellulases, xylanases, cellobiohydrolases, endoglucanases and cellulose-binding proteins were detected in rice root endophytic bacterial communities (Sessitsch et al, 2012). Houfani et al compared the associated bacterial communities of several ecosystems (agricultural, garden, desert, among others) and determined functions in silico and in vitro, highlighting the presence of a higher proportion of genes encoding cellulases, hemicellulases and pectinases assigned to forest soils, in which there is more lignocellulosic materials available for degradation (Houfani et al, 2019).…”

Section: Cellulases Pectinases and Xylanasesmentioning

confidence: 99%

Knock, knock-let the bacteria in: enzymatic potential of plant associated bacteria

Carro

Menéndez

2020

Molecular Aspects of Plant Beneficial Microbes in Agriculture

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Cellulase−Hemicellulase Activities and Bacterial Community Composition of Different Soils from Algerian Ecosystems

Cited by 26 publications

References 76 publications

Drivers on The Halophytes' Rhizosphere Bacteria Community and Functions in North China Salinized Areas

Drivers on The Halophytes' Rhizosphere Bacteria Community and Functions in North China Salinized Areas

Increase of Silica Recovery by Lignocellulose-degrading Enzyme Complex from Cow Rumen Fluid in a Reactive Extraction of Oryza sativa L. Husk

Knock, knock-let the bacteria in: enzymatic potential of plant associated bacteria

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