Extremely halophilic bacteria in crystallizer ponds from solar salterns

It is generally assumed that hypersaline environments with sodium chloride concentrations close to saturation are dominated by halophilic members of the domain Archaea, while Bacteria are not considered to be relevant in this kind of environment. Here, we report the high abundance and growth of a new group of hitherto-uncultured Bacteria in crystallizer ponds (salinity, from 30 to 37%) from multipond solar salterns. In the present study, these Bacteria constituted from 5 to 25% of the total prokaryotic community and were affiliated with the Cytophaga-Flavobacterium-Bacteroides phylum. Growth was demonstrated in saturated NaCl. A provisional classification of this new bacterial group as "Candidatus Salinibacter gen. nov." is proposed. The perception that Archaea are the only ecologically relevant prokaryotes in hypersaline aquatic environments should be revised.     

The diversity of culturable organotrophic bacteria from local solar salterns

We isolated and cultured bacteria inhabiting solar saltern ponds in Taean-Gun, Chungnam Province, Korea. All of the isolated 64 strains were found to be moderately halophilic bacteria, growing in a salt range of 2-20 %, with an optimal concentration of 5% salt. Bacterial diversity among the isolated halophiles was evaluated via RFLP analyses of PCR-amplified 16S rDNAs, followed by phylogenetic analysis of the partial 16S rDNA sequences. The combination of restriction enzyme digestions with HaeIII, CfoI, MspI and RsaI generated 54 distinct patterns. A neighbor-joining tree of the partial 16S rDNA sequences resulted in the division of the 64 strains into 2 major groups, 45 strains of gamma-Proteobacteria (70.3%) and 19 strains of Firmicutes (29.7%). The alpha-Proteobacteria and Cytophaga-Flavobacterium-Bacterioides groups, which were repeatedly found to exist in thalassohaline environments, were not represented in our isolates. The gamma-Proteobacteria group consisted of several subgroups of the Vibrionaceae (37.5%), Pseudoalteromonadaceae (10.9%), Halomonadaceae (7.8%), Alteromonadaceae (7.8%), and Idiomarinaceae (6.3%). Members of Salinivibrio costicola (29.7%) were the most predominant species among all of the isolates, followed by Halobacillus treperi (12.5%). Additionally, three new species candidates were found, based on similarities of the 16S rDNA sequences to those of previously published species.     

Characterization of halophiles isolated from solar salterns in Baja California, Mexico

Solar salterns are extreme hypersaline environments that are five to ten times saltier than seawater (150–300 g L⁻¹ salt concentration) and typically contain high numbers of halophiles adapted to tolerate such extreme hypersalinity. Thirty-five halophile cultures of both Bacteria and Archaea were isolated from the Exportadora de Sal saltworks in Guerrero Negro, Baja California, Mexico. 16S rRNA sequence analysis showed that these cultured isolates included members belonging to the Halorubrum, Haloarcula, Halomonas, Halovibrio, Salicola, and Salinibacter genera and what may represent a new archaeal genus. For the first time, metabolic substrate usage of halophile isolates was evaluated using the non-colorimetric BIOLOG Phenotype MicroArray™ plates. Unique carbon substrate usage profiles were observed, even for closely related Halorubrum species, with bacterial isolates using more substrates than archaeal cultures. Characterization of these isolates also included morphology and pigmentation analyses, as well as salinity tolerance over a range of 50–300 g L⁻¹ salt concentration. Salinity optima varied between 50 and 250 g L⁻¹ and doubling times varied between 1 and 12 h. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Diversity of cultivable halophilic archaea and bacteria from superficial hypersaline sediments of Tunisian solar salterns

Prokaryotes in the superficial sediments are ecologically important microorganisms that are responsible for the decomposition, mineralization and subsequent recycling of organic matter. The aim of this study was to explore the phylogenetic and functional diversity of halophilic archaea and bacteria isolated from the superficial sediments of solar salterns at Sfax, Tunisia. Sixty four strains were isolated from crystallizer (TS18) and non-crystallizer (M1) ponds and submitted to genotypic characterization and evaluation by amplified ribosomal RNA restriction analysis (ARDRA) techniques. Our findings revealed that the archaeal diversity observed for 29 isolates generated five distinct patterns from the non-crystallizer M1 pond, with Halorubrum chaoviator as the most prevalent cultivable species. However, in the TS18 crystallizer pond, ten restriction patterns were observed, with the prevalence of haloarchaea EB27K, a not yet identified genotype. The construction of a neighbour-joining tree of 16S rRNA gene sequences resulted in the division of the potential new species into two major groups, with four strains closely related to the sequence of the unculturable haloarchaeon EB27K and one strain to the recently described Halovenus aranensis strain. The 35 bacterial strains observed in this work were present only in the non-crystallizer pond (M1) and presented two distinct ARDRA patterns. These strains belonged to the γ-proteobacteria subdivision, with members of Salicola marasensis (83 %) being the most predominant species among the isolates. 16S rRNA gene sequencing revealed that Salicola strains displayed different degrees of homogeneity. The results from pulsed field gel electrophoresis assays showed that the Salicola isolates could be clustered in two distinct groups with different genome sizes.     

Accumulation of polyhydroxyalkanoates by halophilic archaea isolated from traditional solar salterns of India

Extremely halophilic archaeal isolates obtained from brine and sediment samples of solar salterns of Goa and Tamil Nadu, India were screened for accumulation of polyhydroxyalkanoates (PHA). Seven polymer accumulating haloarchaeal strains (TN4, TN5, TN6, TN7, TN9, TN10 and BBK2) were selected based on their growth and intensity of fluorescence when grown on 20 % NaCl synthetic medium supplemented with 2 % glucose and incorporated with Nile red dye. The polymer was quantified by conversion of PHA to crotonic acid which gave a characteristic absorption maxima at 235 nm. On the basis of phenotypic and genotypic characterization the cultures TN4, TN5, TN6, TN7, TN10 and BBK2 were grouped under genus Haloferax whereas isolate TN9 was grouped under the genus Halogeometricum. Growth kinetics and polymer accumulation studies revealed that the culture Halogeometricum borinquense strain TN9 accumulates PHA maximally at the mid-log phase, i.e. 5th day of growth (approx. 14 wt% PHA of CDW). Analysis of the polymer by IR, ¹H NMR and ¹³C NMR confirmed it to be a homopolymer of 3-hydroxybutyrate.     

Characterization of moderately halotolerant selenate- and tellurite-reducing bacteria isolated from brackish areas in Osaka

Moderately halotolerant selenate- and tellurite-reducing bacteria were characterized for wastewater treatment applications. A selenate-reducing strain 9a was isolated from the biofilm of a leachate treatment plant at a sea-based waste disposal site. A tellurite-reducing strain Taa was isolated from an enrichment culture derived from brackish sediment. Both bacterial strains were Shewanella species. Strain 9a could anaerobically remove 45–70% of 1.0 mM selenate and selenite from water containing up to 3% NaCl within 4 days, while strain Taa could anaerobically and aerobically remove 70–90% of 0.4 mM tellurite from water containing up to 6% NaCl within 3 days. Globular particles of insoluble selenium were observed both outside and inside the cells of strain 9a. The insoluble tellurium formed by strain Taa was globular under microaerobic conditions but nanorod under aerobic conditions. These bacteria will yield a range of useful selenium and tellurium nanomaterials as well as wastewater treatment applications.     

松嫩平原盐碱地中耐(嗜)盐菌的生物多样性

【目的】分离纯化松嫩平原盐碱地中可培养的耐盐菌和嗜盐菌,并分析其生物多样性。【方法】采用纯培养法和定向富集法从该地区盐碱土样中分离耐盐菌和嗜盐菌,然后通过16S rRNA基因同源性比对鉴定所分离细菌的系统发育学地位,从而获取松嫩平原盐碱地中耐盐菌和嗜盐菌的多样性信息。【结果】共分离到细菌40株,分属于细菌域中3个门(Actinobacteria,Firmicutes,γ-Proteobacteria)、8个科、16个属、34个种。其中多数菌株属于厚壁菌门(Firmicutes),最优势属为葡球菌属(Staphylococcus)(8株,占总菌株的20%),其次依次为盐单胞菌属(Halomonas)(5株,12.5%)、芽胞杆菌属(Bacillus)(4株,10%)、大洋芽胞杆菌属(Oceanbacillus)(4株,10%)、库克菌属(Kocuria)(4株,10%)和假单胞菌属(Pseudomonas)(3株,7.5%)等。其中9株细菌的16S rRNA基因序列与最近缘种的同源性在97.2%-99.0%之间,可能为新种。菌株耐盐能力主要在5%-10%之间,其中62.5%的菌株为耐盐菌,其余则为中度嗜盐菌。所有菌株的耐碱能力在pH 9-12之间,其中60%的菌株耐碱能力则高达pH 12,除两株为嗜碱菌,其余均为耐碱菌。【结论】研究结果表明,松嫩平原盐碱地中耐盐菌与嗜盐菌种群丰富,主要以葡萄球菌和盐单胞菌为主,菌株不仅耐盐能力高而且耐碱能力也高,并且该地区可能含有丰富的耐盐菌和嗜盐菌的新物种。     

Use of magnetic particles isolated from magnetotactic bacteria for enzyme immobilization

Summary We report the novel use of magnetic particles isolated from magnetotactic bacteria. Magnetotactic bacteria were collected from enriched sludge by use of a magnetic harvesting apparatus. Magnetic particles separated from magnetotactic bacteria were shown to be pure magnetite. Glucose oxidase and uricase were immobilized on magnetic particles. The activity of glucose oxidase immobilized on biogenic magnetites was 40 times that immobilized on artificial magnetites or Zn-ferrite particles. Both glucose oxidase and uricase coupled with biogenic magnetic particles retained their activities when they were reused 5 times.     

Decolorization of textile azo dyes by newly isolated halophilic and halotolerant bacteria

Studies were carried out on the decolorization of textile azo dyes by newly isolated halophilic and halotolerant bacteria. Among the 27 strains of halophilic and halotolerant bacteria isolated from effluents of textile industries, three showed remarkable ability in decolorizing the widely utilized azo dyes. Phenotypic characterization and phylogenetic analysis based on 16S rDNA sequence comparisons indicate that these strains belonged to the genus Halomonas. The three strains were able to decolorize azo dyes in a wide range of NaCl concentration (up to 20%w/v), temperature (25-40 degrees C), and pH (5-11) after 4 days of incubation in static culture. They could decolorize the mixture of dyes as well as pure dyes. These strains also readily grew in and decolorized the high concentrations of dye (5000 ppm) and could tolerate up to 10,000 ppm of the dye. UV-Vis analyses before and after decolorization and the colorless bacterial biomass after decolorization suggested that decolorization was due to biodegradation, rather than inactive surface adsorption. Analytical studies based on HPLC showed that the principal decolorization was reduction of the azo bond, followed by cleavage of the reduced bond.     

Effect of temperature on the growth rates of halotolerant and halophilic bacteria isolated from Antarctic saline lakes

Summary The effect of temperature on the growth rates of Halomonas subglaciescola and a Halobacterium sp., halotolerant and halophilic bacteria isolated from Antarctic saline lakes, was predicted accurately by models which propose a linear relationship between temperature and the square root of the reciprocal of the growth rate. The cardinal temperatures of the strains examined were in general 5–10°C lower than those of taxonomic counterparts isolated from temperate and tropical environments. Temperature dependence data for strains of the Halobacterium sp. and annual temperature profiles of Deep Lake allowed estimation of the in situ potential for growth.     

Comparison of bacterial diversity from solar salterns and a simulated laboratory study

Bacterial diversity in solar salterns and a simulated solar saltern under laboratory conditions was studied. The two systems were compared at the pre-salt harvesting phase and salt harvesting phase using Denaturing Gradient Gel Electrophoresis (DGGE). Bacterial composition was dominated by Gammaproteobacteria and more specifically with members of Alteromonas, Vibrio, Pseudomonas, Tolumonas, Marinobacter, Pseudoalteromonas and novel uncultured bacteria. The Shannon–Weaver index (H), Simpson diversity index (D) and Equitability index (E) values showed that salterns can support a wide range of microbes during the pre-salt harvesting phase (3–4 % salinity) when compared to the salt harvesting phase (21–29 % salinity). Range-weighted richness (Rr) values indicated that solar salterns are habitable only by a limited group of microbes as they have medium richness, indicated by physico-chemical characteristics. Principal Coordinate Analysis (PCO) of the simulated study showed a variation in diversity at a large scale with increase in salinity. Solar salterns as well as the simulated tank showed more diversity during the pre-salt harvesting phase.     

小溪自然保护区非盐环境土壤中嗜盐和耐盐菌多样性

【目的】研究湖南小溪国家级自然保护区普通非盐环境(ordinary non-saline environment)土壤样品中可培养嗜盐及耐盐细菌(含放线菌)多样性。【方法】采用纯培养法和基于16S rRNA基因序列的系统发育分析对样品中嗜盐及耐盐细菌多样性进行研究。【结果】用补充5%-20%(w/v)NaCl的MA、ISP2、ISP5、NA和HAA培养基从土壤样品中分离到114株细菌,其中8株为中度嗜盐菌,19株为轻度嗜盐菌,87株为耐盐菌。根据形态观察和部分生理生化实验结果去冗余,选取61个代表性菌株进行基于16S rRNA基因序列的系统发育多样性分析。结果表明,这些菌株属于细菌域(Bacteria)的3个大的系统发育类群(门;phylum)(Actinobacteria,Firmicutes,Proteobacteria)的16个科、18个属,代表了41个物种。多数菌株属于Firmicutes门(38株,62.3%)和Actinobacteria门(18株,29.5%)。大多数菌株与其系统发育关系最密切的已知物种的典型菌株之间存在一定的遗传差异(16S rRNA基因序列相似性为96.9%-99.8%),其中有7个菌株(JSM070026,JSM081004,JSM081006,JSM081008,JSM083058,JSM083085,JSM084035)代表7个潜在新种(potential novel species)。【结论】研究结果表明,湖南小溪国家级自然保护区普通非盐环境土壤中存在较为丰富的可培养嗜盐及耐盐细菌多样性,并且潜藏着较多新的微生物类群(物种)。     

Biofilm-associated indole acetic acid producing bacteria and their impact in the proliferation of biofilm mats in solar salterns

Biofilm mats appear in salterns distinctively during the monsoon season when the salinity decreases below 12 percentile salinity units and within a short period cover the entire surface area of the saltern. A study was carried out in two salterns viz. Nerul and Curca to find a possible reason for the rapid proliferation of these solar biofilms. Out of the 125 bacteria isolated from these biofilms, 16 produced indole-3-acetic acid (IAA). Rapid in-situ assay with Salkowski reagent and HPLC analysis confirmed the IAA production. Four isolates consistently produced high IAA concentrations ranging from 9.5 to 14.2 μg/mL in the presence of 4 mg/mL tryptophan concentrations in the growth media. The IAA-producing bacteria were Aeromonas aquariorum (N2), Pseudomonas alcaliphila (N3), Vibrio diazotrophicus (N6) and Pseudomonas pachastrellae (C3). These four IAA-producing bacteria also produced other growth promoting factors like ammonia. Three isolates produced siderophores and were phosphate solubilizers. There was enhancement in the growth of Cicer arietinum (length of the shoot and root) under axenic conditions and of biofilm mats (r = 0.9, p < 0.001; r = 0.8, p < 0.05 and r = 0.946, p < 0.01, respectively). This is, according to our knowledge, the first report indicating IAA-producing bacteria isolated from biofilms enhancing the proliferation of these biofilm mats in the solar salterns.     

Characterization of fungi from hypersaline environments of solar salterns using morphological and molecular techniques

The Cabo Rojo Solar Salterns located on the southwest coast of Puerto Rico are composed of two main ecosystems (i.e., salt ponds and microbial mats). Even though these locations are characterized by high solar radiation (mean light intensity of 39 mol photons m⁻² d⁻¹) they harbour a diverse microscopic life. We used morphological and molecular techniques to identify a series of halotolerant fungi. A total of 183 isolates and 36 species were cultured in this study. From the water from the salt ponds, 86 isolates of 26 species were cultured. The halotolerant fungi isolated from water were: Cladosporium cladosporioides, nine Aspergillus sp., five Penicillium sp. and the black yeast Hortaea werneckii. A distinctive isolate with a blue mycelium was cultured from the salt ponds, representing a new species of Periconia based on morphology and rDNA analysis. Forty-four isolates from eight species were cultured from the sediments around the salt ponds. Most of the sediment isolates formed only sterile mycelium, while several were Chaetomium globosum. A total of 53 isolates from 16 species were isolated from the three layers of the microbial mats, of which Aspergillus niger was the most frequent isolate. Phospholipid fatty acid profiles generated from the different layers of the microbial mats indicated that the uppermost layers of the mats contained fungal biomarker, 18:2w6. This fatty acid decreased with depth, the highest concentration was observed in the green upper layer and it disappeared in the black bottom anoxic layer. This correlates with the isolation of fungi using the serial dilution technique. This is the first study that documents the presence of fungi in microbial mats.     

Haloarchaeal communities in the crystallizers of two adriatic solar salterns

Solar salterns operate only for short dry periods of the year in the north shore of the Adriatic Sea because of its relatively humid and cold Mediterranean climate. In a previous paper, we showed that the NaCl precipitation ponds (crystallizers) of Northern Adriatic Secovlje salterns have different haloarchaeal populations from those typically found in dry and hot climates such as Southern Spain. To check whether there is a common pattern of haloarchaeal diversity in these less extreme conditions, diversity in crystallizers of other Adriatic solar salterns in Ston, Croatia was ascertained by molecular and culture methods. In addition, the cultivation approach was used to further describe haloarchaeal diversity in both salterns. Over the period of two solar salt collection seasons, isolates related to species of the genera Haloferax, Haloarcula, and Haloterrigena were recovered from both salterns. Within the same sampling effort, relatives of the genus Halorubrum and a Natrinema-like isolate were cultivated from Slovenian Secovlje salterns while Halobacterium related isolates were obtained from the Croatian Ston salterns. Concurrent with our previous findings, a library of Croatian saltern crystallizer PCR-amplified 16S rRNA genes was dominated by sequences related to the genus Halorubrum. The microbial community structure was similar in both salterns but diversity indices showed greater values in Slovenian salterns when compared with Croatian salterns.     

Production and immobilization of a novel thermoalkalophilic extracellular amylase from bacilli isolate

A Thermoalkalophilic amylase was produced from an environmental bacterial isolate. The enzyme was then immobilized through its amino groups onto the epoxy rings of magnetic poly glycidyl methacrylate [m-poly (GMA)] beads. The free enzyme was active within a large pH range, between 7 and 12 and displayed the optimum activity at 95°C and pH 10. The immobilization appeared to increase the stability of the enzyme as its bound form showed optimum activity at 105°C and pH 11.0. Kinetic studies demonstrated that immobilized enzyme had higher K(m) and lower V(max) values. The activity of the free and bound enzyme was determined, at 37°C and pH 10.0 and pH 11.0, respectively, in the presence of various organic solvents and detergents (5%, v/v). Results obtained indicated that detergents, sodium dodecyl sulfate (SDS) and TritonX-100, caused six fold increase and that various organic solvents also increased the activity of the amylase.     

Factors affecting immobilization of heavy metals by purple nonsulfur bacteria isolated from contaminated shrimp ponds

In order to remove heavy metals (HMs) from contaminated shrimp pond at the highest concentrations found of; 0.75 mg/l Cd²⁺, 62.63 mg/l Pb²⁺, 34.60 mg/l Cu²⁺ and 58.50 mg/l Zn²⁺, two strains of purple nonsulfur bacteria isolated from shrimp ponds (NW16 and KMS24) were investigated for their ability to immobilize HMs in 3% NaCl in both microaerobic-light and aerobic-dark conditions. Based on metabolic inhibition and metabolic-dependent studies, it was concluded that both strains removed HMs using biosorption and also bioaccumulation. The efficiency of removal by both strains with both incubating conditions tested was in the order of lead (Pb) > copper (Cu) > zinc (Zn) > cadmium (Cd). Optimal conditions for removal of HMs by strain NW16 were; cells in the log phase at 4.5 mg DCW/ml, pH 6.0, and 30°C for 30 min. With microaerobic-light conditions, the relative percent removal of HMs was: Pb, 83; Cu, 59; Zn, 39; Cd, 23 and slightly more with the aerobic-dark conditions (Pb, 90; Cu, 69; Zn, 46; Cd, 28). Cells in the log phase at 5.0 mg DCW/ml, pH 5.5, and 35°C for 45 min were optimal conditions for strain KMS24 and there were no significant differences for the removal percentages of HMs with either incubating conditions (averages: Pb, 96; Cu, 75; Zn, 46; Cd, 30). The presence of Ca²⁺ and Mg²⁺ significantly decreased the removal capacity of HMs for both strains.     

耐盐细菌的渗透保护剂及其调渗机制

高渗环境下的细菌常在体内积累一些小分子物质（如糖类、醇类、氨基酸及其衍生物）作为渗透保护剂,以对抗高渗环境,编码这些物质吸收和合成的基因统称为渗透调节基因（Osm gene）。目前已有一些耐渗基因被克隆。     

Isolation and characterization from solar salterns of North Algeria of a haloarchaeon producing a new halocin

Halophilic archaea, thriving in hypersaline environments, synthesize antimicrobial substances with an unknown role, called halocins. It has been suggested that halocin production gives transient competitive advantages to the producer strains and represents one of the environmental factors influencing the microbial community composition. Herein, we report on the antibacterial activity of a new haloarchaeon selected from solar salterns of the northern coast of Algeria. A total of 81 halophilic strains, isolated from the microbial consortia, were screened for the production of antimicrobial compounds by interspecies competition test and against a collection of commercial haloarchaea. On the basis of the partial 16S rRNA sequencing, the most efficient halocin producer was recognized as belonging to Haloferax (Hfx) sp., while the best indicator microorganism, showing high sensitivity toward halocin, was related to Haloarcula genus. The main morphological, physiological and biochemical properties of Hfx were investigated and a partial purification of the produced halocin was allowed to identify it as a surface membrane protein with a molecular mass between 30 and 40 kDa. Therefore, in this study, we isolated a new strain belonging to Haloferax genus and producing a promising antimicrobial compound useful for applications in health and food industries.