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Aim: The study was aimed to determine the toxicity of paraquat dichloride and lambda-cyhalothrin on phosphate solubilizing bacteria, Pantoa dispersa in aquatic ecosystems.Study Design: This study employs randomized block design, statistical analysis of the data and interpretation.Place and Duration of the Study: Soil sample was collected from the root nodules of leguminous plants in a sterile polythene bag from the Elele, in Etche L.G.A, Rivers State. The fresh water sample was collected from Bane town in Khana L.G.A, brackish water sample was collected from Choba river in Obio/Akpor L.G.A while the marine water was collected from Bonny River of Bonny L.G.A., all of Rivers State, Nigeria. The samples were collected aseptically and transported in an ice-pack immediately to the Rivers State University, Microbiology laboratory for analysis. The study lasted for three months.Methodology: The bacterium, Pantoa dispersa was isolated and identified based on conventional and molecular characterization from water and soil samples. Different concentrations (3.13%, 6.25, 12.50, 25.00%, 50.00% and 75.00%) and the control (0%) of the herbicide (paraquat dichloride) and insecticide, Lambda-cyhalothrin were prepared using fresh, brackish and marine water samples and 10ml of the test organism, Pantoa dispersa was introduced and the survival count was determined at 0, 4hr, 8hr, 12hr and 24hr. The Mean Lethal Concentration (LC50) of the insecticide and herbicide on Pantoa dispersa in the three aquatic ecosystem was determined.Results: The LC50 of the herbicide (Paraquat dichloride) was recorded as 15.8% in brackish water, 17.37% in fresh water and 27.44% in marine water. While the LC50 of the insecticide, Lambda-cyhalothrin to Pantoa dispersa was 26.84% in fresh water, 27.26% in brackish water and 32.33% in marine water.Conclusion: From the study, the herbicide, Paraquat dichloride was more toxic in the three aquatic ecosystems compared to the insecticide, Lambda-cyhalothrin. The use of these agrochemicals should be monitored as they result in the mortality of beneficial soil bacteria like Pantoa dispersa which is phosphate solubilizing bacteria in aquatic ecosystems.
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This research was aimed at obtaining varieties of soybean adaptive to acid soils and to obtain Plant Growth-Promoting Rhizobacteria (PGPR) isolates that can improve the agronomic characteristics of soybean and increase the ultisols fertility. This research was conducted in two-stages research on Sampali Village, Percut Sei Tuan sub-District, Deli Serdang District, North Sumatra Province, Indonesia from August 2019 until March 2020. The first stage (adaptive varieties screening) using the non-factorial Randomized Block Design (RBD) with the varieties of Argomulyo, Wilis, Kaba, Dena-1, Devon-1, Dega-1, Demas-1, Burangrang, Detam-1, and Kipas Merah. The second stage (application of PGPR isolates singly and in combinations) using the factorial RBD, the first factor of applicative single and the combination of PGPR isolates, the second factor of adaptive varieties including Detam-1 and Wilis. Data were analyzed with ANOVA and followed by DMRT at P<0.05. The results showed that the Detam-1 and Wilis varieties had significantly higher yield per plant of 14.73 g and 14.54 g, respectively, than other varieties. The applications of a single and combination of PGPR isolates significantly increased the number of branches, stem diameter, plant height, yield per plant, soil pH, organic-C, available-P, and total-N and decreased the soil C/N. The Detam-1 variety had the higher in yield per plant compared to Wilis variety. The isolates combination of Rhizobium leguminosarum+Rhizobium sp2+Bacillus sp+Burkholderia sp for Detam-1 and Wilis varieties can be recommended to support the growth and yield of soybean on ultisols.
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Rhizobium , Glycine max/crescimento & desenvolvimento , Acidez do Solo , Bactérias Fixadoras de NitrogênioRESUMO
ObjectiveTo investigate the effects of the inoculation of potassium-solubilizing bacteria on the rhizosphere soil microenvironment of Paris polyphylla var. yunnanensis. MethodThe effects of different potassium-solubilizing bacteria on the physical and chemical properties, microbial community structure, and soil enzyme activity in the rhizosphere soil of P. polyphylla var. yunnanensis were investigated by pot planting at room temperature. The correlation of various indexes was analyzed. ResultThe inoculation with different potassium-solubilizing bacteria could significantly affect the physical and chemical properties of rhizosphere soil of P. polyphylla var. yunnanensis. The mass fractions of available nitrogen, available phosphorus, and available potassium were 24.5-90.5 mg·kg-1, 2.53-25.9 mg·kg-1, and 132-312 mg·kg-1, respectively, and the soil pH was 7.08-7.75, which were in line with the optimal ranges of P. polyphylla var. yunnanensis planting. The inoculation of different potassium-solubilizing bacteria could affect the number of bacteria, actinomycetes, and fungi in rhizosphere soil to varying degrees. The transformation of soil from "fungal type" to "bacterial type" marks the improvement of soil fertility. It also affected the enzyme activity of rhizosphere soil, and the activities of neutral phosphatase, protease, and polyphenol oxidase showed an increasing trend. The correlation analysis showed that the number of bacteria was negatively correlated with the number of fungi (r=-0.856, P<0.01), positively correlated with the number of actinomycetes, the content of available nitrogen and available potassium, and negatively correlated with soil pH. ConclusionThe inoculation of potassium-solubilizing bacteria can effectively improve the content of available potassium, available nitrogen, available phosphorus, and other nutrients in the rhizosphere soil of P. polyphylla var. yunnanensis, improve soil fertility, alleviate the continuous cropping obstacles of P. polyphylla var. yunnanensis, and lay a theoretical foundation for the green and sustainable development of P. polyphylla var. yunnanensis.
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ObjectiveTo study the effect of organophosphate-solubilizing bacteria and compound bacteria on the photosynthesis and physiological and biochemical characteristics of leaves of Paris polyphylla var. yunnanensis, and to provide a reference for selecting suitable bacterial fertilizers in artificial cultivation of this medicinal species. MethodPot experiment was carried out indoor and the following groups were designed: control (CK), inoculation with Bacillus mycoides (S1), inoculation with B. wiedmannii (S2), inoculation with B. proteolyticus (S3), inoculation with B. mycoides and B. wiedmannii (S4), inoculation with B. mycoides and B. proteolyticus (S5), inoculation with B. wiedmannii and B. proteolyticus (S6), and inoculation with B. mycoides, B. wiedmannii and B. proteolyticus (S7). Then, the growth and development, photosynthesis, and various physiological and biochemical indexes of the leaves of this species were observed. ResultCompared with CK, the treatment groups showed decrease in content of malondialdehyde in the leaves (P<0.05), particularly S7 (content was only about 1/3 that of the CK). The leaf area, photosynthetic parameters, photosynthetic pigment content, soluble sugar content, soluble protein content, and activity of superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT) in leaves of the treatment groups were all improved. Among them, the leaf area, soluble sugar content, and soluble protein content were the highest in S7, which were 2.8, 2.1, and 2.2 times that of the CK, respectively. SOD activity peaked in S6 (2.9 times higher than that in the CK) and the highest activity of POD and CAT was detected in S5 (1.5 times and 2.1 times, respectively higher than that in the CK). ConclusionInoculation with different organophosphate-solubilizing bacteria or compound bacteria can promote the growth and development of P. polyphylla var. yunnanensis and improve its resistance to stresses. The combination of B. mycoides and B. proteolyticus and the combination of the three achieved the have the best effect. This study provides a reference for the selection of bacterial fertilizers for artificial cultivation of P. polyphylla var. yunnanensis.
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ObjectiveThe effect of inoculation with different organophosphate-resolving bacteria or compound bacteria on the quality of Paris polyphylla var. yunnanensis medicinal materials and rhizosphere soil fertility were studied to provide a reference for the development and application of biological bacterial fertilizer in artificial cultivation of P. polyphylla var. yunnanensis. MethodThe three dominant species of organophosphate-solubilizing bacteria were inoculated separately and in combination in sterilized soil by single-factor indoor pot planting, and no inoculation was used as the control group. The effect of inoculation of organophosphate-solubilizing bacteria on total saponins content in rhizomes of P. polyphylla var. yunnanensis, as well as microbial numbers, enzyme activities and nutrient contents in rhizosphere soil were analyzed. ResultIn the seven treatments inoculated with organophosphate-solubilizing bacteria, the total saponin content in the rhizomes of Paris polyphylla var. yunnanensis was increased by 16.42%, 3.83%, 16.86%, 33.69%, 2.11%, 13.44%, and 28.83%, respectively, compared with the control. Inoculation with organophosphate-solubilizing bacteria increased the number of soil microorganisms to varying degrees, and the effects of S6 and S7 treatments were the most significant. Inoculation with organophosphate-solubilizing bacteria improved the enzyme activity, and the effect of S7 treatment was the most significant. The activities of acid phosphatase, neutral phosphatase, alkaline phosphatase, protease, invertase and catalase were 49.96% and 104.67% , 110.17%, 99.61%, 26.26%, 11.29% higher than those of the control, respectively. Inoculation with organophosphate-solubilizing bacteria reduced the pH of the rhizosphere soil and increased the content of soil available nutrients. Under the S7 treatment, the contents of alkaline hydrolyzable nitrogen, available phosphorus and available potassium in the rhizosphere soil of P. polyphylla var. yunnanensis were 181.46%, 51.64% and 42.62% higher than those of the control, respectively. Correlation analysis showed that there was a significant positive correlation between total saponins and phosphatase activities, a significant positive correlation between soil microorganisms and soil enzyme activities, and a very significant positive correlation between soil nutrients. ConclusionInoculation of different organophosphate-resolving bacteria or compound bacteria can improve the quality and rhizosphere soil fertility of P. polyphylla var. yunnanensis. Among them, the mixed inoculation of three kinds of bacteria and the mixed inoculation of B. mycoides and B. wiedmannii have the best effect.
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ObjectiveTo investigate the effects of inoculation of potassium-solubilizing bacteria on the physiological characteristics of Paris polyphylla var. yunnanensis. MethodThe effects of different potassium-solubilizing bacteria on leaf area,photosynthetic pigment content, and active component indexes of P. polyphylla var. yunnanensis were investigated by pot planting at room temperature. ResultThe results showed that the inoculation of potassium-solubilizing bacteria could increase the leaf area of P. polyphylla var. yunnanensis. The largest average leaf area was observed in the S3 group,reaching 10.497 cm2,with a maximum increase of 11.0% compared with that of the CK group. The inoculation of potassium-solubilizing bacteria could increase the content of photosynthetic pigments in leaves. Among them,the increase in chlorophyll a content was significant (P<0.05),which was 80.6% higher than that of the CK group. The chlorophyll a/b values in all treatment groups were higher than that of the CK group. The activities of superoxide dismutase(SOD),catalase(CAT) and peroxidase(POD) in the leaves of P. polyphylla var. yunnanensis increased by 88.4%,33.8%, and 30.6%,respectively, as compared with that in the CK group. The inoculation of potassium-solubilizing bacteria could promote the accumulation of osmoregulation substances such as soluble sugar and soluble protein in leaf cells of P. polyphylla var. yunnanensis,with a maximum increase of 55.3% and 70.5% respectively compared with that of the CK group. Meanwhile,it also reduced the content of malondialdehyde(MDA),with a maximum decrease of 34.1% compared with that of the CK group. The results of correlation analysis showed that there were some correlations between different chemical components in P. polyphylla var. yunnanensis leaves. ConclusionThe inoculation of potassium-solubilizing bacteria can effectively promote the growth and development of P. polyphylla var. yunnanensis and improve its survival ability in adversity. It is of practical scientific significance and potential application value for improving the survival rate of P. polyphylla var. yunnanensis by artificial planting.
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@#As a typical BCS Ⅱ drug, felodipine exhibits low solubility and high permeability. We herein investigated the effects of different solubilization strategies on the oral absorption of felodipine. Firstly felodipine tablets based on 200 μm, 150 μm and 25 μm particle size of bulk drug were prepared. Meanwhile, felodipine solid dispersion and felodipine nanosuspension with average particle size of (168.90 ± 6.22) nm, PDI of 0.11 ± 0.06 were prepared. The absorption rate, apparent permeability coefficient (Papp), absorption quality in duodenum, jejunum, ileum and colon of rats and in vivo pharmacokinetics of the above different felodipine preparations were investigated. The results of rat single-pass intestinal perfusion showed that the absorption of felodipine preparations in duodenum, jejunum and ileum was better than in colon. Felodipine had a wide absorption window in the small intestine, with the best absorption site in the small intestine. Papp of different felodipine preparations was greater than 2.0 × 10-5 cm/s. Thus, the low solubility was the main factor limiting the absorption. In vivo pharmacokinetic experiments demonstrated the solubilization strategies significantly improved the bioavailability. The bioavailabilities of felodipine tablets with particle sizes of 150 and 25 μm, as well as nanosuspension, and solid dispersion were 138.75%, 173.01%, 208.65% and 314.53% that of the tablets with particle size of 200 μm, respectively. Solubilization strategies can significantly improve the gastrointestinal absorption rate and absorption quality of felodipine, and thus improve its bioavailability, which provides some reference for the research on the improvement of oral absorption of BCS II drugs.
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Cotton crop, plays a significant role in Pakistan's economy by ruling a prominent place in edible oil and local textile industry. Phosphorus (P) inaccessibility and deficiency of soil organic matter are the key restraints for low crop productivity in cotton. Therefore, a two years field study was designed during 2014-15, to explore the influence of phosphate solubilizing bacteria (PSB), farmyard manure (FYM), poultry manure (PM) and inanimate sources of P on various physiological, growth, yield and quality parameters of cotton crop at CCRI Multan. Field responses of seeds inoculated with two distinctive phosphate solubilizing bacteria (PSB) strains viz. S0 = control, S1 =strain-1, S2 = strain-2 and eight organic, inorganic P sources viz., P0= control, P1 = 80 kg ha-1 P from inorganic source, P2 = 80 kg ha-1 P from FYM, P3 = 80 kg ha-1 P from PM, P4 = 40 kg ha-1 P from FYM + 40 kg ha-1 P from inorganic source, P5 = 40 kg ha-1 P from PM + 40 kg ha-1 P from inorganic source, P6 = 80 kg ha-1 P from FYM + 40 kg ha-1 P from inorganic source, P7 = 80 kg ha-1 P from PM + 40 kg ha-1 P from inorganic source and P8 = 40 kg ha-1 P from FYM + 40 kg ha-1 P from PM were evaluated. Results revealed that inoculation of seeds with PSB and collective use of inorganic and organic sources of P had considerably increased the yield contributing attributes in cotton. However, the treatment P7 (80 kg P ha-1 from PM + 40 kg P ha-1 from inorganic source) in coincidence with seeds inoculated with PSB (S1) produced taller plant, maximum boll weight, significantly higher LAI and CGR. Significantly higher seed cotton yield, lint yield, fiber length and maximum BCR of 1.95 and 1.81 was also obtained from the P7 treatment during both crop-growing seasons. In conclusion, combined use of 80 kg P ha-1 from PM + 40 kg P ha-1 from inorganic source and cotton seeds inoculated with strain-1 improved phosphorus uptake ensuing in greater consumption of photo-assimilates for maximum growth and yield.
A safra de algodão, desempenha um papel significativo na economia do Paquistão, ao ocupar um lugar de destaque no óleo comestível e na indústria têxtil local. A inacessibilidade e a deficiência de fósforo (P) da matéria orgânica do solo são as principais restrições para a baixa produtividade das culturas em algodão. Portanto, um estudo de campo de dois anos foi desenvolvido durante 2014-15, para explorar a influência de bactérias solubilizantes de fosfato (PSB), esterco de capoeira (FYM), esterco de aves (PM) e fontes inanimadas de P sobre vários fatores fisiológicos, crescimento, rendimento e parâmetros de qualidade da cultura do algodão no CCRI Multan. Respostas de campo de sementes inoculadas com duas cepas distintas de bactérias solubilizantes de fosfato (PSB) viz. S0 = controle, S1 = cepa-1, S2 = cepa-2 e oito fontes orgânicas de P inorgânicas viz., P0 = controle, P1 = 80 kg ha-1 P de fonte inorgânica, P2 = 80 kg ha-1 P de FYM, P3 = 80 kg ha-1 P de PM, P4 = 40 kg ha-1 P de FYM + 40 kg ha-1 P de fonte inorgânica, P5 = 40 kg ha-1 P de PM + 40 kg ha-1 P de fonte inorgânica, P6 = 80 kg ha-1 P de FYM + 40 kg ha-1 P de fonte inorgânica, P7 = 80 kg ha-1 P de PM + 40 kg ha-1 P de fonte inorgânica e P8 = 40 Foram avaliados kg ha-1 P da FYM + 40 kg ha-1 P da PM. Os resultados revelaram que a inoculação de sementes com PSB e o uso coletivo de fontes inorgânicas e orgânicas de P aumentaram consideravelmente os atributos que contribuem para a produtividade no algodão. No entanto, o tratamento P7 (80 kg P ha-1 da PM + 40 kg P ha-1 da fonte inorgânica) em coincidência com sementes inoculadas com PSB (S1) produziu planta mais alta, peso máximo de cápsula, IAF e CGR significativamente maiores. Produtividade significativamente maior do algodão, rendimento de fiapos, comprimento da fibra e BCR máximo de 1,95 e 1,81 também foi obtida a partir do tratamento P7 durante as duas épocas de cultivo. Em conclusão, o uso combinado de 80 kg P ha-1 de PM + 40 kg P ha-1 de fonte inorgânica e sementes de algodão inoculadas com a cepa-1 melhoraram a captação de fósforo, resultando em maior consumo de foto assimilados para obter crescimento e produtividade máximos.
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Fósforo/administração & dosagem , Solo/química , Compostos de Fósforo/análise , Fertilizantes , Paquistão , Produção Agrícola , EstercoRESUMO
Objective: To study the characteristics of endophytic fungi separated from the roots of Amomum villosum grown in Jinping County of Yunnan Province, including the culture, evaluation of phosphorus-solubilizing ability and taxonomic identification of target strains. Methods: Endophytic fungi in the roots of A. villosum were separated by culturing in the mediums of PDA and MEA, and purely cultured in PDA. The endophytic fungi with phosphorus-solubilizing ability were screened by solid and liquid mediums of Pikovaskaia’s (PVK) prepared with inorganic phosphorus source. Then, the phosphorus-solubilizing capacity and reasonable mechanism were analyzed by growth circle, biomass, effective phosphorus content, pH value, and phosphatase activity. Moreover, molecular identification of target strains with the capacity of phosphorus-solubilizing would be carried out by ribosome 18 S PCR amplification. Results: The results showed that 24 endophytic fungi were separated from the roots of A. villosum in total, 10 of which were dark septate endophytes (DSE). Eight strains could grow on PVK solid medium and produce phosporus-dissolved growth circle. The growth circle diameters of JP-20 and JP-23 were larger than others, and more than 9 cm, followed by JP-15 with the growth circle of 6.06 cm. Furthermore, it was shown that JP-23 had a strong ability of phosphate-solubilizing due to presenting a high biomass in the PVK liquid medium instead of the medium prepared by soluble phosphorus source. The content of effective phosphorus of JP-23 in PVK liquid medium was significantly increased with an obviously decreasing pH and a sharply rising of acid phosphatase (ACP) activity. Moreover, the strain JP-23 was preliminarily identified as Cladosporium sp. (GenBank: MK629004) by molecular identification. Conclusion: An assumption was concluded that strain JP-23 could decompose and use insoluble phosphorus sources by adjusting the pH value and secreting ACP in medium. Our findings would provide data support and theoretical basis for studying the phosphate absorption mechanism of plant-microbial symbiosis system and the ecological plantation of A. villosum.
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Aims@#Phosphate is an essential nutrient required for plant growth, but its solubility in the soil is relatively low (0.1%). Microbes can dissolve phosphate to meet crop requirements. This study aimed to isolate phosphate solubilizing bacteria from indigenous microorganisms (IMO) of cow rumen.@*Methodology and results@#The selection of isolates on a Pikovskaya medium was using a clear zone index and a spectrophotometer for phosphate solubilization measurements. Hypersensitivity was tested on tobacco leaves and tested antagonists within isolates. The results found that four selected isolates had the highest phosphate dissolving potential, namely, MTA1, SMAD1, SMAD2, and SMAD3. The culture of selected isolates on plate media showed that the morphological characters of the four colonies are the same. They had round form (circular), the edge of the colony were smooth, flat elevation, white and cream color. Isolate MTA1 had the highest phosphate solubilizing activity compared to the others. The isolate that showed the highest phosphate solubilizing activity were identified based on 16S rRNA gene. The result of molecular identification showed that strain MTA1 was closely related to Lactobacillus plantarum with a similarity level of 99%. L. plantarum performed the highest ability to form a clear zone (7.66 mm). The highest concentration of soluble phosphate was observed on day 5 (278.42 mg/L).@*Conclusion, significance, and impact of the study@#Lactobacillus plantarum which was isolated from the IMO of cow rumen in East Java, Indonesia was identified as one of the phosphate solubilizing bacteria that are useful for the development of eco-friendly biofertilizer. The application of phosphate solubilizing microbes can be used to increase the soil fertility.
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@#The purpose of this experiment is to achieve the soluble expression of immunotoxins in Escherichia coli and avoid the complicated operation caused by the formation of inclusion bodies. An anti-mesothelin monoclonal antibody SS1 and it′s derivative SS1P which composing of SS1 and a truncated pseudomonas exotoxin PE38KDEL were used as the passenger protein. We took advantages of solubility promoting fusion tags and the self-cleaving split intein in recombinant antibody fragment and immunotoxin expression and purification. We constructed solubilizing tags-NpuCD118G fusion tags, and recombinant SS1/SS1P were fused at the C-terminal of the fusion tags. The constructs were expressed in E. coli(SHuffle T7)cytoplasm in soluble form at low temperature. Dextrin Beads 6FF column and Nickel column was used to purify the fusion protein. The self-cleavage of the fusion protein was achieved by adding the NpuN fragment. The released solubilizing tag and unreacted precursor were removed by Nickel column and the cleaved antibody fragment and immunotoxinwere further captured by Capto L. The dissociation constant of the obtained Fv and immunotoxin were determined by Fortebio. In summary, the current method could enhance the solubility of antibody fragment and immunotoxin in E. coli, and could improve the purification process. This method provides a reference for the development of a method for soluble expression and purification of immunotoxin-type pharmaceutical recombinant proteins based on the Escherichia coli expression system.
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The effect of management (ecological and conventional) on functional groups of microorganisms of soil in agroecosystems with different resilience scores reported to climate variability in Anolaima, Colombia was evaluated. Were found clustering associated with management and cellulolytic bacteria and fungi abundances. No differences found in diversity of phosphate solubilizing or nitrogen-fixing microorganisms, related to management. The diversity of microbial functional groups was affected by the climatic condition of sampling season. Management was relevant in relationships between resilience scores to climate variability and cellulolytic microorganisms; in ecological agroecosystems, biodiversity knowledge, agroecological main structure, and the participation of farmers in organizations were important.
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Análise do Solo , Biologia do Solo/análise , Fosfatos , Microbiologia do Solo , Fixação de NitrogênioRESUMO
ABSTRACT This research evaluated the changes on populations of culturable N-fixing free bacteria (NFFB) and P-solubilizing bacteria (PSB), as well as on the root nodulation by native rhizobia, the root colonization and spore number of arbuscular mycorrhizal fungi (AMF), in the rhizosphere of Clitoria ternatea and Brachiaria brizantha grown in mesocosms contaminated with crude oil (0, 3000, 6000, 9000, and 12000 mg kg-1), for 240 days. After 24 h of soil contamination, the highest populations of NFFB and PSB (5.5 and 4.9 LogUFC, respectively) were found in control, and the lowest populations were obtained at 12000 mg kg-1 (5.1 and 4.2 LogUFC, respectively). In contrast, at 60 and 240 days, the control showed lower populations of NFFB and PSB (5.4 and 4.8 LogUFC, respectively) than contaminated treatments. The highest number of root nodules in C. ternatea was quantified in control at 60 and 240 days (25 and 27 nodules, respectively) in comparison to those observed at the treatment with 12000 mg kg-1 (7 and 1 nodule, respectively). At 60 days, AMF colonization in both plant species, and the number of spores significantly decreased as the crude oil concentration increased; however, at 240 days, the highest number of AMF spores was recorded at treatments with 6000 and 12000 mg kg-1. The dry weight of both plant species significantly decreased as crude oil concentrations increased. Although C. ternatea was more susceptible to the toxic effects of crude oil, this plant species showed greater content of total chlorophyll than B. brizantha.
RESUMEN Esta investigación evaluó los cambios en la población cultivable de bacterias de vida libre fijadoras de nitrógeno (BVLFN) y de bacterias solubilizadoras de fósforo (BSP), así como en la nodulación de raíces por rizobios nativos, y en la colonización y número de esporas de hongos micorrízicos arbusculares (HMA) en la rizósfera de Clitoria ternatea y Brachiaria brizantha cultivadas en mesocosmos contaminados con petróleo crudo (0, 3000, 6000, 9000 y 12000 mg kg-1), durante 240 días. A las 24 h de la contaminación del suelo, las poblaciones más altas de BVLFN y BSP (5,5 y 4,9 LogUFC, respectivamente) se encontraron en el control, mientras que las poblaciones más bajas se obtuvieron a 12000 mg kg-1 (5,1 y 4,2 LogUFC, respectivamente). En contraste, a los 60 y 240 días, el control mostró bajas poblaciones de BVLFN y BSP (5,4 y 4,8 LogUFC, respectivamente) que los tratamientos contaminados. El mayor número de nódulos en raíz de C. ternatea se cuantificó en el control a los 60 y 240 días (25 y 27 nódulos, respectivamente) en comparación con el tratamiento con 12000 mg kg-1 (7 y 1 nódulos, respectivamente). A los 60 días, la colonización de HMA en ambas especies vegetales y el número de esporas disminuyeron significativamente al aumentar la concentración de petróleo crudo; sin embargo, a los 240 días, se registró el mayor número de esporas de HMA en los tratamientos con 6000 y 12000 mg kg-1. El peso seco vegetal disminuyó significativamente al aumentar las concentraciones de petróleo crudo. Clitoria ternatea fue más susceptible a la toxicidad del petróleo, aunque esta especie vegetal mostró mayor contenido de clorofila total que B. brizantha.
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Abstract Three phosphate solubilizing bacteria were isolated and identified by 16S rRNA sequencing as Pseudomonas putida, Pseudomonas sp and Pseudomonas fulva . The strains were subjected to plant biochemical testing and all the PGPR attributes were checked in the presence of pesticides (chlorpyrifos and pyriproxyfen). The phosphate solubilizing index of strain Ros2 was highest in NBRIP medium i.e 2.23 mm. All the strains showed acidic pH (ranges from 2.5-5) on both medium i.e PVK and NBRIP. Strain Ros2 was highly positive for ammonia production as well as siderophore production while strain Rad2 was positive for HCN production. The results obtained by the strains Rad1, Rad2 and Ros2 for auxin production were 33.1, 30.67 and 15.38 µg ml-1, respectively. Strain Rad1 showed 16% increase in percentage germination in comparison to control in the presence of pesticide stress. Most promising results for chlorophyll content estimation were obtained in the presence of carotenoids upto 6 mgg-1 without stress by both strains Rad1 and Rad2. Study suggests that especially strain Ros2 can enhance plant growth parameters in the pesticide stress.
Resumo Três bactérias solubilizantes de fosfato foram isoladas e identificadas por seqüenciamento de rRNA 16S como Pseudomonas putida, Pseudomonas sp e Pseudomonas fulva. As estirpes foram submetidas a testes bioquímicos de plantas e todos os atributos PGPR foram verificados na presença de pesticidas (clorpirifos e piriproxifeno). O índice de solubilização de fosfato da estirpe Ros2 foi mais elevado no meio NBRIP, isto é, 2,23 mm. Todas as estirpes apresentaram um pH ácido (varia de 2,5-5) em ambos os meios, isto é PVK e NBRIP. A estirpe Ros2 foi altamente positiva para a produção de amoníaco, bem como a produção de sideróforos enquanto a estirpe Rad2 foi positiva para a produção de HCN. Os resultados obtidos pelas estirpes Rad1, Rad2 e Ros2 para a produção de auxina foram 33,1, 30,67 e 15,38 μg ml-1 , respectivamente. A deformação Rad1 mostrou aumento de 16% na germinação percentual em comparação com o controlo na presença de stress de pesticida. Os resultados mais promissores para a estimativa do teor de clorofila foram obtidos na presença de carotenóides até 6 mgg-1 sem estresse por ambas as cepas Rad1 e Rad2. Estudo sugere que especialmente a estirpe Ros2 pode melhorar parâmetros de crescimento de plantas no estresse de pesticidas.
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Fosfatos/metabolismo , Pseudomonas/fisiologia , Piridinas/administração & dosagem , Triticum/crescimento & desenvolvimento , Clorpirifos/administração & dosagem , Inseticidas/administração & dosagem , Paquistão , Pseudomonas/efeitos dos fármacos , Triticum/metabolismo , Triticum/microbiologia , RNA Bacteriano/análise , RNA Ribossômico 16S/análise , Pseudomonas putida/efeitos dos fármacos , Pseudomonas putida/fisiologia , Análise de Sequência de RNARESUMO
The children aged 0-14 account for about 17% of the total population of China, medicines used by which cost more than 60 billion yuan per year. However, it is difficult for children to swallow medicines and children are more sensitive to taste. In addition, the gastrointestinal, liver and kidney functions are not yet fully developed and the immune function is weak. There are special needs for active pharmaceutical ingredient, dosage form, taste and appearance. However, there is a significant gap between China and Europe and America on pediatric preparations. To promote the breakthrough of key as taste-masking technologies, solubilizing technologies, quantitative dosing devices, technologies in industrialization of pediatric preparations in China, the key technologies, such pediatric excipients and production equipment, are reviewed.
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RESUMEN A partir de un Typic Melanudands cultivado con café (Coffea arabica variedad Caturra), proveniente del Departamento del Cauca (Colombia), se aislaron hongos con capacidad solubilizadora de fosfato de aluminio (Al-P), de los cuales se seleccionaron dos microorganismos que presentaron la mayor actividad, identificados como cepa UNHI (Mycelia sterilia), y UNH2 (Penicillium sp). Los hongos seleccionados fueron evaluados por quince días en medio líquido Pikovskaya (PVK) con Al-P bajo dos condiciones, con agitación (método A) y en reposo con aireación (método B). Al comparar los resultados se encontraron diferencias estadísticas significativas en el porcentaje de fósforo soluble, el método A presentó mejores resultados con un porcentaje de 73,8% frente a 62% con la cepa UNH1 y en menor proporción con la cepa UNH2 49% y 44%. El incremento de biomasa fue mayor con el método B y el pH de los medios de cultivo no mostraron diferencias significativas, con un pH promedio de 2,7.
ABSTRACT Based on Typic Melanudands grow with coffea (Coffea Arabica Caturra variety) resulting from the Cauca department, fungi with solubilization capacity of aluminum phosphate were isolated (Al-P), from which two microorganisms with greater solubilization activity were selected, identified as strain UNH!: Mycelia sterilia y UNH2: Penicillium sp. Selected fungi were evaluated through the Pikovskaya liquid (PVK) with (Al-P), under two conditions, with stirring (A method) and repose with aireation ( B method), for fifteen days. When comparing the results, significant statistical differences were found in the percentage of soluble phosphorus, method A presented better results with a percentage of 73.8% compared to 62% with the strain UNH1 and in smaller proportion with the strain UNH2 49% and 44 %. The increase in biomass was greater with method B and the pH of the culture media did not show significant differences, with an average pH of 2.7.
RESUMO De PVAc Melanudands cultivadas com café (Coffea arabica variedade caturra), a partir do Departamento (Colômbia), fungos foram isoladas com fosfato de alumínio capacidade de solubilização (Al-P), de que introduziu foram seleccionados dois microrganismos a atividade mais alta, identificada como cepa UNH1 (Mycelia sterilia) e UNH2 (Penicillium sp). fungos seleccionados foram avaliadas durante duas semanas em meio líquido Pikovskaya (PVK) com Al-P sob duas condições, com agitação (método A) e que descansa com arejamento (método B). Ao comparar os resultados estatisticamente diferenças significativas na percentagem de fósforo solúvel encontrada, método A proporcionou melhores resultados com uma percentagem de 73,8% versus 62% com a estirpe UNH1 e em menor grau com a estirpe UNH2 49% e 44 %. O aumento da biomassa foi maior com o método B e o pH do meio de cultura não mostrou diferenças significativas, com um pH médio de 2,7.
RESUMO
RESUMEN Se diseñó un medio de cultivo para la multiplicación de una cepa bacteriana solubilizadora de carbón (BSC3). Como sustratos se utilizaron tres residuos agroindustriales: melaza de caña, lactosuero y cabecilla de arroz. Mediante diseños de superficie de respuesta Box-Behnken se evaluaron dos rangos de concentraciones para cada sustrato (2-10% y 0-6%). De esta forma se obtuvo la combinación adecuada para la producción de biomasa de BSC3. Se construyeron curvas de crecimiento bacteriano para determinar algunos parámetros cinéticos (velocidad específica de crecimiento [u], tiempo de duplicación [Td] y producción final de biomasa), que fueron comparados con el crecimiento de la cepa en un medio de cultivo control, también se caracterizó elementalmente (CHN) el medio optimizado. Las concentraciones óptimas para la obtención de biomasa de BSC3 fueron: 6% melaza, 2,5% lactosuero más un contenido mínimo de sales, con un pH de 6,5. Los parámetros cinéticos en este medio fueron: biomasa final=3,2 g.L-1, u=0,0206 h-1, Td=33,64 h, y en el medio control: biomasa final=3,4 g.L-1, u=0,0139 h-1, Td=49,85 h, lo cual muestra que el medio permitió un incremento en la velocidad de crecimiento y un menor tiempo de duplicación de BSC3, de esta forma el medio optimizado permitió la multiplicación de BSC3 y le permitió conservar su actividad solubilizadora de carbón.
ABSTRACT A culture medium for the multiplication of a coal solubilizing bacterial strain was designed (BSC3); were used three agroindustrial wastes: cane molasses, whey and crushed rice. Through Box-Behnken surfaces responses designs, two concentration ranks (2-10% y 0-6%) were evaluated, so the adequate combination to BSC3 biomass production was found. Bacterial growth curves were constructed to determine some kinetics parameters (growth specific rate [u], duplication time [Dt] and biomass final production), that were compared with the strain growth in a control culture medium; the optimized culture medium was also elementally caracterizated. The optimal concentrations to BSC3 biomass obtaining were: 6% molasses cane, 2,5% whey plus a salts minimum medium, with pH of 6,5. The kinetics parameters in this medium were: final biomass = 3,2 g.L-1, u=0,0206 h-1, Dt=33,64 h, and in the control medium: final biomass = 3,4 g.L-1, u=0,0139 h-1, Dt=49,85 h, this shows that the optimized medium allows the increase of the specific growth rate and a less duplication time of BSC3, so the optimized medium allowed to conserve its coal solubilizing activity.
RESUMO
Abstract This study was aimed to investigate the effect of bio-organic phosphate either alone or in combination with phosphorus solubilizing bacteria strain (Bacillus MWT-14) on the growth and productivity of two wheat cultivars (Galaxy-2013 and Punjab-2011) along with recommended (150-100 NP kg ha−1) and half dose (75-50 NP kg ha−1) of fertilizers. The combined application of bio-organic phosphate and the phosphorous solubilizing bacteria strain at either fertilizer level significantly improved the growth, yield parameters and productivity of both wheat cultivars compared to non-inoculated control treatments. The cultivar Punjab-2011 produced the higher chlorophyll contents, crop growth rate, and the straw yield at half dose of NP fertilizer; while Galaxy-2013, with the combined application of bio-organic phosphate and phosphorous solubilizing bacteria under recommended NP fertilizer dose. Combined over both NP fertilizer levels, the combined use of bio-organic phosphate and phosphorous solubilizing bacteria enhanced the grain yield of cultivar Galaxy-2013 by 54.3% and that of cultivar Punjab-2011 by 83.3%. The combined application of bio-organic phosphate and phosphorous solubilizing bacteria also increased the population of phosphorous solubilizing bacteria, the soil organic matter and phosphorous contents in the soil. In conclusion, the combined application of bio-organic phosphate and phosphorous solubilizing bacteria offers an eco-friendly option to harvest the better wheat yield with low fertilizer input under arid climate.
Assuntos
Fosfatos/farmacocinética , Fósforo/metabolismo , Bacillus/metabolismo , Triticum/crescimento & desenvolvimento , Fertilizantes/análise , Produção Agrícola/métodos , Fosfatos/análise , Fósforo/análise , Microbiologia do Solo , Triticum/metabolismo , Triticum/microbiologia , ClimaRESUMO
Abstract Bacterial endophytes are considered to have a beneficial effect on host plants, improving their growth by different mechanisms. The objective of this study was to investigate the capacity of four endophytic Bacillus strains to solubilize iron phosphate (Fe-P), produce siderophores and indole-acetic acid (IAA) in vitro, and to evaluate their plant growth promotion ability in greenhouse conditions by inoculation into pearl millet cultivated in a P-deficient soils without P fertilization, with Araxá rock phosphate or soluble triple superphosphate. All strains solubilized Fe-P and three of them produced carboxylate-type siderophores and high levels of IAA in the presence of tryptophan. Positive effect of inoculation of some of these strains on shoot and root dry weight and the N P K content of plants cultivated in soil with no P fertilization might result from the synergistic combination of multiple plant growth promoting (PGP) traits. Specifically, while B1923 enhanced shoot and root dry weight and root N P content of plants cultivated with no P added, B2084 and B2088 strains showed positive performance on biomass production and accumulation of N P K in the shoot, indicating that they have higher potential to be microbial biofertilizer candidates for commercial applications in the absence of fertilization.
Assuntos
Bacillus/metabolismo , Alimentos/metabolismo , Pennisetum/crescimento & desenvolvimento , Pennisetum/microbiologia , Endófitos/metabolismo , Ácidos Indolacéticos/metabolismo , Fosfatos/análise , Fosfatos/metabolismo , Bacillus/genética , Sideróforos/metabolismo , Raízes de Plantas/crescimento & desenvolvimento , Raízes de Plantas/metabolismo , Raízes de Plantas/microbiologia , Pennisetum/metabolismo , Endófitos/genética , Ferro/metabolismoRESUMO
Abstract This study was aimed to investigate the effect of bio-organic phosphate either alone or in combination with phosphorus solubilizing bacteria strain (Bacillus MWT-14) on the growth and productivity of two wheat cultivars (Galaxy-2013 and Punjab-2011) along with recommended (150100 NP kg ha1) and half dose (7550 NP kg ha1) of fertilizers. The combined application of bio-organic phosphate and the phosphorous solubilizing bacteria strain at either fertilizer level significantly improved the growth, yield parameters and productivity of both wheat cultivars compared to non-inoculated control treatments. The cultivar Punjab-2011 produced the higher chlorophyll contents, crop growth rate, and the straw yield at half dose of NP fertilizer; while Galaxy-2013, with the combined application of bio-organic phosphate and phosphorous solubilizing bacteria under recommended NP fertilizer dose. Combined over both NP fertilizer levels, the combined use of bio-organic phosphate and phosphorous solubilizing bacteria enhanced the grain yield of cultivar Galaxy-2013 by 54.3% and that of cultivar Punjab-2011 by 83.3%. The combined application of bio-organic phosphate and phosphorous solubilizing bacteria also increased the population of phosphorous solubilizing bacteria, the soil organic matter and phosphorous contents in the soil. In conclusion, the combined application of bio-organic phosphate and phosphorous solubilizing bacteria offers an eco-friendly option to harvest the better wheat yield with low fertilizer input under arid climate.