ABSTRACT
The characteristics of two cyanobacterial strains, Anabaena oryzae and Nostoc muscorum, were studied in order to use them as biofertilizers in a field experiment conducted in the two winter seasons of 2021 and 2022 at the Ismailia Agricultural Research Center Station to study the effect of both strains on peanut plant in sandy soil. Cyanobacterial strains were used individually by coating seed, soil drench, and foliar applications, as well as mixed applications of two strains in various ways. Both cyanobacterial strains morphological examination revealed that they both have heterocysts, nitrogen, phosphorus, and potassium in their culture filtrate, and they were able to produce chlorophyll a and phosphatase enzymes. The results of an agricultural experiment showed that using Nostoc muscorum and Anabaena oryzae separately had a positive effect on peanut plants in a variety of applications, but combining both of these applications with 75% nitrogen increased the growth traits, nutrient contents, and soil biological activities in both peanut plants and their rhizosphere soil. The soil drench treatment with A. oryzae and Nostoc muscorum plus 75% nitrogen produced the highest growth results and peanut yields in a single application. The A. oryzae Soil Drench Application (S) + N. muscorum Foliar Application (F) with 75% N reported the best outcomes in mixed treatments. However, compared to single applications, all blended applications displayed better growth and yield characteristics. The results of the study suggest that employing cyanobacteria in a mixed application will enhance its advantages over a single use.
ABSTRACT
Abstract Zinc is an essential micronutrient that is required for optimum plant growth. It is present in soil in insoluble forms. Bacterial solubilization of soil unavailable form of Zn into available form, is an emerging approach to alleviate the Zn deficiency for plants and human beings. Zinc solubilizing bacteria (ZSB) could be a substitute for chemical Zn fertilizer. The present study aimed to isolate and characterize bacterial species from the contaminated soil and evaluate their Zn solubilizing potential. Zn resistant bacteria were isolated and evaluated for their MIC against Zn. Among the 13 isolated bacterial strains ZSB13 showed maximum MIC value upto 30mM/L. The bacterial strain with the highest resistance against Zn was selected for further analysis. Molecular characterization of ZSB13 was performed by 16S rRNA gene amplification which confirmed it as Pseudomonas oleovorans. Zn solubilization was determined through plate assay and broth medium. Four insoluble salts (zinc oxide (ZnO), zinc carbonate (ZnCO3), zinc sulphite (ZnS) and zinc phosphate (Zn3(PO4)2) were used for solubilization assay. Our results shows 11 mm clear halo zone on agar plates amended with ZnO. Likewise, ZSB13 showed significant release of Zn in broth amended with ZnCO3 (17 and 16.8 ppm) and ZnO (18.2 ppm). Furthermore, Zn resistance genes czcD was also enriched in ZSB13. In our study, bacterial strain comprising Zn solubilization potential has been isolated that could be further used for the growth enhancement of crops.
Resumo O zinco é um micronutriente essencial necessário para o crescimento ideal das plantas. Ele está presente no solo em formas insolúveis. A solubilização bacteriana da forma indisponível de Zn no solo para a forma disponível é uma abordagem emergente para aliviar a deficiência de Zn em plantas e seres humanos. Bactérias solubilizadoras de zinco (ZSB) podem ser um substituto para fertilizantes químicos de Zn. O presente estudo teve como objetivo isolar e caracterizar espécies bacterianas de solo contaminado e avaliar seu potencial de solubilização de Zn. Bactérias resistentes ao Zn foram isoladas e avaliadas quanto ao seu MIC contra o Zn. Entre as 13 cepas bacterianas isoladas, ZSB13 apresentou valor máximo de MIC de até 30 mM/L. A cepa bacteriana com maior resistência ao Zn foi selecionada para análise posterior. A caracterização molecular de ZSB13 foi realizada por amplificação do gene 16S rRNA que o confirmou como Pseudomonas oleovorans. A solubilização do Zn foi determinada através de ensaio em placa e meio caldo. Quatro sais insolúveis (óxido de zinco (ZnO), carbonato de zinco (ZnCO3), sulfito de zinco (ZnS) e fosfato de zinco (Zn3 (PO4) 2) foram usados para o ensaio de solubilização. Nossos resultados mostram uma zona de halo clara de 11 mm em placas de ágar corrigidas com ZnO. Da mesma forma, ZSB13 mostrou liberação significativa de Zn em caldo alterado com ZnCO3 (17 e 16,8 ppm) e ZnO (18,2 ppm). Além disso, os genes de resistência ao Zn czcD também foram enriquecidos em ZSB13. Em nosso estudo, a cepa bacteriana compreendendo potencial de solubilização de Zn foi isolada e poderia ser usada posteriormente para o aumento do crescimento de safras.
Subject(s)
Humans , Soil Pollutants , Pseudomonas oleovorans , Soil , Soil Microbiology , Zinc , RNA, Ribosomal, 16S/geneticsABSTRACT
Zinc is an essential micronutrient that is required for optimum plant growth. It is present in soil in insoluble forms. Bacterial solubilization of soil unavailable form of Zn into available form, is an emerging approach to alleviate the Zn deficiency for plants and human beings. Zinc solubilizing bacteria (ZSB) could be a substitute for chemical Zn fertilizer. The present study aimed to isolate and characterize bacterial species from the contaminated soil and evaluate their Zn solubilizing potential. Zn resistant bacteria were isolated and evaluated for their MIC against Zn. Among the 13 isolated bacterial strains ZSB13 showed maximum MIC value upto 30mM/L. The bacterial strain with the highest resistance against Zn was selected for further analysis. Molecular characterization of ZSB13 was performed by 16S rRNA gene amplification which confirmed it as Pseudomonas oleovorans. Zn solubilization was determined through plate assay and broth medium. Four insoluble salts (zinc oxide (ZnO), zinc carbonate (ZnCO3), zinc sulphite (ZnS) and zinc phosphate (Zn3(PO4)2) were used for solubilization assay. Our results shows 11 mm clear halo zone on agar plates amended with ZnO. Likewise, ZSB13 showed significant release of Zn in broth amended with ZnCO3 (17 and 16.8 ppm) and ZnO (18.2 ppm). Furthermore, Zn resistance genes czcD was also enriched in ZSB13. In our study, bacterial strain comprising Zn solubilization potential has been isolated that could be further used for the growth enhancement of crops.
O zinco é um micronutriente essencial necessário para o crescimento ideal das plantas. Ele está presente no solo em formas insolúveis. A solubilização bacteriana da forma indisponível de Zn no solo para a forma disponível é uma abordagem emergente para aliviar a deficiência de Zn em plantas e seres humanos. Bactérias solubilizadoras de zinco (ZSB) podem ser um substituto para fertilizantes químicos de Zn. O presente estudo teve como objetivo isolar e caracterizar espécies bacterianas de solo contaminado e avaliar seu potencial de solubilização de Zn. Bactérias resistentes ao Zn foram isoladas e avaliadas quanto ao seu MIC contra o Zn. Entre as 13 cepas bacterianas isoladas, ZSB13 apresentou valor máximo de MIC de até 30 mM/L. A cepa bacteriana com maior resistência ao Zn foi selecionada para análise posterior. A caracterização molecular de ZSB13 foi realizada por amplificação do gene 16S rRNA que o confirmou como Pseudomonas oleovorans. A solubilização do Zn foi determinada através de ensaio em placa e meio caldo. Quatro sais insolúveis (óxido de zinco (ZnO), carbonato de zinco (ZnCO3), sulfito de zinco (ZnS) e fosfato de zinco (Zn3 (PO4) 2) foram usados para o ensaio de solubilização. Nossos resultados mostram uma zona de halo clara de 11 mm em placas de ágar corrigidas com ZnO. Da mesma forma, ZSB13 mostrou liberação significativa de Zn em caldo alterado com ZnCO3 (17 e 16,8 ppm) e ZnO (18,2 ppm). Além disso, os genes de resistência ao Zn czcD também foram enriquecidos em ZSB13. Em nosso estudo, a cepa bacteriana compreendendo potencial de solubilização de Zn foi isolada e poderia ser usada posteriormente para o aumento do crescimento de safras.
Subject(s)
Pseudomonas/genetics , Pseudomonas/isolation & purification , Soil Chemistry/analysis , Zinc , Zinc OxideABSTRACT
Abstract Zinc is an essential micronutrient that is required for optimum plant growth. It is present in soil in insoluble forms. Bacterial solubilization of soil unavailable form of Zn into available form, is an emerging approach to alleviate the Zn deficiency for plants and human beings. Zinc solubilizing bacteria (ZSB) could be a substitute for chemical Zn fertilizer. The present study aimed to isolate and characterize bacterial species from the contaminated soil and evaluate their Zn solubilizing potential. Zn resistant bacteria were isolated and evaluated for their MIC against Zn. Among the 13 isolated bacterial strains ZSB13 showed maximum MIC value upto 30mM/L. The bacterial strain with the highest resistance against Zn was selected for further analysis. Molecular characterization of ZSB13 was performed by 16S rRNA gene amplification which confirmed it as Pseudomonas oleovorans. Zn solubilization was determined through plate assay and broth medium. Four insoluble salts (zinc oxide (ZnO), zinc carbonate (ZnCO3), zinc sulphite (ZnS) and zinc phosphate (Zn3(PO4)2) were used for solubilization assay. Our results shows 11 mm clear halo zone on agar plates amended with ZnO. Likewise, ZSB13 showed significant release of Zn in broth amended with ZnCO3 (17 and 16.8 ppm) and ZnO (18.2 ppm). Furthermore, Zn resistance genes czcD was also enriched in ZSB13. In our study, bacterial strain comprising Zn solubilization potential has been isolated that could be further used for the growth enhancement of crops.
Resumo O zinco é um micronutriente essencial necessário para o crescimento ideal das plantas. Ele está presente no solo em formas insolúveis. A solubilização bacteriana da forma indisponível de Zn no solo para a forma disponível é uma abordagem emergente para aliviar a deficiência de Zn em plantas e seres humanos. Bactérias solubilizadoras de zinco (ZSB) podem ser um substituto para fertilizantes químicos de Zn. O presente estudo teve como objetivo isolar e caracterizar espécies bacterianas de solo contaminado e avaliar seu potencial de solubilização de Zn. Bactérias resistentes ao Zn foram isoladas e avaliadas quanto ao seu MIC contra o Zn. Entre as 13 cepas bacterianas isoladas, ZSB13 apresentou valor máximo de MIC de até 30 mM/L. A cepa bacteriana com maior resistência ao Zn foi selecionada para análise posterior. A caracterização molecular de ZSB13 foi realizada por amplificação do gene 16S rRNA que o confirmou como Pseudomonas oleovorans. A solubilização do Zn foi determinada através de ensaio em placa e meio caldo. Quatro sais insolúveis (óxido de zinco (ZnO), carbonato de zinco (ZnCO3), sulfito de zinco (ZnS) e fosfato de zinco (Zn3 (PO4) 2) foram usados para o ensaio de solubilização. Nossos resultados mostram uma zona de halo clara de 11 mm em placas de ágar corrigidas com ZnO. Da mesma forma, ZSB13 mostrou liberação significativa de Zn em caldo alterado com ZnCO3 (17 e 16,8 ppm) e ZnO (18,2 ppm). Além disso, os genes de resistência ao Zn czcD também foram enriquecidos em ZSB13. Em nosso estudo, a cepa bacteriana compreendendo potencial de solubilização de Zn foi isolada e poderia ser usada posteriormente para o aumento do crescimento de safras.
ABSTRACT
Resumen Azospirillum brasilense Az39 es utilizada por empresas productoras de inoculantespara la formulación de bioinsumos en América del Sur desde hace más de 30 a˜nos. Esta cepapuede promover el crecimiento, desarrollo, así como la capacidad de tolerar diferentes tiposde estrés en las plantas inoculadas, lo que determina un aumento de la productividad de culti-vos de interés agronómico. En la actualidad, no existen protocolos en Argentina que permitanconfirmar la identidad de Az39 en productos comerciales a nivel de laboratorios de control decalidad de inoculantes. Por ello, el objetivo de este trabajo fue desarrollar una metodología enbase molecular que permita la identificación certera de A. brasilense Az39. Con la secuenciacompleta del genoma y mediante herramientas bioinformáticas, se pudieron reconocer frag-mentos de ADN presentes únicamente en el genoma de Az39. Se dise˜naron cebadores dirigidosa amplificar por PCR dichas secuencias. Como resultado se observaron los productos específicosúnicamente en la presencia de la cepa de interés. La reacción pudo detectar un título mínimode 105UFC/ml (4,5 ng/l ADN) o de 102UFC/ml (0,88 ng/l ADN) o una concentración mínimade 0,098 ng/l ADN, dependiendo del método de extracción utilizado. Los cebadores fueronevaluados en el análisis de productos comerciales obtenidos del mercado nacional, arrojandoresultados positivos, tanto en muestras directas como así también en pruebas confirmatoriasa partir de colonias aisladas de tales productos. La metodología desarrollada en este trabajo,permite la detección certera de A. brasilense Az39 en cultivos puros o mezclas complejas demicroorganismos.
Abstract Azospirillum brasilense Az39 has been used since more than 30 years by several companies in South America for biofertilizers production. This strain may promote plants growth and development, as well as the ability of inoculated plants to tolerate environmental stresses, which determines an increase in the productivity under field conditions. At present, there are no protocols in Argentina to confirm the identity of Az39 in commercial products; however, such biofertilizers are formulated almost exclusively with this strain. Therefore, the objective of this paper was to develop a molecular methodology that allows the accurate identification of A. brasilense Az39. Using the complete genome sequence and several bioinformatics tools, fragments of DNA present only in the Az39 genome were recognized. A set of PCR primers to amplify these sequences were designed, and the specific products were observed only in the strain of our interest. The sensitivity of the methodology was evaluated, where the strain could be detected up to a titer of 105 CFU/ml (4.5 ng/pl ADN) or 102 CFU/ml (0.88 ng/pl DNA) or in a minimal concentration of 0.098 ng/pl DNA, depending on the DNA extraction methodology used. Primers were tested against direct samples of commercial inoculants and cultures, in both cases there were specifics products, both in direct samples and in confirmatory tests from isolated colonies from those products. The procedure presented in this paper allows the accurate identification of A. brasilense Az39 in pure cultures, mixtures of microorganisms, and commercial biofertilizers.
Subject(s)
Azospirillum brasilense/isolation & purification , Azospirillum brasilense/genetics , Argentina , DNA, Bacterial/analysis , Bacteriological Techniques/methods , Nucleic Acid Amplification TechniquesABSTRACT
Abstract High world population and the increase in global food demands results in an indiscriminate use of chemical fertilizers by farmers, causing soil deterioration and other environmental problems. In recent years there has been a collective concern to preserve the environment through sustainable and environmentally friendly techniques. Plant growth-promoting bacteria (PGPB) are widely known to benefit plants in a sustainable manner, reducing chemical fertilizers application. Many studies have shown that these bacteria not only improve crop yields but also its quality, increasing certain nutrients and molecules that are important for human health such as aminoacids, proteins, vitamins, flavonoids, antioxidants, essential oils, among others. This work compiles recent information of PGPB as an alternative of chemical fertilizer for improving crop yields and plant metabolites production.
El incremento acelerado de la población mundial que conlleva al aumento en la demanda de alimentos; ha ocasionado el uso indiscriminado de fertilizantes químicos por parte de los agricultores, provocando así el deterioro del suelo y con ello los subsecuentes problemas ambientales. En los últimos años ha surgido la preocupación colectiva de preservar el medioambiente a través del uso de técnicas sostenibles y ambientalmente amigables. Las bacterias promotoras de crecimiento vegetal (PGPB) son ampliamente conocidas por incrementar el crecimiento y desarrollo de las plantas de manera sostenible permitiendo así la reducción de la aplicación de fertilizantes químicos. Muchos estudios han demostrado que estas bacterias no solo mejoran el rendimiento de los cultivos sino también la calidad de estos, aumentando ciertos nutrientes y moléculas que son importantes para la salud del ser humano que los consume como aminoácidos, proteínas, vitaminas, flavonoides, antioxidantes, aceites esenciales, entre otros. Este trabajo recopila información reciente de las PGPB como alternativa a los fertilizantes químicos para la mejora en el rendimiento de los cultivos y la producción de metabolitos en las plantas.
ABSTRACT
The potato crop is very demanding regarding the presence of nutrients in the form readily available in soil solution and the climatic conditions to ensure satisfactory production of tubers. Each potato cultivar has specific characteristics for its development. The objective of this work was to evaluate the development and productivity of potato cv. Cupid, due to doses of fertilizers and the parceling of organomineral fertilization of the plantation and coverage compared to the use of the mineral. The experiment was conducted in the municipality of Perdizes, in Minas Gerais, in the harvest of 2014/15. The experimental design was in randomized blocks with a factorial scheme of 4 doses x 2 nitrogen managements + control treatment (conventional mineral dose) in 3 replicates. The doses of organomineral fertilizer were: 25, 50, 75 and 100% of the mineral dose of 600 kg ha-1 of potassium sulphate, 850 kg ha-1 monoammonium phosphate, and 300 kg ha-1 of ammonium sulphate. The management of the fertilization consisted of the achievement or not of the coverage that was made at 19 days after planting (DAP) along with the hilling. At 36, 54, 64 and 81 DAP, collection of plants was performed for the characterization of potato growth. No differences wereobserved between the doses of organomineral fertilizer as well as in the management of coverage in relation to the use of the mineral. However, the dose of 75% of the organomineral fertilizer with the realization of coverage provided better physiological response of the plants in relation to the accumulation of dry mass.
A cultura da batata é muito exigente quanto à presença de nutrientes na forma prontamente disponível na solução do solo e as condições climáticas para garantir produção de tubérculos satisfatória. Cada cultivar de batata possui características específicas ao seu desenvolvimento. O objetivo do trabalho foi avaliar o desenvolvimento e produtividade de batata cv. Cupido, em função de doses de fertilizante organomineral e o parcelamento da adubação de plantio e cobertura comparado ao uso do mineral. O experimento foi conduzido no município de Perdizes, em Minas Gerais, na safra das águas de 2014/2015. O delineamento experimental foi em blocos ao acaso, com esquema fatorial de 4 doses x 2 manejos da adubação + tratamento controle (dose mineral convencional) em 3 repetições. As doses de fertilizante organomineral foram: 25, 50, 75 e 100% da dose mineral que foi de 600 kg ha-1 de sulfato de potássio, 850 kg ha-1 fosfato monoamônico, e 300 kg ha-1 de sulfato de amônio. Os manejos da adubação consistiram da realização ou não da cobertura que foi feita aos 19 dias após o plantio (DAP) junto com a amontoa. Aos 36, 54, 64 e 81 DAP, foi realizada coleta de plantas para a caracterização do crescimento da batateira. Não foram verificadas diferenças entre as doses do fertilizante organomineral bem como no manejo da cobertura deste em relação ao uso do mineral. No entanto, a dose de 75% do fertilizante organomineral com a realização da cobertura proporcionou melhor resposta fisiológica das plantas em relação ao acúmulo de massa seca.
Subject(s)
Solanum tuberosum , Fertilizers , Soil CharacteristicsABSTRACT
This study was carried out at the Department of Ornamental Horticulture, Faculty of Agriculture, Cairo University, in Egypt during the two successive seasons of 2015 and 2016. The experiment was designed using a complete randomized blocks design. Eco-friendly agriculture has its priority for safe products, so the objective of this study was to investigate the effect of bio fertilizers (Nitrobien and Phosphorien) at 1, 2 and 4 g/plant, compost and poultry manure at the rates of 5, 10 and 15 ton/ feddan (feddan= 4200 m2) as alternative to NPK (recommended dose), on growth and anatomical characters of Cymbopogon citratusplants. The results showed that the highest number of tillers per plant (49.07) and leaf area (83.99 cm2) obtained by the high rate of poultry treatment (15 ton/feddan) at the second cut in the second season. Thus the result obtained showed that the organic fertilizers had a better effect on total herb fresh and dry weights per plant than bio fertilizer treatments. The poultry manure at the rate of 10 ton/feddan resulted in the maximum total herb fresh yield with value 56.53 ton per feddan and total herb dry yield with value 16.94 ton per feddan, in the second season. The essential oil production per feddan at the first cut (in August) was more than at the second cut (in October) in both seasons. The highest oil yield per feddan was recorded in the second season by the poultry manure at the rate of 10 ton/feddan with values 82.26 and 51.85 l/feddan at the first and second cut, respectively. The anatomical study showed that the best thickness of the leaf sheath at the midrib region was due to treating the lemongrass plants by poultry at the rate of 10 ton/feddan. The increasing ratio was 16.7% compared to control. This treatment showed the best results in the total number of vascular bundles, in addition to the No. of large bundles and their dimensions. From these results, it could be recommended that poultry manure was the best treatment for lemongrass growth and getting highly clean yield.
ABSTRACT
This study was carried out at the Department of Ornamental Horticulture, Faculty of Agriculture, Cairo University during the two successive seasons of 2015 and 2016. The experiment was designed using a complete randomized blocks design. The objective of this study was to investigate the effect of NPK (recommended dose), biofertilizers (Nitrobien and Phosphorien) at 1,2 and 4 g/plant, compost and poultry manure at the rates of 5, 10 and 15 ton/ feddan (feddan=4200 m2) on essential oil production and biochemical compositions of Cymbopogon citratus plants. The results showed that the average percentage of essential oil ranged between 0.140-0.300% at the first cut and 0.133-0.283% at the second cut of the two seasons, respectively. First cut (in August) resulted in more essential oil production than second cut (in October). Poultry manure produced the maximum essential oil yield/plant compared to control and the other fertilizer treatments. The main components in essential oil of lemongrass were β. myrcene, linalool, neral (citral b), geranial (citral a) and geranyl acetate identified by GC. Arranged in descending order, the major constituents were citral a and citral b which reached to 69.72- 81.39% in the oil. Compost at the rate of 10 ton/ feddan was the most effective application in citral content which reached to 81.39%. The organic applications positively affected pigments content of lemongrass plant. The highest herb content of phosphorus and potassium resulted from the plants treated by compost at the rate of 10 ton/ feddan and nitrobien at the rate of 2 g/plant.
ABSTRACT
Resumen El uso de Rizobacterias promotoras de crecimiento vegetal (PGPR, por sus siglas en ingles) constituye una alternativa al uso de fertilizantes químicos favoreciendo el rendimiento de los cultivos. La presente investigación tuvo como objetivo la búsqueda, selección y caracterización de PGPB de los géneros Azotobacter, Azospirillum y Pseudomonas nativas de la rizósfera de cultivos de Ipomoea batatas de zonas productoras representativas del Caribe Colombiano. Los aislados seleccionados se caracterizaron molecularmente y realizaron pruebas de solubilización de fósforo, producción de índoles y reducción de acetileno. Las cepas fueron probadas a nivel de invernadero en plántulas de Ipomoea batatas producidas in vitro en las que se evaluó la altura, longitud radicular, masa seca de la parte aérea y radicular. Asociada a la rizósfera de Ipomoea batatas se obtuvieron cepas de Azotobacter vinelandii, Azotobacter chroococcum, Azospirillum lipoferum, Azospirillum brasilense y Pseudomonas denitrificans, las cepas fueron capaces de solubilizar fósforo, producir índoles y reducir acetileno. Se obtuvo incrementos en parámetros de crecimiento como longitud radicular, altura, peso seco aéreo y radicular en plántulas de Ipomoea batatas en invernadero con la inoculación de las bacterias seleccionadas frente a plántulas sin inocular. Los resultados catalogan a los aislados obtenidos como posibles microorganismos con potencial como biofertilizantes en batata.
Abstract The use of plant growth promoting Rhizobacteria (PGPR) is an alternative to replace chemical fertilizers for the cultivation of agricultural crops. The aim of this research was to search, selection and characterization of PGPR from the genus Azotobacter, Azospirillum and Pseudomonas natives from sweet potato (Ipomoea batatas) plants and rhizosphere of representative production regions of the Colombian Caribbean. Selected isolates were identified by molecular methods and they were screenedin vitrofor activities related to plant growth such as phosphate solubilization, indole production and acetylene reduction. The strains were tested in the greenhouse on plants of Ipomoea batatas produced in vitro. The height, root length, dry mass of the shot and root were evaluated. Associated with sweet potato crop us finded strains identificated as Azotobacter vinelandii, Azotobacter chroococcum, Azospirillum lipoferum, Azospirillum brasilense and Pseudomonas denitrificans. The strains were able to solubilize phosphate, synthesize indole-3-acetic acid (IAA) and reduce acetylene. The inoculation of bacteria selected increased growth parameters such as root length, height, dry weight root and shoot in plants of sweet potato in greenhouse. Those results catalog to the isolated obtained as possible microorganisms with potential as biofertilizers in sweet potato.
ABSTRACT
Resumen El fósforo es un elemento esencial para el cultivo de café, sin embargo la mayoría de los suelos en Colombia presentan niveles bajos de este nutriente. La presencia de microorganismos solubilizadores de fosfatos (MSF) es una de las estrategias para suplir su demanda, en ese sentido se aislaron 26 bacterias rizosféricas de Typic melanudans de Cajibío (Cauca, Colombia), en tres agroecosistemas: café sin sombra, café con sombra y relicto de bosque secundario, evaluándoles la eficiencia solubilizadora de P (ESF) en Ca-P, Al-P, Fe-P en medios Pikovskaya sólido y líquido, obteniendo la secuencia de solubilización Ca-P > Al-P > Fe-P. Los dos aislamientos bacterianos con mayor ESF se identificaron por extracción del ADN y análisis del gen 16S rRNA como Kocuria sp, y Bacillus subtilis. Posteriormente se cuantificaron e identificaron los ácidos orgánicos presentes en las tres fuentes de fosforo por HPLC, siendo ellos los ácidos cítrico, glucónico, D- y L-málico, D- y L-láctico con mayor presencia en Ca-P- Kocuria sp. En todas las condiciones, se observó que ocurrió acidificación de los medios, siendo más fuerte en Fe-P y Al-P.
Abstract Phosphorus is an essential nutrient for coffee growing, however, in Colombia most of the soils have low concentrations of this element. A strategy to supply the demand is the use of phosphate solubilizing microorganisms (PSM), in that order, 26 rhizospheric bacteria of Typic melanudans soil of Cajibío (Cauca, Colombia) were isolated, in three agroecosystems: coffee at full sun exposure, coffee with shade and relic secondary forest, evaluating the phosphate solubilizing efficiency (PSE) for Ca-P, Al-P, Fe-P in the solid and liquid Pikovskaya media. It showed the following solubilization sequence: Ca-P> Al-P> Fe-P. Two isolated bacteria were identified by DNA extraction and analysis of the 16S rRNA gene as Kocuria sp, and Bacillus subtilis. Later, using HPLC were identified organic acids present in the three phosphorus sources as: citric, gluconic, D- and L-malic, D- and L-lactic acid with higher presence in Ca-P-Kocuria sp. Strong acidification was observed for Fe-P and Al-P in all conditions.
ABSTRACT
Biofertilizer is a group of beneficial microorganisms used for improving the productivity of soil by fixing atmospheric nitrogen or by solubilizing soil phosphorus. They also stimulate plant growth through synthesis of growth promoting substances. In this present study, Azospirillum lipoferum is grown in Nitrogen free Bromothymol blue (Nfb) medium and Pseudomonas fluorescens in King's B medium. Bioprocess condition was optimized for both of the culture and found that Pseudomonas fluorescens has shown highest growth at 300C in pH 8 after 72 hours of incubation where as Azospirillum lipoferum showed highest cell concentration at 310C in pH 7, with incubation period of 72 hours. The optimized culture is mixed with different formulations of powder and liquid carrier such as Saw dust, Rice husk, Date seed powder, Matka khad, Jiwamrit and Beejamrit respectively. Shelf life study for 0, 30, 60, 90 and 120 days by cell counting and spread plate method showed that shelf life of the biofertilizer produced from Powder and liquid carriers had high amount of viable microbial population up to 120 days storage. Among biofertilizer based bio inoculants, Saw dust showed maximum population of 77x109cfu/ml for Azospirillum lipoferum and 72 x 109 CFU/ml for Pseudomonas strain on 120th day and the liquid carrier Matka khad showed 85x109 cfu/ml for Azospirillum lipoferum and 78 x 109 CFU/ml for Pseudomonas fluorescens.
Biofertilizante é um grupo de microorganismos benéficos utilizados para melhorar a produtividade do solo através da fixação de azoto atmosférico ou por solubilização de fósforo no solo. Eles também estimulam o crescimento vegetal através de síntese de substâncias promotoras do crescimento. No presente estudo, Azospirillum lipoferum é cultivado em um meio de azul de bromotimol sem nitrogênio (Nfb) e Pseudomonas fluorescens num meio de King's B. A condição de bioprocesso foi optimizada para ambas as culturas e descobriram que Pseudomonas fluorescens mostraram maior crescimento a 300ºC em pH 8 após 72 horas de incubação, enquanto que Azospirillum lipoferum mostraram maior concentração de células a 310ºC em pH 7, com um período de incubação de 72 horas. A cultura optimizada é misturada com diferentes formulações de pó e veículo líquido tal como serragem, casca de arroz, pó de semente de tâmaras, Matka khad, Jiwamrit e Beejamrit respectivamente. O estudo do prazo de validade para 0, 30, 60, 90 e 120 dias por contagem celular e método de espalhamento em placa mostrou que o prazo de validade do biofertilizante produzido a partir do pó e veículos líquidos teve grande quantidade de população microbiana viável até 120 dias de armazenamento. Entre inoculantes biológicos de base biofertilizantes, a serragem mostrou população máxima de 77x109 CFU/ml para Azospirillum lipoferum e 72 x 109 CFU/ml para a estirpe Pseudomonas no 120º dia e um veículo líquido Matka khad mostrou 85x109 CFU/ml para Azospirillum lipoferum e 78x109 CFU/ml para Pseudomonas fluorescens.
Subject(s)
Soil , Pseudomonas fluorescens , Azospirillum lipoferum , FertilizersABSTRACT
The experiment was conducted during rabi season in medium black soil at College Farm, College of Agriculture, Rajendranagar, ANGRAU, Hyderabad, Andhra Pradesh to study the influence of biofertilizers, vermicompost and chemical fertilizers on growth, nodulation, nutrient uptake, seed yield and economics of Black gram. From the data, it was observed that 50%RDF + Vermicompost + Rhizobium + Pseudomonas significantly increased the plant height, root length, leaf area index and leaf chlorophyll content at 25 and 50 DAS over the other treatments including control. The same treatment recorded highest seed yield (707 kg ha-1) and haulm yield (7067 kg ha-1) as compared to the control. Nutrient uptake recorded significantly highest in the treatment supplied with biofertilizers along with Vermicompost and 50%RDF. Treatment supplied with 50%RDF + Vermicompost + Rhizobium + Pseudomonas recorded highest net return (17784 Rs ha-1) but highest B: C ratio (2.11) was recorded in the treatment supplied with 50%RDF + Rhizobium + Pseudomonas.
ABSTRACT
A utilização de compostos orgânicos tem sido uma boa opção para reduzir os gastos com fertilizantes minerais e obter aumento de produtividade no cultivo de alface. Entretanto, dada à grande diversidade de matérias primas utilizada na preparação de compostos orgânicos, são necessários estudos para avaliar seus efeitos tanto sobre a liberação de nutrientes essenciais às plantas quanto sobre a liberação de substâncias contaminantes, como os metais pesados. O objetivo desse trabalho foi avaliar a nutrição mineral, bem como contaminação por metais pesados, da alface crespa em solos tratados com doses e tipos de composto orgânico. O experimento foi conduzido em casa de vegetação, em blocos casualizados, em esquema fatorial 5x4, sendo cinco tipos de compostos orgânicos e quatro doses de nitrogênio (0, 35, 70 e 140 kg ha-1 de N), com quatro repetições. De maneira geral, as doses dos compostos estudados não foram suficientes para fornecer a quantidade necessária de nutrientes para a alface, com exceção das de nitrogênio. Não se observou elevação dos teores de metais pesados no solo, acima do permitido pela legislação brasileira. Além disso, compostos a base de esterco mais grama, e um composto comercial causaram aumentos nos teores de Zn nas plantas, a níveis acima do recomendado para o consumo.
The use of organic compounds has been a good option to reduce spending on fertilizers, and gain increased productivity in the cultivation of lettuce. However, given the wide variety of raw materials used in the preparation of organic compounds, studies are needed to evaluate its effects on the release of essential nutrients to plants and on the release of contaminants such as heavy metals. The aim of this study was to evaluate the mineral nutrition and heavy metal contamination of lettuce in soils treated with doses and types of compost. The experiment was conducted in a greenhouse in randomized blocks in factorial scheme 5x4, with five types of organic compounds and four nitrogen levels (0, 35, 70 and 140 kg ha-1 of N), with four replications. In general, the doses of the compounds were not enough to provide the necessary quantity of nutrients to the lettuce, with the exception of nitrogen. There was no increase in levels of heavy metals in the soil above that allowed by Brazilian legislation. Furthermore, compounds based on manure plus grass, and commercial compound caused increases in Zn concentration in plants at levels above the recommended for consumed.
Subject(s)
Food , Lettuce , Metals, Heavy , FertilizersABSTRACT
The growth and reproductive performance of epigeic earthworm Eisenia fetida in biofertilizers enriched flower waste vermicomposting was studied for 80 days in the laboratory. Six feeding compositions – Co-Flower waste (FW) alone; A- FW + Earthworms (E. fetida); B- FW+ EW + Azospirillum (Azos); C- FW + EW+ Phosphobacteria (PB); DFW+ EW+ Blue green algae (BGA); E- FW + EW + Rhizobium (Rhizo). Maximum number of earthworms was recorded in C and minimum number in A, highest average body weight was observed in E and least in A. Maximum average body length was noted in B and minimum in A. Higher reproductive performance of earthworms under the influence of biofertilizers were clearly visible in C and E than A. The microbial populations and availability of food materials from biofertilizers enriched flower waste increases the biomass, average body weight, average body length and also increases the reproductive performance of earthworms in the vermicomposting process.
ABSTRACT
The continued decline in soil fertility, high fertilizer costs and the need to implement environmental friendly agricultural systems are some of the world’s major strategic concerns. Soil microorganisms are part of the soil ecosystem and are reported to contribute in soil fertility improvement. This paper is aimed at highlighting their contributions in alleviating soil fertility decline. The Rhizobium/legume symbiosis, a well known association contributes substantial amounts of biologically fixed nitrogen to cropping systems and significant benefits on yields of crops that follow in rotation. Soil microorganisms such as bacteria and fungi contribute to plant phosphorus nutrition through solubilization of sparingly soluble Al, Fe and Ca phosphates, and mineralization of phosphorus from organic substances. Solubilization is mainly achieved through production of organic acids, chelation and ligand exchange, and other pH lowering mechanisms whereas mineralization is achieved through production of enzymes such as phytases and phosphatases. Mycorrhizal associations are reported to contribute to plant phosphorus nutrition through increasing root surface area for soil exploration, production of phosphorus solubilizing enzymes and acids. Mycorrhizal fungi and bacteria also solubilize other nutrients such zinc, copper, potassium and calcium from their precipitated or sparingly soluble forms. Microorganisms also contribute to soil fertility improvement through their roles in composting. They are currently isolated, studied and packaged as biofertilizers and used to supplement chemical fertilizers. It can be noted that thorough exploitation of microbial activities can contribute to balanced plant nutrition. However, poor soil management practices limit realization of potential benefits from soil microorganisms whereas biofertilizer technology development in developing countries such as Sub-Saharan African countries is derailed because of lack of awareness, infrastructure and human capacity. From this study it can be noted that intensifying soil management practices that maximize microbial activities can go a long way in improving soil fertility with minimal use of chemical fertilizers. On the other hand there is a need to improve both human and infrastructure capacity in poor countries such as those in Sub-Saharan Africa so as to manage research in biofertilizer technologies. Awareness and dissemination of information on the importance of biofertilizers, intensifying effective microbial inoculation where it deemed to give good response and systematic evaluation of economic viability of biofertilizer technologies are other areas that need to be addressed.
ABSTRACT
Trichoderma sp es un hongo frecuentemente usado en actividades agrícolas, pues actúa como antagonista de diversas especies de hongos fitopatógenos. En este estudio se realizó el aislamiento de cuatro cepas de Trichoderma sp nativas del noreste de México, las cuales fueron identificadas a nivel molecular mediante la secuenciación del ITS 1. Además se evaluó su capacidad antagonista en contra los hongos fitopatógenos Macrophomina phaseolina y Fusarium oxysporum, que afectan severamente cultivos de sorgo, maíz y fríjol en el noreste de México. La identificación se realizó de acuerdo al grado de concordancia con secuencias reportadas y corresponden a las especies T. hammatum (HK701); T. koningiopsis (HK702); T. asperellum (HK703) y Trichoderma sp (HK704). Por otra parte, las pruebas de antagonismo muestran que los aislados HK701, HK703 y HK704 inhiben por competencia el crecimiento de M. phaseolina y F. oxysporum, mientras que HK702 tiene la capacidad para hiperparasitar dichos fitopatógenos. Finalmente, se evaluó la promoción de crecimiento de T. asperellum HK703, en maíz (Pionner 30P49®), usando para ello concentraciones de tratamiento de 1x10e2 hasta 1x10e6 esp/mL. En estos ensayos se midió la producción de biomasa. Los resultados muestran que en concentraciones intermedias se tiene el mayor incremento en altura de plantas y mayor producción de peso seco en follaje y raíz. Entre los parámetros antes mencionados existen diferencias significativas.
Trichoderma sp is a fungus often used in agricultural activities, because it acts as an antagonist of several species of plant pathogenic fungi. In this study four strains of Trichoderma sp was isolated from the northeastern Mexico, which were identified by sequencing the ITS 1. We also evaluated its ability antagonistic against phytopathogenic fungi Macrophomina phaseolina and Fusarium oxysporum this fungi are reported affecting severely maize, sorghum and beans crops in northeastern Mexico. The identification was made according to the degree of consistency with reported sequences and the data show that the isolates belong to the species T. hammatum (HK701), T. koningiopsis (HK702), T. asperellum (HK703) and Trichoderma sp (HK704). Antagonism tests showed that the isolated, HK701, HK703 and HK704 inhibited the growth by competition to M phaseolina and F. oxysporum, while the HK702 has the ability to hyperparasites these pathogens. Finally was evaluated in maize (Pioneer 30P49®) We measured the dry weight and biomass production. The results show that at intermediate concentrations have the greatest increase in plant height and dry height of root and foliage.
Subject(s)
Drug Antagonism , Drug IncompatibilityABSTRACT
In a greenhouse experiment, the nematicidal effect of some bacterial biofertilizers including the nitrogen fixing bacteria (NFB) Paenibacillus polymyxa (four strains), the phosphate solubilizing bacteria (PSB) Bacillus megaterium (three strains) and the potassium solubilizing bacteria (KSB) B. circulans (three strains) were evaluated individually on tomato plants infested with the root-knot nematode Meloidogyne incognita in potted sandy soil. Comparing with the uninoculated nematode-infested control, the inoculation with P. polymyxa NFB7, B. megaterium PSB2 and B. circulans KSB2, increased the counts of total bacteria and total bacterial spores in plants potted soil from 1.2 to 2.6 folds estimated 60 days post-inoculation. Consequently, the inoculation with P. polymyxa NFB7 increased significantly the shoot length (cm), number of leaves / plant, shoot dry weight (g) / plant and root dry weight (g) / plant by 32.6 percent, 30.8 percent, 70.3 percent and 14.2 percent, respectively. Generally, the majority treatments significantly reduced the nematode multiplication which was more obvious after 60 days of inoculation. Among the applied strains, P. polymyxa NFB7, B. megaterium PSB2 and B. circulans KSB2 inoculations resulted in the highest reduction in nematode population comparing with the uninoculated nematode-infested control. They recorded the highest reduction in numbers of hatched juveniles/root by 95.8 percent, females/root by 63.75 percent and juveniles/1kg soil by 57.8 percent. These results indicated that these bacterial biofertilizers are promising double purpose microorganisms for mobilizing of soil nutrients (nitrogen, phosphate and potassium) and for the biological control of M. incognita.
Subject(s)
Anti-Bacterial Agents/analysis , Bacillus megaterium/isolation & purification , Phosphates/analysis , Nematoda , Nitrogen , Nitrogen Fixation , Pest Control, Biological , Plants, Edible , Sandy Soils , Spores, Bacterial , Methods , Plants , MethodsABSTRACT
The comparative effect of dual inoculation of native N fixer (Rhizobium) and AM fungi consortia with different organic fertilizers (vermicompost and farm yard manure) on fodder production and quality of two leguminous tree species (Leucaena leucocephala (Lam) de. Wit. and Sesbania sesban (L.) Merr.) in silvopastoral system and their impact on the fodder production of un-inoculated Panicum maximum Jacq. under cut and carry system. After three years of plantation maximum tree survival was in L. leucocephala in all the treatments in comparison to S. sesban while fodder production was more in S. sesban for initial two years and in third year it accelerated in L. leucocephala. Dual inoculation with vermicompost significantly improved fodder production, fodder quality and rhizosphere microflora in L. leucocephala but in S. sesban dual inoculation was at par with single inoculation of N fixer, AM fungi and control (without inoculation). The grass production was higher with L. leucocephala for two years while in third year it was more with S. sesban. The association of Rhizobium with AM fungi in L. leucocephala was better than in S. sesban.