FIELD TRIAL OF CYANOBACTERIA BASED BIOFERTILIZER FOR CULTIVATION OF TRITICUM AESTIVUM PLANT

The continuous growth of the global human population and the depletion of natural energy resources are posing a threat to the environment and the sustainable supply of food and energy. To address this issue, a solution known as "green technology" has been developed, focusing on the use of eco-friendly approaches. One of these approaches involves harnessing the power of cyanobacteria, which are ancient microorganisms that have existed on Earth for a long time. This approach was used to probe the diversity of phototrophic microorganisms in Wheat samples. The presence of nif genes allows cyanobacteria to x nitrogen which plays a vital role in nitrogen cycle and biological processes such as plant growth and soil fertility. Wheat production test in current study evaluates the yield and quality of wheat crops. It shows factors such as improvement in growth, heat resistance and environmental adaptability, improvement in production; provide insights for optimizing cultivation practices and ensuring successful high yield. Identication of Cyanobacteria for their combination of nif and molecular identity is prior for production of bio fertilizers. Cyanobacteria can be cultivated on a large scale to produce biomass that has multiple uses, including biofertilizer, secondary metabolites, cosmetics, and medicines. In the eld of agriculture, production of healthy crop cyanobacterial biofertilizer are being increasingly used in eco-friendly and sustainable practices. These biofertilizer are produced through mass cultivation of cyanobacteria and offer several benets.

Comparative P solubilizing efficiencies of five acid soil bacteria incubated with calcium, aluminium and iron phosphates

As acid soils of Odisha have been facing a major constraint in phosphorus availability, application of native P solubilizing bacteria could be promising as well as ecofriendly step towards sustainable P availability for crop growth and development. To address the problem of P availability in acid soil of Bhubaneswar, Odisha, rhizosphere soil samples (pH ? 5.50) with rice – pulses (green gram/black gram) cropping system were collected and phosphate solubilising bacteria were isolated. In vitro characterization of the PSB isolates were conducted with calcium, aluminium and iron phosphates to recover soluble P. All the five strains i.e. Bacillus cereus BLS18 (KT582541), Bacillus amyloliquefaciens CTC12 (KT633845), Burkholderia cepacia KHD08 (KT717633), Burkholderia cepacia KJR03 (KT717634), Burkholderia cepacia K1 (KM030037) could solubilize Ca3(PO4)2, AlPO4, FePO4, and Fe3(PO4)2. Higher recovery of soluble P was with Ca3(PO4)2 while the least was with AlPO4. All the strains exibited a trend similar with respect to P recovery i.e. Ca3(PO4)2 > FePO4 > AlPO4 > Fe3(PO4)2. B. amyloliquefaciens CTC12 was most efficient in solubilizing calcium and iron phosphates whereas B. cepacia KHD08 recovered maximum P with aluminium phosphate. All the inorganic salt fortified mediums showed a significant decline in pH which necessitated the identification of compounds present in the mediums. Organic acids viz; acetic, citric, gluconic, lactic, malic, succinic, tartaric acids in the mediums were identified by HPLC. Tartaric acid was only found in the mediums supplemented with AlPO4. B. amyloliquefaciens CTC12 and B. cepacia KHD08 showed promising results in in vitro analysis of P solubilization. The present study is focused on problematic acid soils where phosphorous is unavailable and mostly fixed with aluminium and iron ultimately making it unavailable for the crops to take up. This leads to unbalanced and frequent use of chemical fertilizer. Hence the study is a significant attempt to characterize native PSBs with capacity to solubilize Al-P and Fe-P

Sorção de fósforo de efluente doméstico tratado em lodo de estação de tratamento de água e aplicação do resíduo em solo cultivado com milho / Phosphorus sorption from treated domestic effluent in water treatment plant sludge and residue application in soil cultivated with corn

RESUMO Estudos de remoção de fósforo de efluentes por sorção em resíduos têm ganhado destaque na literatura. Entre estes resíduos, destaca-se o lodo de estação de tratamento de água rico em oxi-hidróxidos de alumínio e ferro. O presente estudo teve como objetivos remover, por sorção, fosfato de esgoto sanitário em reator de escoamento ascendente preenchido com lodo de estação de tratamento de água e comparar a cultura de milho submetida a diferentes fontes de fósforo: adubação convencional (Fonte 1); adubação convencional e lodo de estação de tratamento de água utilizado na sorção do fosfato (Fonte 2); e lodo de lodo de estação de tratamento de água utilizado na sorção do fosfato (Fonte 3). A remoção do fosfato, a partir do lodo de estação de tratamento de água, ocorreu nos três testes. No ensaio de sorção, após tempo de detenção hidráulica de 2,8 h, verificou-se remoção média de 96% de fosfato. Em relação ao aporte de fósforo por diferentes fontes, verificou-se que o emprego do lodo, nos tratamentos Fonte 2 e 3, aumentou o teor de matéria orgânica do solo e proporcionou maior tamponamento dele. Os teores foliares de macro e micronutrientes na cultura apresentaram valores satisfatórios, apesar da senescência de algumas plantas em Fonte 2 e 3. O reaproveitamento do lodo, nas doses aplicadas, foi suficiente para que o material vegetal analisado atingisse teores de chumbo consideráveis, o qual deve ser monitorado na utilização do resíduo no cultivo agrícola.

ABSTRACT Studies on the removal of phosphorus from effluents by sorption in residues have gained prominence in the literature. Among these residues, there is the sludge from a water treatment plant rich in oxyhydroxides of Aluminum and iron. The present study aimed to remove, by sorption, phosphate from sanitary sewage in upflow reactor filled with water treatment plant sludge, and to compare the corn crop subjected to different phosphorus sources: conventional fertilization (Source 1); conventional fertilization and water treatment plant sludge used in the sorption of phosphate (Source 2) and water treatment plant sludge used in the sorption of phosphate (Source 3). Removal of phosphate from the water treatment plant sludge occurred in all three tests. In the sorption assay, after 2.8 h hydraulic retention time, there was an average removal of 96% of phosphate. Regarding the contribution of phosphorus by different sources, it was found that the use of sludge, in treatments Source 2 and 3, increased the content of organic matter in the soil and provided greater buffering. The leaf contents of macro and micronutrients in the crop showed satisfactory values, despite the senescence of some plants in Source 2 and 3. The reuse of the sludge, in the applied doses, was enough for the analyzed plant material to reach considerable lead contents, which must be monitored when using the residue in agricultural cultivation.

Performance of a selected Trichoderma strain as plant pathogen inhibitor and biofertilizer

Aims@#The application of beneficial microbes is a suitable alternative to synthetic pesticides and fertilizers for agriculture. This study was aimed to evaluate the potential of a selected Trichoderma strain as a biocontrol agent against Rhizoctonia sp. and as a biofertilizer to improve paddy growth.@*Methodology and results@#Four Bipolaris strains were identified via DNA barcoding as the cause of brown spot disease, whereas two Rhizoctonia strains were similarly identified as the cause of sheath blight disease in Brunei Darussalam. Eight Trichoderma strains were initially screened using confrontation assay and were found to substantially inhibit the growth of Rhizoctonia sp. Hybrid rice named BDR5 was treated with Trichoderma sp. UBDFM01 and/or Rhizoctonia sp. It was found that the selected strain showed the potential as a biofertilizer by significantly increasing the vigour index I, chlorophyll a, chlorophyll b, total chlorophyll and dry shoot weight of the rice plants. The pathogen negatively affected the plants by significantly reducing the vigour index II, chlorophyll a, chlorophyll a/b ratio, total chlorophyll, and total weight of grains. Trichoderma strain showed the potential as a biocontrol agent by significantly diminishing the negative effects of the pathogen on the chlorophyll a, chlorophyll a/b ratio and total chlorophyll.@*Conclusion, significance and impact of study@#This study highlights the potential of Trichoderma sp. UBDFM01 as a biocontrol agent against Rhizoctonia sp. and also as a biofertilizer for rice plants. In addition, this study is the first to provide DNA-based evidence of Bipolaris sp. and Rhizoctonia sp. as the fungi that caused rice diseases in Brunei Darussalam.

Isolation of bacteria with plant growth-promoting activities from a foliar biofertilizer

Aims@#Plant growth-promoting bacteria are the key components of a biofertilizer. This study was aimed to isolate and identify the predominant bacteria found in a foliar biofertilizer and characterizes the potential of the bacterial isolates as plant growth promoters.@*Methodology and results@#Potential bacteria with plant growth-promoting activities were isolated from a foliar biofertilizer on HiCrome™ Bacillus agar and Nutrient agar. Bacteria with unique colonial morphology were selected and categorized by Gram’s differential staining. Subsequently, the bacterial isolates were being further characterized for plant growth-promoting potentials, such as the production of indole acetic acid (IAA), 1-aminocyclopropane-1-carboxylate (ACC) deaminase and siderophore; as well as the ability of nitrogen fixation and phosphate/potassium solubilization. Based on the characterized traits, three bacterial isolates, namely M17, M22 and M52 showed great potential for being a plant growth promoter. Based on their 16S rRNA gene sequence analysis, M17, M22 and M52 were identified as Leclercia adecarboxylata, Margalitia shackletonii and Lysinibacillus pakistanensis, respectively.@*Conclusion, significance and impact of study@#Bacterial isolates exhibiting plant growth-promoting activities were successfully isolated from a biofertilizer and identified in this study. This finding provides an insight into the potential bacteria of a foliar fertilizer that may promote plant growth. Identification of these plant-growth promoters may help the scientists and agrochemical manufacturers to determine and disclose the key microorganisms of their biofertilizers, thereby contributing to the improvement of biofertilizers and promoting them as reliable alternatives to chemical fertilizers.

HALOBACTERIAS PROMOTORAS DE CRECIMIENTO VEGETAL ASOCIADAS A Lippia palmer! (VERBENACEAE) EN LA ZONA ÁRIDA DEL NOROESTE DE MÉXICO / Plant growth promoting halobacteria associated to plant growth promoting halobacteria associated to Lippia palmeri (Verbenaceae) in the arid zone of northwestern Mexico

RESUMEN La producción de orégano es de relevancia económica en el noroeste de México. Sin embargo, los productores para obtener altos rendimientos recurren a la fertilización química, pero su mal uso, agudiza la salinidad. Lippia palmeri crece de manera natural en suelos áridos, pobres en materia orgánica, alta salinidad y temperatura en el noroeste de México. En el contexto de una agricultura sustentable, los microorganismos mantienen la fertilidad del suelo e incrementan la productividad de la planta. Actualmente existe interés en proponer biofertilizantes en la agricultura de alta intrusión salina y elevadas temperaturas para el cultivo de orégano. Las Halobacterias Promotoras del Crecimiento de Plantas (HPCP), se han destacado por beneficiar a los cultivos nutrimentalmente y mitigar el efecto de la salinidad. El objetivo del presente trabajo consistió en identificar termo- y halo-tolerantes HPCP asociadas a la rizosfera de L. palmeri; se evaluó la actividad solubilizadora de fosfatos, producción de ácidos orgánicos, sideróforos y fijación de nitrógeno; se identificaron mediante el gen ARNr-16S aquellas con alta actividad evaluándose su efecto en la germinación y longitud radicular. Quince diferentes colonias sobresalieron al crecer en NaCl (0.25, 0.50 y 0.75 M) a 35 y 45 °C, destacando tres bacterias identificadas: Bacillus amyloliquefaciens, Bacillus subtilis y Bacillus licheniformis. El efecto en la longitud radicular es significativo por la aplicación de B. amyloliquefaciens. Estudios relacionados con la promoción vegetal deben ser considerados en posteriores estudios. Este es el primer informe de B. amyloliquefaciens como una bacteria fijadora de nitrógeno asociada a L. palmeri.

ABSTRACT The production of oregano is of economic relevance in northwestern Mexico. However, to obtain high yields, producers resort to chemical fertilization, but its misuse increases salinity. Lippia palmeri Watts is a species of oregano that naturally grows in arid soils with poor organic matter, high salinity and temperature in the northwestern Mexico. In the context of sustainable agriculture, microorganisms activate soil fertility and increase plant productivity. Currently there is interest in proposing biofertilizers in the agriculture with high saline intrusion and temperatures for the cultivation of oregano. The Plant Growth Promoting Halobacteria (HPCP) have stood out by the beneficiary of the nutritious crops and mitigate the effect of the salinity. The goal of this work was to identify HPCP associated to the rhizosphere of L. palmeri, thermo and halotolerant; phosphate solubilizing activity, organic acid production, siderophores and nitrogen fixation were evaluated; the highest activity colonies were identified by the rRNA-16S gene and the effect on germination and root length was evaluated. Fifteen different colonies stood out when growing in NaCl (G.25, G.5G and G.75 M) at 35 and 45 °C, from which three bacteria were identified: Bacillus amyloliquefaciens, Bacillus subtilis and Bacillus licheniformis. The effect on root length was significant for B. amyloliquefaciens. Studies related to plant promotion should be involved in subsequent studies. This is the first report of Bacillus amyloliquefaciens as a nitrogen fixing bacteria associated with Lipia palmeri.

Isolation and identification of phosphate solubilizing bacteria from indigenous microorganisms (IMO) of cow rumen in East Java, Indonesia as eco-friendly biofertilizer

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.

Microorganismos eficientes y vermicompost lixiviado aumentan la producción de pepino / Efficient microorganism and lixiviate vermicompost applications increase the cucumber production

RESUMEN Los principales problemas de la producción de pepino, residen mayormente en la escasez de fertilizantes minerales, afectaciones climatológicas y limitado uso de los biofertilizantes, por lo cual, es importante buscar alternativas eficientes que aumenten la productividad, la racionalidad y la sustentabilidad. El objetivo de esta investigación fue evaluar la utilización individualizada y asociada de los biofertilizantes microorganismos eficientes y vermicompost lixiviado en el incremento agroproductivo del pepino. El trabajo fue desarrollado en la unidad productiva "El Estadio", Sancti Spíritus, Cuba, entre enero a abril de 2015 y fue utilizado el cultivar Su Yi Sung de pepino. Los tratamientos aplicados fueron un control, inoculación al suelo y aplicaciones foliares de Microorganismos eficientes y vermicompost lixiviado, a 100 y 200mL L-1 y la inoculación al suelo, con Microorganismos eficientes, a 100mL L-1 y aplicaciones foliares con vermicompost lixiviado, a 100mL L-1. Las variables evaluadas fueron el número de hojas, de flores femeninas y de frutos por planta, longitud de frutos (cm), masa de los frutos (g) y el rendimiento (kg m-2). Los resultados mostraron que la aplicación individual y combinada de los biofertilizantes tuvieron un efecto bioestimulante en la producción de pepino y la aplicación de microorganismos eficientes a 100mL L-1 y la combinación con vermicompost lixiviado a 100mL L-1 constituyen una alternativa en la productividad del cultivo, especialmente, porque aumentaron el número de hojas, flores femeninas, frutos, masa y longitud de los frutos e incrementaron el rendimiento en 42% con relación al tratamiento control.

ABSTRACT The main problems of cucumber production reside fundamentally by the mineral fertilizer's shortage, climatic affectation and limited use of biofertilizers, which is important to looking for efficient alternatives that increase productivity, rationality and sustainability. The objective of this research was to evaluate the effect of individualized and associated use of biofertilizers efficient microorganisms and lixiviate vermicompost on the agro-productive increase of cucumber. The work was developed in the productive unit "El Estadio", Sancti Spíritus, Cuba, between January to April 2015 and Su Yi Sung cultivar of cucumber was used. The treatments used were a control (no application), soil inoculation and foliar applications with efficient microorganisms and lixiviate vermicompost at 100 and 200mL L-1, and soil inoculation with efficient microorganisms at 100mL L-1 and foliar applications with lixiviate vermicompost at 100mL L-1. The following variables were observed: number of leaves, female flowers and fruits per plant, length of fruits (cm), mass of fruits (g) and yield (kg m-2). The results showed that the individual and combined application of biofertilizers had a biostimulants effect on cucumber production. The efficient microorganism's application at 100mL L-1 and the combination with lixiviate vermicompost to 100mL L-1 constituting a sustainable alternative in the cucumber productivity, especially because they increased the number of leaves, female flowers, fruits, mass and length of fruits and increasing the yield by 42 % compared to control treatment.

Rhizobacterial inoculants: The formulation as biofertilizer and its application on chili plants (Capsicum annum L.)

Aims@#The use of rhizobacteri as biofertilizer may help plants in obtaining nutrients from soil. A consortium inoculant (co-inoculant) consisting of nitrogen fixing and phosphate solubilizing bacteria is formulated to maintain its ability as booster of plant growth. This is easy to be stored and applied on plants. The aims of the study were to formulate rhizobacterial co-inoculant and its application on chili plants at greenhouse experiment. @*Methodology and results@#Isolates of Burkholderia cepacia KD 2.10, Serratia marcescens KAHN 15.12, and Bacillus thuringiensis SAHA 12.12 which have the ability in fixing nitrogen and solubilizing phosphate were used in this study. The three isolates did not show antagonistic activity and hypersensitivity reaction on chili plant. Biofertilizer as carrier material with talc-based powder was mixed with three isolates. This 109 CFU/g cell population of rhizobacterial consortium could be maintained up to six months of storage. Based on result of completely randomized design (CRD) using two factorials and four replicates, application of rhizobacterial co-inoculant significantly affected plant height, number of leaves, flowering age, dry weight of upper plant and root, and root length of chili plant. @*Conclusion, significance and impact of study@#Rhizobacterial co-inoculant was effective as biofertilizer to improve the growth of chili plants and it reduced the use of chemical fertilizer.

Techno-economic evaluation and conceptual design of a liquid biofertilizer plant / Evaluación técnico-económica y diseño conceptual de una planta de biofertilizantes líquidos

ABSTRACT Biofertilizers have become an effective, eco-friendly and low cost alternative to chemical fertilizers. Process engineering and cost models for a biofertilizer plant with a production capacity of 44 tons of liquid biofertilizer per year (568 kg/batch) were developed. The models were obtained using process simulator (SuperPro Designer®), version 8.5 (Intelligen, 2012), while the 3D conceptual design and layout of the biofertilizer plant was developed with (OptiPlant®) software (ASD Global, 201 5). The total capital investment required to erect the plant is $ 3 975 000, the unit production cost of one 1.5 L bottle of liquid biofertilizer is $ 24.009, while the economic indicators Net Present Value (NPV) and Internal Rate of Return (IRR) had values of $ 716 000 and 2.55%, respectively. Also, the total revenues are $ 985 000/year, the Return on Investment (ROI) is 14.93 %, and the payback time is 6.70 years.

RESUMEN Los biofertilizantes se han convertido en una alternativa de bajo costo, efectiva y amigable con el medio ambiente en comparación con los fertilizantes químicos. En el presente trabajo se desarrollaron los modelos de ingeniería de proceso y costo de una planta de biofertilizantes líquidos con una capacidad de 44 toneladas por año (568 kg/lote). Los modelos fueron obtenidos empleando el simulador de procesos SuperPro Designer® versión 8.5 (Intelligen, 2012), mientras que el diseño conceptual en 3D y dimensionamiento de la planta se desarrolló mediante el software OptiPlant (ASD Global, 2015). Se requiere una inversión total de USD $ 3 975 000 para erigir la planta, el costo de producción unitario de una botella de 1,5 L de biofertilizantes líquido es de USD $ 24,009, mientras que los indicadores económicos Valor Actual Neto (VAN) y Tasa Interna de Retorno (TIR) tuvieron valores de USD $ 716 000 y 2,55 %, respectivamente. También se obtienen ganancias totales de USD $ 985 000/año y un valor del Período de Retorno de la Inversión de 6,70 años.

Evaluation of root-knot nematode disease control and plant growth promotion potential of biofertilizer Ning shield on Trichosanthes kirilowii in the field

Abstract Biofertilizer Ning shield was composed of different strains of plant growth promotion bacteria. In this study, the plant growth promotion and root-knot nematode disease control potential on Trichosanthes kirilowii in the field were evaluated. The application of Ning shield significantly reduced the diseases severity caused by Meloidogyne incognita, the biocontrol efficacy could reached up to 51.08%. Ning shield could also promote the growth of T. kirilowii in the field by increasing seedling emergence, height and the root weight. The results showed that the Ning shield could enhance the production yield up to 36.26%. Ning shield could also promote the plant growth by increasing the contents of available nitrogen, phosphorus, potassium and organic matter, and increasing the contents of leaf chlorophyll and carotenoid pigment. Moreover, Ning shield could efficiently enhance the medicinal compositions of Trichosanthes, referring to the polysaccharides and trichosanthin. Therefore, Ning shield is a promising biofertilizer, which can offer beneficial effects to T. kirilowii growers, including the plant growth promotion, the biological control of root-knot disease and enhancement of the yield and the medicinal quality.

Azotobacter chroococcum as a potentially useful bacterial biofertilizer for cotton (Gossypium hirsutum): Effect in reducing N fertilization / Azotobacter chroococcum como biofertilizante bacteriano potencialmente útil para el algodón (Gossypium hirsutum L.): efecto en la reducción de la fertilización nitrogenada

The aim of this research was to evaluate whether the application of two plant growth-promoting (rhizo)bacteria might reduce nitrogen fertilization doses in cotton. We used strains Azotobacter chroococcum AC1 and AC10 for their proven ability to promote seed germination and cotton growth. These microorganisms were characterized by their plant growth-promoting activities. Then, we conducted a glasshouse study to evaluate the plant growth promoting ability of these strains with reduced doses of urea fertilization in cotton. Results revealed that both strains are capable of fixing nitrogen, solubilizing phosphorus, synthesizing indole compounds and producing hydrolytic enzymes. After 12 weeks, the glasshouse experiment showed that cotton growth was positively influenced due to bacterial inoculation with respect to chemical fertilization. Notably, we observed that microbial inoculation further influenced plant biomass (p<0.05) than nitrogen content. Co-inoculation, interestingly, exhibited a greater beneficial effect on plant growth parameters compared to single inoculation. Moreover, similar results without significant statistical differences were observed among bacterial co-inoculation plus 50% urea and 100% fertilization. These findings suggest that coinoculation of A. chroococcum strains allow to reduce nitrogen fertilization doses up to 50% on cotton growth. Our results showed that inoculation with AC1 and AC10 represents a viable alternative to improve cotton growth while decreasing the N fertilizer dose and allows to alleviate the environmental deterioration related to N pollution.

El objetivo de esta investigación fue evaluar si la aplicación de 2 (rizo)bacterias promotoras del crecimiento vegetal podría reducir la dosis de fertilizante nitrogenado en el cultivo de algodón. Se usaron las cepas Azotobacter chroococcum AC1 y AC10 por su habilidad para promover la germinación de semillas y el crecimiento del algodonero. Estos microorganismos fueron caracterizados sobre la base de sus actividades de promoción del crecimiento vegetal. Luego se realizó un estudio de invernadero con plantas de algodón para evaluar la capacidad de promoción del crecimiento vegetal de dichas cepas con dosis reducidas de urea. Los resultados revelaron que ambas cepas son capaces de fijar nitrógeno, solubilizar fósforo, sintetizar compuestos indólicos y producir enzimas hidrolíticas. Después de 12 semanas, el experimento de invernadero permitió observar que el crecimiento del algodón fue influido positivamente por la inoculación bacteriana con respecto a la fertilización química. En particular, se evidenció que la inoculación microbiana impactó más en la biomasa vegetal (p<0,05) que en el contenido de nitrógeno. Curiosamente, la coinoculación exhibió un mayor efecto positivo sobre los parámetros de crecimiento en comparación con la inoculación simple. Además, se observaron resultados similares, sin diferencias estadísticamente significativas, entre la coinoculación bacteriana más del 50% de urea y el 100% de fertilización. Estos hallazgos indican que la coinoculación de las cepas de A. chroococcum AC1 y AC10 permitiría reducir las dosis de fertilización nitrogenada del cultivo de arroz en hasta el 50% y aliviar, de esta manera, el deterioro ambiental relacionado con la contaminación por N.

Effect of biofertilizer on the diversity of nitrogen - fixing bacteria and total bacterial community in lowland paddy fields in Sukabumi West Java, Indonesia

Aims: Some of methanotrophic bacteria and nitrous oxide (N2O) reducing bacteria have been proven able to support the plant growth and increase productivity of paddy. However, the effect of application of the methanotrophics and N2O reducing bacteria as a biofertilizer to indigenous nitrogen-fixing bacteria and total bacterial community are still not well known yet. The aim of the study was to analyze the diversity of nitrogen-fixing bacteria and total bacterial communty in lowland paddy soils. Methodology and results: Soil samples were taken from lowland paddy fields in Pelabuhan Ratu, Sukabumi, West Java, Indonesia. There were two treatments applied to the paddy field i.e biofertilizer-treated field (biofertilizer with 50 kg/ha NPK) and control (250 kg/ha NPK fertilizer). There were nine different nifH bands which were successfully sequenced and most of them were identified as unculturable bacteria and three of them were closely related to Sphingomonas sp., Magnetospirillum sp. and Ideonella dechloratans respectively. In addition, there were 20 different 16S rDNA bands which were successfully sequenced. Phylogenetic analysis of the sequence showed that there were 5 phyla of bacteria, i.e. Proteobacteria (Alphaproteobacteria and Gammaproteobacteria), Chlorofexi, Gemmatimonadetes, Clostridia, and Bacteroidetes respectively. Alphaproteobacteria was the most dominant group in lowland paddy field. Microbial diversities in the biofertilizer-treated field were lower than that of 100% fertilizer-treated field either based on nifH and 16S rDNA genes. Conclusion, significance and impact study: Biofertilizer treatment has lower microbial diversity than control, either based on nifH and 16S rDNA genes.

Efecto de las PGPB sobre el crecimiento Pennisetum clandestinum bajo condiciones de estrés salino / PGPB effect on the growth Pennisetum clandestinum under salt stress

Esta investigación tuvo como objetivo el aislamiento y caracterización de bacterias con potencial para promover el crecimiento del pasto Pennisetum clandestinum en suelos salinos simulados. De muestras de suelo rizosférico de P. clandestinum se aislaron 92 bacterias Gram positivas, diez aislados crecieron en agar nutritivo suplementado con NaCl (2,578 M). Los aislados se evaluaron bajo condiciones de invernadero; las cepas identificadas como KISA 34 y KISA 71 fueron seleccionadas como las mejores con base a la prueba estadística de Dunnet (p≤ 0,05) y fueron identificadas molecularmente como Bacillus amyloliquefaciens KISA 34 y Bacillus subtilis KISA 71. Estas cepas tienen la capacidad de producir; amonio, exopolisacáridos y celulosa, y tanto en presencia como ausencia de NaCl, produjeron índoles totales y solubilización de fósforo. La evaluación de las cepas en invernadero evidenció que el T6 - KISA 34 + KISA 71+ 25 % (Roca Fosfórica RF) con respecto al T2- testigo químico completo incrementaron de manera significativa la biomasa y el desarrollo de la planta (p≤ 0.05). Los resultados de esta investigación demostraron que las cepas aisladas tienen la capacidad de crecer en suelos salinos conservando sus características como promotoras de crecimiento vegetal con efectos positivos sobre P. clandestinum.

This research aims the isolation and characterization of bacteria with potential to promote the growth of grass Pennisetum clandestinum in simulated saline soils. 92 Gram positive bacterias were isolated from Rhizosphere soil samples of P. clandestinum. Ten isolated bacteria grew on nutrient agar supplemented with NaCl (2.578 M). Isolates were evaluated under greenhouse conditions; the strains identified as KISA 34 and KISA 71 were selected as the best based on the statistical test of Dunnet (p ≤ 0.05) and were identified Bacillus amyloliquefaciens KISA 34 and Bacillus subtilis KISA 71. These strains have the ability to produce ammonium, exopolysaccharides and cellulose, both in absence and presence of NaCl. The strains produced indoles and phosphorus solubilization. The evaluation of strains in greenhouse showed that the T6 - KISA 34 + KISA 71+ 25 % (phosphate rock RF) significantly increased biomass and plant development (p≤ 0.05) compared with T2 - full fertilization . The results of this research showed that isolates have the ability to grow in saline soils retaining its characteristics as promoting plant growth with positive effects on P. clandestinum.

In vitro DISSOLUTION OF ACIDULATED ROCK PHOSPHATE BY PHOSPHATE SOLUBILIZING MICROORGANISMS / Disolución in vitro de rocas fosfóricas aciduladas por microorganismos solubilizadores de fósforo

The low availability of phosphorus (P) in the soil and the high cost of P fertilization are factors that limit agricultural productivity. A biotechnological alternative for to handle this problem is to use soil microorganisms capable of dissolving rock phosphate (RP), thus improving its effectiveness as a P fertilizer. This study was carried out with the objective of determining the effectiveness of Aspergillus niger -As-, Penicillium sp. -Pn-, Bacillus sp -B-. and an unidentified actinomycete -At- in the in vitro dissolution of two partially acidulated rock phosphates. The treatments consisted of 2x16 factorial arrangement [2 levels of RP: either Boyaca RP or Norte de Santander RP; 16 levels of inoculum: an uninoculated control, individual inoculations (with As, Pn, B, At), dual inoculations (AsPn, AsB, AsAt, PnB, PnAt, BAt), triple inoculations (AsPnB, AsPnAt, AsBAt, PnBAt), and quadruple inoculation (AsPnBAt)]. Each treatment was replicated three times. It was found that the microbial effectiveness in the in vitro dissolution of RP depended on the type of RP, the composition of the inoculum used and the interaction of both factors. The best results were obtained with the Norte de Santander RP and A. niger used alone. When this fungus combined with the other microorganisms, its capacity to dissolve RP was significantly reduced.

La baja disponibilidad de fósforo (P) en el suelo y el costo de la fertilización fosfórica son limitantes para la productividad agrícola. Una alternativa biotecnológica para manejar este problema es mediante el uso de microorganismos del suelo capaces de disolver rocas fosfóricas (RP) y así mejorar su efectividad como fertilizante fosfórico. Con este fin se realizó un ensayo para determinar la efectividad microbial en la disolución in vitro de dos RP (Norte de Santander y Boyacá) parcialmente aciduladas. Los tratamientos consistieron en un arreglo factorial 2x16 [2 niveles de RP: Boyacá o Norte de Santander; 16 niveles de inóculo: Un control no inoculado, inóculos individuales (Aspergillus niger -As-, Penicillium sp. -Pn-, Bacillus sp. -B-, y un actinomiceto no identificado -At-), inóculos dobles (AsPn, AsB, AsAt, PnB, PnAt, BAt), inóculos triples (AsPnB, AsPnAt, AsBAt, PnBAt), e inóculos cuádruples (AsPnBAt)]. Cada tratamiento tuvo tres replicas. La efectividad en la disolución in vitro de RP fue dependiente del tipo de RP, tipo de inóculo y la interacción de ambos factores, teniendo mejores resultados con la RP del Norte de Santander y A. niger sólo. Cuando este hongo se combinó con otros microorganismos su capacidad para disolver RP se redujo significativamente.

Assessment of multifunctional biofertilizer on rice seedlings (MR 219) growth in a greenhouse trial

Aims: Food security and safety are current issues around the world. Rice is a staple food for a large portion of the world’s population, and in Malaysia around 2.2 million tonnes of rice were consumed annually. Fertilizer input is the key to increase rice production. Malaysian Nuclear Agency (Nuclear Malaysia) has developed multifunctional biofertilizer products in an effort to reduce dependency on chemical fertilizers for crop production. Methodology and results: Multifunctional biofertilizer products contain indigenous microorganisms that have desired characteristics, which include plant growth promoting, phosphate solubilising, potassium solubilising and enhancing N2- fixing activity were used in this study. These products were formulated as liquid inoculants, which is suitable for rice production. A greenhouse trial was conducted to evaluate the effectiveness of multifunctional biofertilizer on rice. Multifunctional biofertilizer products were applied singly and in combination with rock phosphate, feldspar and irradiated oligochitosan from a project by Forum for Nuclear Cooperation in Asia (FNCA), Japan. Plants that were given chemical fertilizers and plants not receiving fertilizer or biofertilizer products were used as controls. Fresh and dry weights of rice seedlings were determined. Application of multifunctional biofertilizer combined with irradiated oligochitosan (T3) resulted in significantly higher fresh weights (97.12 g) and dry weights (84.16 g) as compared to non-treated plants (77.39 g fresh weights and 69.56 g dry weights). The results suggested that application of multifunctional biofertilizer in combination with irradiated oligochitosan could increase rice growth. Conclusion, significance and impact of study: Combination of biofertilizer with oligochitosan increased rice growth in greenhouse trial. Further investigation of this interaction phenomenon should be carried out.

Efecto de rizobacterias promotoras de crecimiento vegetal solubilizadoras de fosfato en Lactuca sativa cultivar White Boston / Effect of plant growth promoting rhizobacteria phosate solubilizing Lactuca sativa cultivar White Boston

En las últimas décadas, la agricultura colombiana se ha visto afectada por la reducción de la productividad en las zonas hortícolas, el incremento de los costos de producción y la dependencia del uso de productos químicos, produciendo un daño irreversible al medio ambiente y la calidad de vida de productores y consumidores. El objetivo de investigación fue evaluar el efecto de rizobacterias promotoras del crecimiento vegetal del género Pseudomonas sp. sobre Lactuca sativa cultivar White Boston como solubilizadoras de roca fosfórica. El estudio se realizó en el Centro de Investigación Tibaitatá (Corpoica) ubicado en Mosquera (Cundinamarca-Colombia). Los resultados demostraron que las cepas tienen la capacidad intrínseca para solubilizar fuentes de fósforo de baja solubilidad como la roca fosfórica. La aplicación de inoculantes con base en las cepas: Pseudomonas fluorescens FR1, Pseudomonas sp., UVLO27 y Pseudomonas sp. LEAV18 arrojaron los mejores resultados. Las cepas Pseudomonas sp. FR2, UVLO27 y K35, tienen la capacidad de producir índoles y sideróforos. El experimento en invernadero evidenció que las cepas Pseudomonas fluorescens FR1, Pseudomonas sp. FR2 y UVLO27 incrementaron de manera significativa (P<0.05) la biomasa y el desarrollo de las plantas. El uso de rocas fosfóricas representa una alternativa económica y ecológica viable, en sistemas de agricultura sostenible.

In the last decades, Colombian agriculture has been affected by the reduction in productivity in horticultural areas, increase in production costs and the dependence of chemical products usage, causing and irreversible damage to environment and producers and consumers life quality. The aim of this research was to evaluate the effect of plant growth promoting rhizobacteria of the genus Pseudomonas sp. under Lactuca sativa cultivar White Boston as phosphate rock solubilizing bacteria. The study took place in the Research Centre Tibaitatá-Corpoica, located in Mosquera (Cundinamarca-Colombia). Results demonstrated that the strains have an intrinsic capacity to solubilize low solubility phosphorus sources as phosphate rock. Inoculants application based on: Pseudomonas fluorescensFR1, Pseudomonas sp., UVLO27 and Pseudomonas sp. LEAV18 strains displayed the best results. The strains Pseudomonas sp. FR2, UVLO27 and K35, are capable of producing indoles and siderophores. The green house experiment showd that strain Pseudomonas fluorescens FR1, Pseudomonas sp. FR2 of phosphate rocks represents a viable economic and ecological alternative in sustainable agriculture systems.

Optimization of the production of mycorrhizal inoculum on substrate with organic fertilizer

The system for production of inoculum of arbuscular mycorrhizal fungi (AMF) using sand and vermiculite irrigated with nutrient solution is promising. However, organic amendments added to the substrate can stimulate sporulation of AMF and replace the nutrient solution. The aim of this study was to maximize the production of AMF (Acaulospora longula, Claroideoglomus etunicatum, Dentiscutata heterogama and Gigaspora albida) using selected organic substrates (vermicompost, coir dust and Tropstrato) together with sand and vermiculite. The production of spores varied among the tested AMF and according to the organic source added to the substrate. The vermicompost promoted higher sporulation of A. longula in relation to the other AMF and substrates. The Tropstrato® inhibited the sporulation of D. heterogama while the reproduction of C. etunicatum was not affected by the organic compounds. The inoculum of A. longula also showed a high number of infective propagules and promoted biomass accumulation in maize plants. The system of inoculum production using sand and vermiculite + 10% vermicompost favors the production of infective inoculum of A. longula with the fungus benefiting growth of corn plants.

Atividade microbiana e produção da lavoura cafeeira após adubação com dejetos líquidos de suínos / Microbial activity and production of coffee crops after fertilization with pig slurry

Uma alternativa viável para a destinação dos dejetos líquidos de suínos (DLS) é a distribuição como biofertilizantes em solos cultivados, após um adequado tratamento. Este trabalho teve como objetivo avaliar as alterações nos atributos microbianos de um solo cultivado com café após aplicação de diferentes doses de dejetos líquidos de suínos tratados em sistema de lagoas de estabilização em série. O estudo foi realizado na Fazenda Yamaguchi em um Argissolo Vermelho Amarelo no município de Diamantina, Minas Gerais. Os tratamentos foram constituídos de aplicação de 0, 125, 250, 500 kg ha-1 N na forma de efluentes e 250 kg ha-1 de sulfato de amônia (convencional) em solo cultivado com café. As amostras de solo foram coletadas, na camada de 0-10 cm de profundidade, nas seguintes épocas: antes, 30, 60 e 90 dias após a adubação. Foram avaliados a produção do cafeeiro, a respiração basal e o carbono da biomassa microbiana, e determinado o quociente metabólico. As amostras de 60 e 90 dias após a adubação apresentou diferença em relação à amostra controle, favorecendo incrementos na biomassa e na atividade microbiana. Observa-se que a aplicação de 125 kg de N ha ano-1 ano-1 de DLS é a melhor dose, por apresentar produção significativamente equivalente à produtividade de grãos da dosagem de 250 kg de N ha ano-1 de SA. Desse modo, em longo prazo, as aplicações consecutivas de dejetos líquidos de suínos, em solo cultivado com café, tendem a melhorar os atributos microbianos do solo. Os DLS podem ser utilizados junto com a adubação convencional para a cultura do café.

A viable alternative for the disposal of pig slurry (DLS) is the distribution as biofertilizers in soils after a suitable treatment. This study aimed to evaluate the changes in microbial attributes of a soil cultivated with coffee after application of different doses of pig slurry treated in system stabilization ponds in series. The study was conducted at Fazenda Yamaguchi in a Alfissol in Diamantina, Minas Gerais. The treatments consisted of application of 0, 125, 250, 500 kg N ha-1 in the form of effluent and 250 kg ha-1 of ammonium sulfate (conventional) on soil cultivated with coffee. Soil samples were collected at 0-10 cm depth in the following periods: before, 30, 60 and 90 days after fertilization. The production of coffee, basal respiration and microbial biomass carbon and metabolic quotient determined. Samples 60 and 90 days after fertilization showed difference from the control sample, favoring increases in biomass and microbial activity. It is observed that the application of 125 kg N ha yr-1 yr-1 DLS is the best dose for presenting production significantly to grain yield equivalent dosage of 250 kg N ha-1 year of SA. Thus, in the long term, consecutive applications of pig slurry on soil cultivated with coffee, tend to improve soil microbial attributes. The DLS can be used along with conventional fertilization for growing coffee.

Solubilización de fosfatos: una función microbiana importante en el desarrollo vegetal / Solubilization of phosphates: an important microbial function in plant development

La agricultura es la base fundamental para la sostenibilidad de la seguridad alimentaria en el planeta, ya que representa la principal fuente de alimento y hace parte de la economía de los países en desarrollo. Sin embargo en la actualidad la demanda de alimento es mayor y existe la necesidad de agilizar el crecimiento vegetal para suplir las necesidades de la población y disminuir los índices de desnutrición y hambre, pero para ello se utilizan prácticas agrícolas como la aplicación de fertilizantes químicos que afectan significativamente el medio ambiente y los ecosistemas del suelo. En busca de encontrar soluciones, en los últimos años se han desarrollado estrategias alternativas para reemplazar los fertilizantes. Los microorganismos han demostrado cumplir funciones que mantienen el equilibrio del suelo y apoyan el crecimiento vegetal mediante diversos mecanismos, entre ellos la solubilización de fosfatos, por el cual se logra liberar el ion fosfato accesible para la planta. Este elemento se encuentra limitado en el suelo y es un nutriente vital después del nitrógeno para el desarrollo de la planta. El género Bacillus se ha destacado como un potencial solubilizador de fosfato y puede ser utilizado como biofertilizante que va a permitir obtener un producto agrícola de calidad y sin generar consecuencias al ambiente.

Agriculture is the fundamental basis for the sustainability of food security on the planet, since it represents the main source of food and is part of the economy of developing countries. At the present time, however, the demand for food is greater and there is the need to speed up plant growth to meet the needs of the population and to reduce rates of malnutrition and hunger, but this is used for agricultural practices as the application of chemical fertilizers which significantly affect the environment and the ecosystems of the soil. In hopes of finding solutions, alternative strategies to replace fertilizers have been developed in recent years. The microorganisms have demonstrated compliance functions that keep the balance of the soil and support plant growth through a variety of mechanisms, including the solubilization of phosphates, which can succeed in freeing the phosphate ion accessible for the plant. This item is limited in the soil and is a vital nutrient after the nitrogen for the growth of the plant. The genus Bacillus has been highlighted as a potential solubilizer phosphate and can be used as biofertilizer that will enable them to obtain a quality agricultural product, without generating consequences to the environment.