Efecto biofertilizante del preparado: residuos vegetales - bacteria nativa diazótrofa, sobre las variables biométricas en plántulas de Rhapanus sativus / Biofertilizer effect of the prepared from vegetales wastes - diazotroph native bacterium on biometrics variables of Rhapanus sativus seedlings

El uso de bioinoculantes a base de microorganismos con potencial biofertilizante representa una alternativa económicamente viable y de producción limpia para el sector agrícola. El objetivo del presente trabajo fue evaluar el efecto biofertilizante de un preparado elaborado con residuos sólidos vegetales (RSV) procedentes del mercado y la bacteria nativa diazótrofa Azotobacter A15M2G. Se elaboraron biopreparados utilizando diferentes concentraciones de bacteria (106, 107 y 108 UFC) en un medio de cultivo obtenido a partir del 25% p/v de cada uno de los siguientes RSV: Brassica oleracea (repollo), Lactuca sativa (lechuga) y Allium fistulosum (cebollín). Los biopreparados fueron evaluados en plantas de rábano (Rhapanus sativus) en invernadero, utilizando un diseño estadístico completamente al azar de 5 tratamientos con 3 repeticiones: T1, control; T2, semillas pregerminadas tratadas con RSV al 25% p/v; T3, semillas pregerminadas con bioinoculante de 106 UFC; T4, semillas pregerminadas con bioinoculante de 107 UFC; T5, semillas pregerminadas con bioinoculante de 108 UFC. Se evaluó: número de hojas, área foliar, longitud de la planta, longitud de la raíz y peso seco de toda la planta (ensayos por triplicado). Se observó un incremento altamente significativo en peso seco para T5 (0,88 g) y T4 (1,10 g); y diferencias significativas en el área foliar, para los mismos tratamientos, con un valor superior a 2000 cm2. El biopreparado con bacterias nativas y RSV mejoró el crecimiento y desarrollo de las plantas de rábano, pudiéndose dar un valor agregado a estos residuos y de esta manera obtener un biofertilizante potencialmente utilizable en otros cultivos.

The use of bioinoculantes from microorganisms with biofertilizer potential, represents an economically viable alternative and of clean production for the agricultural sector. The aim of this study was to evaluate the effect of biofertilizer preparation obtained from vegetable solid waste (RSV) of the market and the native bacteria Azotobacter A15M2G diazotroph.Biological cultures were prepared using different inoculum concentrations, 106, 107 y 108 UFC in a culture medium obtained from 25% w / v of each of the following substrates: Brassica oleracea (cabbage), Lactuca sativa (lettuce) and Allium fistulosum (chives). The microbial inoculants were evaluated in radish plants (Rhapanus sativus) in greenhouse using a completely randomized design of 5 treatments with 3 replicates: T1, pre-germinated seeds without any treatment; T2, pre-germinated seeds treated with the dye waste vegetables 25% w / v; T3, pre-germinated seeds treated with bacterial concentration bioinoculants to 106 UFC; T4, pre-germinated seeds treated with bacterial concentration bioinoculants to 107 UFC, and T5, pre-germinated seeds treated with bacterial concentration bioinoculants to 108 UFC. Assessed variables were: number of leaves, leaf area, plant length, root length and dry weight of the entire plant (all assays in triplicate). The results showed a highly significant increase in dry weight, for T5 (0.88 g) and T4(1.10 g); and significant differences in leaf area for the same treatments, with a value greater than 2000 cm2, compared to others. The biopreparado from native bacteria and RSV improved the growth and development of the radish plants, being able to give a added value to these residues and to obtain a potentially usable biofertilizer in other cultures.

Growth and yield responses of tomato [lycopersicon esculentum] grown under soilless cultivation to application of azospirillum, azotobacter and nitrogen

THIS STUDY was undertaken to investigate the possibility of using Azospirillum bras/lease and Azotobacter chroococcum applied with inorganic nitrogen to enhance tomato [Lycopersicon escnlentum, Mill] production in soilless systems. The effect of inoculation with A. brasilense and / or Azoto. chroococcum with the application of 75% [of the recommended dose] of N[2] on certain tomato growth parameters [shoot height, number of leaves, and fresh and dry weights of plants] after 30, 60 and 90 days of transplanting were determined. In addition, total yield, mean fruit weight and number of fruits per plant were evaluated in plants inoculated with the two bacteria [separately or in combination] with 75% N[2], and plants inoculated with 75% N[2] [control 1] and 100% N[2] [control 2], Plants inoculated with a mixed inoculum of A. bras/lease and Azoto. chroococcum with 75% N[2] gave the highest values of the growth parameters tested while plants inoculated with 75% N[2] [control 1] gave the lowest. The same treatment also resulted in the highest tomato yield, mean weight and number of fruits per plant followed by plants treated with A. brasilense and 75% N[2]. The responses to the tested biofertilizers on nitrogen, phosphorous and potassium [NPK] uptake, population of diazotrophic bacteria and nitrogenase and dehydrogenase activity of the tested bacteria on the rhizosphere of tomato showed that the mixed inoculum of A. brasilense and Azoto. chroococcum with 75% N[2] gave the highest NPK uptake levels after 30, 60 and 90 days of transplanting. The same treatment gave the highest population of diazotrophic bacteria and dehydrogenase and nitrogenase activity of the tested bacteria compared with the plants inoculated with a single organism or controls. In contrast, control 1 gave the least values among all treatments. This study shows that inoculation of tomato plants with Azospirillum brasilense and Azolobacter chroococcum have a significantly beneficial effect on tomato yield under soilless cultivation

Fatty acids in an estuarine mangrove ecosystem

Fatty acids have been successfully used to trace the transfer of organic matter in coastal and estuarine food webs. To delineate these web connections, fatty acid profiles were analyzed in species of microbes (Azotobacter vinelandii, and Lactobacillus xylosus), prawns (Metapenaeus monoceros and Macrobrachium rosenbergii) and finfish (Mugil cephalus), that are associated with decomposing leaves of two mangrove species, Rhizophora apiculata and Avicennia marina. The fatty acids, except long chain fatty acids, exhibit changes during decomposition of mangrove leaves with a reduction of saturated fatty acids and an increase of monounsaturated fatty acids. The branched fatty acids are absent in undecomposed mangrove leaves, but present significantly in the decomposed leaves and in prawns and finfish, representing an important source for them. This revealed that the microbes are dominant producers that contribute significantly to the fishes and prawns in the mangrove ecosystem. This work has proved the fatty acid biomarkers as an effective tool for identifying the trophic interactions among dominant producers and consumers in this mangrove. Rev. Biol. Trop. 58 (2): 577-587. Epub 2010 June 02.

Los ácidos grasos se han utilizado con éxito para estudiar la transferencia de materia orgánica en las redes alimentarias costeras y estuarinas. Para delinear las interacciones tróficas en las redes, se analizaron perfiles de ácidos grasos en las especies de microbios (Azotobacter vinelandii y Lactobacillus xylosus), camarones (Metapenaeus monoceros y Macrobrachium rosenbergii) y peces (Mugil cephalus), que están asociadas con la descomposición de las hojas de dos especies de mangle, Rhizophora apiculata y Avicennia marina. Los ácidos grasos, con excepción de los de cadena larga, exhiben cambios durante la descomposición de las hojas de mangle, con una reducción de los ácidos grasos saturados y un aumento de los monoinsaturados. Los ácidos grasos ramificados están ausentes en las hojas de mangle sin descomponer, pero presentes de manera significativa en las hojas descompuestas, en camarones y peces, representando una fuente importante para ellos. Esto revela que los microbios son productores dominantes que contribuyen significativamente con los peces y camarones en el ecosistema de manglar. Este trabajo demuestra que los marcadores biológicos de los ácidos grasos son una herramienta eficaz para la identificación de las interacciones tróficas entre los productores dominantes y consumidores en este manglar.