RESUMO
Strawberry cultivation requires strategies that maintain or improve its yield within a scheme in which reducing fertilizers and other chemical products can make its consumption safer and more environmentally friendly. This study aims to evaluate the effect of Bacillus subtilis and Rhizophagus intraradices on strawberry growth, yield, and fruit quality. B. subtilis and R. intraradices were inoculated and co-inoculated under three fertilization levels of 225-100-250, 112-50-125, and 0-0-0 kgâha-1 of N, P2O5 and K2O. Vegetative growth was evaluated in plant height (cm), leaf area (cm2), aerial fresh weight (g), aerial dry weight (g), and plant coverage (%) variables. Fruit quality parameters such as total acidity (gâ100 mL-1), soluble solids (Brix°), and firmness (kg) were also determined, as well as the number of fruits per m2 and yield (tâha-1). The results showed that the pre-treatment of root immersion in a nutrient solution with B. subtilis and the fractionation of 6 L B. subtilis inoculation per plant at a concentration of 107 CFUâmL-1, in combination with 225-100-250 kgâha-1 of N, P2O5, and K2O, achieved the highest accumulation of dry matter (12.9 ± 1.9 gâplant-1), the highest number of fruits (28.2 ± 4.5 fruitsâm-2), and the highest yield (7.2 ± 1.4 tâha-1). In addition, this treatment increased the soluble sugar content by 34.78% and fruit firmness by 26.54% compared to the control without inoculation. This study highlights the synergistic effect of mineral nutrition and microbial inoculation with B. subtilis in increasing strawberry yield and fruit quality.
RESUMO
The use of plant-associated microorganisms is increasingly being investigated as a key tool for mitigating the impact of biotic and abiotic threats to crops and facilitating migration to sustainable agricultural practices. The microbiome is responsible for several functions in agroecosystems, such as the transformation of organic matter, nutrient cycling, and plant/pathogen growth regulation. As climate change and global warming are altering the dynamics of plant-microbial interactions in the ecosystem, it has become essential to perform comprehensive studies to decipher current and future microbial interactions, as their useful symbiotic mechanisms could be better exploited to achieve sustainable agriculture. This will allow for the development of effective microbial inoculants that facilitate nutrient supply for the plant at its minimal energy expense, thus increasing its resilience to biotic and abiotic stresses. This article collection aims to compile state-of-the-art research focused on the elucidation and optimization of symbiotic relationships between crops and their associated microbes. The information presented here will contribute to the development of next-generation microbial inoculants for achieving a more sustainable agriculture.
Assuntos
Microbiota , Simbiose , Produtos Agrícolas , Agricultura , Mudança ClimáticaRESUMO
In this study, we analyzed the hypothesis that the combination of Nitrospirillum amazonense strain BR11145 with biological fertilizer prepared using Microgeo® and native microbiome from location of the product application results in morphological and nutritional gains for the initial development of sugarcane plants and soil chemistry. For this purpose, pre-sprouted sugarcane seedlings were grown in a greenhouse mesocosm experiment using soil amended with nitrogen/phosphorus/potassium fertilizer. The experimental treatments consisted of: 1) biological fertilizer with the addition of N. amazonense (100 mL ha-1), 2) biological fertilizer without the addition of N. amazonense, 3) inoculation with N. amazonense at a dose of 100 mL ha-1 with 2x108 viable cell mL-1, 4) inoculation with N. amazonense at a dose of 200 mL ha-1 with 2x108 viable cell mL-1, and 5) control, without the addition of biological fertilizer and N. amazonense. The biological fertilizer was applied at dose of 300 L ha-1, which was split at planting (200 L ha-1) and in the post-emergence phase (100 L ha-1). After 164 days of planting, it was detected an increase in leaf length +3, number of green leaves, leaf area and sulfur content in the leaves of sugarcane plants that received the biological fertilizer with the addition of N. amazonense. In conclusion, the combination of N. amazonense with biological fertilizer revealed positive effects through morphological and nutritional characteristics in sugarcane plants during their early stages of development when compared to plants grown only with the inoculation of N. amazonense, biological fertilizer or mineral fertilizers, with few notable positive effects on soil chemistry.
Neste estudo avaliou-se a hipótese de que a combinação de Nitrospirillum amazonense estirpe BR11145 com adubo biológico preparado com base em microbioma autóctone da localidade de aplicação do produto, produzido com Microgeo®, resulta em benefícios morfológicos e nutricionais para o desenvolvimento inicial de plantas de cana-de-açúcar e para a química do solo. Para tanto, mudas pré-brotadas de cana-de-açúcar foram crescidas em mesocosmos num experimento conduzido em casa-de-vegetação com solo enriquecido com fertilizante à base de nitrogênio/fósforo/potássio. Os tratamentos avaliados foram: 1) adubo biológico acrescido de N. amazonense (100 mL ha-1), 2) adubo biológico sem o acréscimo de N. amazonense, 3) inoculação de N. amazonense na dose de 100 mL ha-1 (2x108 células viáveis por mL), 4) inoculação de N. amazonense na dose de 200 mL ha-1 (2x108 células viáveis por mL), e 5) testemunha, sem a adição de fertilizante biológico e N. amazonense. O adubo biológico foi aplicado na dose de 300 L ha-1 sendo esta parcelada no plantio (200 L ha-1) e na fase de pós-emergência (100 L ha-1). Após 164 dias do plantio constatou-se aumento no comprimento da folha +3, número de folhas verdes, área foliar e no teor de enxofre nas folhas das plantas de cana-de-açúcar que receberam o adubo biológico combinado com N. amazonense. Conclui-se que a combinação de N. amazonense com o adubo biológico produzido com Microgeo® revelou efeitos positivos por meio de caraterísticas morfológicas e nutricionais em plantas de cana-de-açúcar durante os seus estádios iniciais de desenvolvimento quando comparadas com plantas crescidas apenas com a inoculação de N. amazonense, fertilizante biológico ou fertilizantes minerais, com poucos efeitos positivos notáveis na química do solo.
Assuntos
Saccharum/crescimento & desenvolvimento , Desenvolvimento Vegetal , Bactérias Fixadoras de NitrogênioRESUMO
The use of Bacillus as biofertilizer is a sustainable strategy to increase agricultural productivity, but it still requires the development of formulations to protect cells from stressful conditions. Ionotropic gelation using a pectin/starch matrix is a promising encapsulation strategy to achieve this goal. By incorporating additives such as montmorillonite (MMT), attapulgite (ATP), polyethylene glycol (PEG), and carboxymethyl cellulose (CMC), the properties of these encapsulated products could be further improved. In this study, we investigated the influence of these additives on the properties of pectin/starch-based beads for the encapsulation of Bacillus subtilis. FTIR analysis indicated pectin and Ca2+ ions interactions, while the XRD showed good dispersion of clays in the materials. SEM and X-ray microtomography revealed differences in the morphology of the beads due to the use of the additives. The viabilities at the encapsulation were higher than 1010 CFU g-1 for all formulations, with differences in the release profiles. In terms of cell protection, the pectin/starch, pectin/starch-MMT and pectin/starch-CMC formulations showed the highest cell viability after exposure to fungicide, while the pectin/starch-ATP beads showed the best performance after UV exposure. Moreover, all formulations maintained more than 109 CFU g-1 after six months of storage, which meets values required for microbial inoculants.
Assuntos
Bacillus subtilis , Pectinas , Amido , Portadores de Fármacos , Trifosfato de AdenosinaRESUMO
Inoculation with phosphate-solubilizing bacteria (PSB) and the application of phosphorus (P) sources can improve soil P availability, enhancing the sustainability and efficiency of agricultural systems. The implementation of this technology in perennial grasses, such as Kikuyu grass, for cattle feed in soils with high P retention, such as Andisols, has been little explored. The objective of this study was to evaluate the productive response of Kikuyu grass and soil P dynamics to BSF inoculation with different P sources. The experiment was conducted on a Kikuyu pasture, which was evaluated for 18 months (September 2020 to March 2022). Three P fertilizers with different solubility levels were applied: diammonium phosphate (DAP) (high-solubility), rock phosphate (RP), and compost (OM) (low-solubility). Moreover, the inoculation of a PSB consortium (Azospirillum brasilense D7, Rhizobium leguminosarum T88 and Herbaspirillum sp. AP21) was tested. Inoculation with PSB and fertilization with rock phosphate (RP) increased soil labile P and acid phosphomonoesterase activity. Increased grass yield and quality were related with higher soil inorganic P (Pi) availability. This study validated, under field conditions, the benefits of PSB inoculation for soil P availability and Kikuyu grass productivity.
RESUMO
Increasing phosphorus (P) use efficiency in agricultural systems is urgent and essential to significantly reduce the global demand for this nutrient. Applying phosphate-solubilizing and plant growth-promoting bacteria in the rhizosphere represents a strategy worthy of attention. In this context, the present work aimed to select and validate bacterial strains capable of solubilizing phosphorous and promoting maize growth, aiming to develop a microbial inoculant to be used in Brazilian agriculture. Bacterial strains from the maize rhizosphere were evaluated based on their ability to solubilize phosphate and produce indole acetic acid. Based on these characteristics, 24 strains were selected to be further evaluated under laboratory, greenhouse, and field conditions. Among the selected strains, four (I04, I12, I13, and I17) showed a high potential to increase maize root growth and shoot P content. Strains I13 (Ag87) and I17 (Ag94) were identified by genomic sequencing as Bacillus megaterium and Lysinibacillus sp., respectively. These strains presented superior yield increments relative to the control treatment with 30% P. In addition, combining Ag87 and Ag94 resulted in even higher yield gains, indicating a synergistic effect that could be harnessed in a commercial inoculant for Brazilian agriculture.
RESUMO
Background: No studies have been conducted evaluating sugarcane silage associated with both Lactobacillus plantarum and Pediococcus pentosaceus for lactating dairy cows. Objective: To evaluate diets containing different roughages with and without microbial inoculants on intake, digestibility and milk yield of medium-producing cows. Methods: A total of 15 Holstein cows distributed into a randomized block design were used. Dietary treatments were: 1) a corn silage-based diet (CS), 2) a fresh sugarcane-based diet (SC), 3) a sugarcane silage ensiled without inoculant (SS), 4) sugarcane silage ensiled with Lactobacillus buchneri (SSLB), and 5) sugarcane silage ensiled with Lactobacillus plantarum and Pediococcus pentosaceus (SSLP). Results: Digestible organic matter intake (DOMI) was lower (p<0.05) in cows fed SSLB (9.77 kg day-1) when compared with cows fed CS (13.29 kg day-1) and SSLP (12.42 kg day-1). Ensiling of sugarcane increased intake of neutral detergent fiber (NDF) compared to SC (mean of 6.00 kg day-1 versus 4.97 kg day-1; p<0.05). Dry matter digestibility was greater (p<0.05) in CS (77.80%) compared with diets based on sugarcane silage, whereas NDF digestibility was lower for treatments with sugarcane (p<0.05). Milk yield was similar among CS (27.99 kg), SC (25.59 kg), and silages with additives (25.47 and 27.07 for SSLB and SSLP, respectively). Cows fed CS produced more fat-corrected milk (25.89 kg) than those fed sugarcane-based diets (p<0.05). Conclusions: Fresh sugarcane or sugarcane silage with additives can be used as a roughage source for dairy cows producing up to 23.43 kg d-1 fat-corrected milk, considering the total diet is properly balanced.
Antecedentes: No existen estudios que evalúen la adición de Lactobacillus plantarum y Pediococcus pentosaceus en el ensilaje de caña de azúcar para vacas lactantes. Objetivo: Evaluar dietas con diferentes forrajes y ensilajes con y sin inoculantes microbianos sobre el consumo, digestibilidad y producción lactea de vacas de mediana producción. Metodología: Quince vacas Holstein se distribuyeron en un diseño de bloques al azar. Los tratamientos fueron: 1) dieta con ensilaje de maíz (CS), 2) dieta con caña de azúcar fresca (SC), 3) dieta con ensilaje de caña sin inoculantes (SS), 4) dieta con ensilaje de caña de azúcar ensilada con Lactobacillus buchneri (SSLB), y 5) dieta con ensilaje de caña de azúcar ensilada con Lactobacillus plantarum y Pediococcus pentosaceus (SSLP). Resultados: El consumo de materia orgánica digestible fue menor (p<0,05) en la dieta SSLB (9,77 kg day-1) en comparación con CS (13,29 kg dia-1) y SSLP (12,42 kg dia-1). El ensilaje de caña de azúcar promovió un mayor consumo de fibra detergente neutra (NDF) en comparación con SC (promedio de 6,00 kg dia-1 versus 4,97 kg dia-1; p<0,05). La digestibilidad de la materia seca fue mayor (p<0,05) para la dieta CS (77,80%) en comparación con las dietas con ensilaje de caña de azúcar, mientras que la digestibilidad de la NDF fue menor para las dietas a base de caña de azúcar (p<0,05). La producción de leche fue similar entre CS (27,99 kg), SC (25,59 kg) y ensilajes con aditivos (25,47 y 27,07 para SSLB y SSLP, respectivamente). Las vacas alimentadas con ensilaje de maíz produjeron más leche corregida por grasa (25,89 kg) que las alimentadas con dietas a base de caña de azúcar (p<0,05). Conclusión: La caña de azúcar fresca o ensilada con aditivos se puede utilizar como fuente de forraje para vacas que producen hasta 23,43 kg d-1 leche corregida por grasa, siempre que la dieta total esté equilibrada adecuadamente.
Antecedentes: Há carência de estudos avaliando a adição de Lactobacillus plantarum e Pediococcus pentosaceus na silagem de cana-de-açúcar para vacas em lactação. Objetivo: Avaliar dietas contendo diferentes forragens e silagens com e sem inoculantes microbianos sobre o consumo, digestibilidade e produção de leite de vacas de média produção de leite. Métodos: Quinze vacas Holandesas foram distribuídas em um delineamento em blocos casualizados. Os tratamentos foram: 1) dieta com silagem de milho (CS), 2) dieta com cana-de-açúcar fresca (SC), 3) dieta com silagem de cana ensilada sem inoculantes (SS), 4) dieta com silagem de cana-de-açúcar ensilada com Lactobacillus buchneri (SSLB), ou 5) dieta com silagem de cana- de-açúcar ensilada com Lactobacillus plantarum, and Pediococcus pentosaceus (SSLP). Resultados: O consumo de matéria orgânica digestível foi menor (p<0,05) na dieta SSLB (9,77 kg day-1) comparada com CS (13,29 kg dia-1) e SSLP (12,42 kg dia-1). A ensilagem da cana-de-açúcar promoveu maior consumo de fibra em detergente neutro (FDN) em comparação com SC (média de 6,00 kg dia-1 versus 4.97 kg dia-1; p<0.05). A digestibilidade da matéria seca foi maior (p<0,05) para a dieta CS (77,80%) comparada com as dietas com silagem de cana-de-açúcar, enquanto que a digestibilidade da FDN foi menor para as dietas baseadas em cana-de-açúcar (p<0,05). A produção de leite foi similar entre CS (27,99 kg), SC (25,59 kg) e silagens com aditivos (25,47 e 27,07 para SSLB e SSLP, respectivamente). Vacas alimentadas com silagem de milho produziram mais leite corrigido para gordura (25,89 kg) que aquelas alimentadas com dietas baseadas em cana-de-açúcar (p<0,05). Conclusão: A cana-de-açúcar fresca ou ensilada com aditivos pode ser utilizada como fonte volumosa para vacas produzindo até 23,43 kg d-1 leite corrigido para gordura, desde que a dieta total esteja apropriadamente balanceada.
RESUMO
Usage of Bacillus and Azospirillum as new eco-friendly microbial consortium inoculants is a promising strategy to increase plant growth and crop yield by improving nutrient availability in agricultural sustainable systems. In this study, we designed a multispecies inoculum containing B. thuringiensis (strain B116), B. subtillis (strain B2084) and Azospirillum sp. (strains A1626 and A2142) to investigate their individual or co-inoculated ability to solubilize and mineralize phosphate, produce indole acetic acid (IAA) and their effect on maize growth promotion in hydroponics and in a non-sterile soil. All strains showed significant IAA production, P mineralization (sodium phytate) and Ca-P, Fe-P (tricalcium phosphate and iron phosphate, respectively) solubilization. In hydroponics, co-inoculation with A1626 x A2142, B2084 x A2142, B2084 x A1626 resulted in higher root total length, total surface area, and surface area of roots with diameter between 0 and 1 mm than other treatments with single inoculant, except B2084. In a greenhouse experiment, maize inoculated with the two Azospirillum strains exhibited enhanced shoot dry weight, shoot P and K content, root dry weight, root N and K content and acid and alkaline phosphatase activities than the other treatments. There was a significant correlation between soil P and P shoot, alkaline phosphatase and P shoot and between acid phosphatase and root dry weight. It may be concluded that co-inoculations are most effective than single inoculants strains, mainly between two selected Azospirillum strains. Thus, they could have synergistic interactions during maize growth, and be useful in the formulation of new inoculants to improve the tropical cropping systems sustainability.
Assuntos
Azospirillum , Bacillus , Nutrientes , Raízes de Plantas , Microbiologia do Solo , Zea maysRESUMO
Azospirillum-based plant and soil inoculants are widely used in agriculture. The inoculated Azospirillum strains are commonly tracked by both culture-dependent and culture-independent methods, which are time-consuming or expensive. In this context, clustered regularly interspaced short palindromic repeats (CRISPR) loci structure is unique in the bacterial genome, including some Azospirillum species. Here, we investigated the use of CRISPR loci to track specific Azospirillum strains in soils systems by PCR. Primer sets for Azospirillum sp. strain B510 were designed and evaluated by colony and endpoint PCR. The CRISPRloci-PCR approach was standardized for Azospirillum sp. strain B510, and its specificity was observed by testing against 9 different Azospirillum strains, and 38 strains of diverse bacterial genera isolated from wheat plants. The CRISPRloci-PCR approach was validated in assays with substrate and wheat seedlings. Azospirillum sp. strain B510 was detected after of two weeks of inoculation in both sterile and nonsterile substrates as well as rhizosphere grown in sterile substrate. The CRISPRloci-PCR approach was found to be a useful molecular tool for specific tracking of Azospirillum at the strain level. This technique can be easily adapted to other microbial inoculants carrying CRISPR loci and can be used to complement other microbiological techniques.
RESUMO
The use of intensive non-sustainable agricultural practices for satisfying global food demand is degrading the agro-ecosystems, leading to their inability to produce efficient and equitable sources of calories. Microbial communities play an important role in the improvement of soil fertility and plant development; thus, the genetic and metabolic diversity of microbiota in agro-ecosystems is a promising alternative for designing microbial inoculants to not only produce enough food but also mitigates the economic, health, social, and environmental issues caused by conventional agriculture. This Special Issue has been launched to compile and inspire high-impact recent advancements on bioprospecting beneficial microorganisms as a sustainable strategy to warranty global food security.
RESUMO
Abstract We aimed to verify the changes in the microbial community during bioremediation of gasoline-contaminated soil. Microbial inoculants were produced from successive additions of gasoline to municipal solid waste compost (MSWC) previously fertilized with nitrogen-phosphorous. To obtain Inoculant A, fertilized MSWC was amended with gasoline every 3 days during 18 days. Inoculant B received the same application, but at every 6 days. Inoculant C included MSWC fertilized with N–P, but no gasoline. The inoculants were applied to gasoline-contaminated soil at 10, 30, or 50 g/kg. Mineralization of gasoline hydrocarbons in soil was evaluated by respirometric analysis. The viability of the inoculants was evaluated after 103 days of storage under refrigeration or room temperature. The relative proportions of microbial groups in the inoculants and soil were evaluated by FAME. The dose of 50 g/kg of inoculants A and B led to the largest CO2 emission from soil. CO2 emissions in treatments with inoculant C were inversely proportional to the dose of inoculant. Heterotrophic bacterial counts were greater in soil treated with inoculants A and B. The application of inoculants decreased the proportion of actinobacteria and increased of Gram-negative bacteria. Decline in the density of heterotrophic bacteria in inoculants occurred after storage. This reduction was bigger in inoculants stored at room temperature. The application of stored inoculants in gasoline-contaminated soil resulted in a CO2 emission twice bigger than that observed in uninoculated soil. We concluded that MSWC is an effective material for the production of microbial inoculants for the bioremediation of gasoline-contaminated soil.
Assuntos
Microbiologia do Solo , Poluentes do Solo/metabolismo , Gasolina , Carcinógenos Ambientais/metabolismo , Biota/efeitos dos fármacos , Biodegradação Ambiental , Dióxido de Carbono/análise , Carga Bacteriana , Hidrocarbonetos/análiseRESUMO
We aimed to verify the changes in the microbial community during bioremediation of gasoline-contaminated soil. Microbial inoculants were produced from successive additions of gasoline to municipal solid waste compost (MSWC) previously fertilized with nitrogen-phosphorous. To obtain Inoculant A, fertilized MSWC was amended with gasoline every 3 days during 18 days. Inoculant B received the same application, but at every 6 days. Inoculant C included MSWC fertilized with NP, but no gasoline. The inoculants were applied to gasoline-contaminated soil at 10, 30, or 50 g/kg. Mineralization of gasoline hydrocarbons in soil was evaluated by respirometric analysis. The viability of the inoculants was evaluated after 103 days of storage under refrigeration or room temperature. The relative proportions of microbial groups in the inoculants and soil were evaluated by FAME. The dose of 50 g/kg of inoculants A and B led to the largest CO2 emission from soil. CO2 emissions in treatments with inoculant C were inversely proportional to the dose of inoculant. Heterotrophic bacterial counts were greater in soil treated with inoculants A and B. The application of inoculants decreased the proportion of actinobacteria and increased of Gram-negative bacteria. Decline in the density of heterotrophic bacteria in inoculants occurred after storage. This reduction was bigger in inoculants stored at room temperature. The application of stored inoculants in gasoline-contaminated soil resulted in a CO2 emission twice bigger than that observed in uninoculated soil. We concluded that MSWC is an effective material for the production of microbial inoculants for the bioremediation of gasoline-contaminated soil.(AU)
Assuntos
Solo , Microbiologia do Solo , Gasolina , Hidrocarbonetos , Recuperação e Remediação AmbientalRESUMO
Plant growth-promoting rhizobacteria (PGPR) are studied as complements/alternatives to chemical fertilizers used in agriculture. However, poor information exists on the potential of PGPR from undisturbed ecosystems. Here, we have evaluated the plant growth-promoting (PGP) effect of rhizobacterial consortia from undisturbed Chilean arid ecosystems (Consortium C1) and agro-ecosystems (Consortium C2) on plant biomass production. The PGP effects of C1 and C2 were assayed in wheat seedlings (Triticum aestivum L.) grown in pots under growth chamber conditions and in pots placed in an open greenhouse under natural conditions, using two different Chilean Andisols (Piedras Negras and Freire series) kept either at 30 or 60% of their maximum water holding capacity (MWHC). PGP effects depended on the soil type, MWHC and the growth conditions tested. Although both consortia showed PGB effects in artificial soils relative to controls in growth chambers, only C1 provoked a PGP effect at 60% MWHC in phosphorus-poor soil of the 'Piedras Negras' series. At natural conditions, however, only C1 exhibited statistically significant PGP effects at 30% MWHC in 'Piedras Negras', yet and most importantly allowed to maintain similar plant biomass as at 60% MWHC. Our results support possible applications of rhizobacterial consortia from arid ecosystems to improve wheat growth in Chilean Andisols under water shortage conditions. SIGNIFICANCE AND IMPACT OF THE STUDY: Wheat seedling inoculated with rhizobacterial consortia obtained from an undisturbed Chilean arid ecosystem showed improved growth in phosphorus-poor and partly dry soil. Arid ecosystems should be considered in further studies as an alternative source of microbial inoculants for agro-ecosystems subjected to stressful conditions by low nutrients and/or adverse climate events.
Assuntos
Consórcios Microbianos , Fósforo/análise , Rhizobium/metabolismo , Microbiologia do Solo , Triticum/crescimento & desenvolvimento , Triticum/microbiologia , Agricultura/métodos , Secas , Ecossistema , Desenvolvimento Vegetal/fisiologia , Plântula/crescimento & desenvolvimento , Plântula/microbiologia , Solo/químicaRESUMO
We aimed to verify the changes in the microbial community during bioremediation of gasoline-contaminated soil. Microbial inoculants were produced from successive additions of gasoline to municipal solid waste compost (MSWC) previously fertilized with nitrogen-phosphorous. To obtain Inoculant A, fertilized MSWC was amended with gasoline every 3 days during 18 days. Inoculant B received the same application, but at every 6 days. Inoculant C included MSWC fertilized with N-P, but no gasoline. The inoculants were applied to gasoline-contaminated soil at 10, 30, or 50g/kg. Mineralization of gasoline hydrocarbons in soil was evaluated by respirometric analysis. The viability of the inoculants was evaluated after 103 days of storage under refrigeration or room temperature. The relative proportions of microbial groups in the inoculants and soil were evaluated by FAME. The dose of 50g/kg of inoculants A and B led to the largest CO2 emission from soil. CO2 emissions in treatments with inoculant C were inversely proportional to the dose of inoculant. Heterotrophic bacterial counts were greater in soil treated with inoculants A and B. The application of inoculants decreased the proportion of actinobacteria and increased of Gram-negative bacteria. Decline in the density of heterotrophic bacteria in inoculants occurred after storage. This reduction was bigger in inoculants stored at room temperature. The application of stored inoculants in gasoline-contaminated soil resulted in a CO2 emission twice bigger than that observed in uninoculated soil. We concluded that MSWC is an effective material for the production of microbial inoculants for the bioremediation of gasoline-contaminated soil.
Assuntos
Biota/efeitos dos fármacos , Carcinógenos Ambientais/metabolismo , Gasolina , Microbiologia do Solo , Poluentes do Solo/metabolismo , Carga Bacteriana , Biodegradação Ambiental , Dióxido de Carbono/análise , Hidrocarbonetos/análiseRESUMO
Las cactáceas son la vegetación característica de las zonas áridas en México, donde las lluvias son escasas, la evapotranspiración es elevada y la fertilidad de los suelos es baja. Las plantas han desarrollado estrategias fisiológicas como la asociación con microorganismos en la zona de la rizósfera para incrementar la captación de nutrientes. En el presente trabajo se obtuvieron 4 aislados bacterianos de la rizósfera de Mammillaria magnimamma y Coryphantha radians, los que fueron nombrados como QAP3, QAP19, QAP22 y QAP24 e identificados genéticamente como pertenecientes al género Bacillus. Estos aislados exhibieron in vitro propiedades bioquímicas como solubilización de fosfatos, producción de ácido indolacético y actividad ACC deaminasa, que se relacionan con la promoción del crecimiento de las plantas. Dicha promoción fue ensayada inoculando semillas de M. magnimamma y evaluando luego algunos parámetros. Se encontró que todos los aislados incrementaron la germinación desde un 17% hasta un 34,3% (con respecto a las semillas testigo sin inocular); el aislado QAP24 fue el que presentó el mayor efecto en este sentido y permitió la germinación de todas las semillas viables (84,7%) 3 días antes que en el testigo. La inoculación de este aislado en plantas de Mammillaria zeilmanniana mostró un efecto positivo sobre la floración: en 2 meses dentro del período de un año se detectó un incremento en el número de plantas en floración con respecto a las plantas testigo, de hasta el 31,0% en uno de ellos. Se concluye que los aislados de Bacillus spp. caracterizados poseen potencial para ser empleados en programas de conservación de especies vegetales de zonas áridas.
Cacti are the most representative vegetation of arid zones in Mexico where rainfall is scarce, evapotranspiration is high and soil fertility is low. Plants have developed physiological strategies such as the association with microorganisms in the rhizosphere zone to increase nutrient uptake. In the present work, four bacterial isolates from the rhizosphere of Mammillaria magnimamma and Coryphantha radians were obtained and named as QAP3, QAP19, QAP22 and QAP24, and were genetically identified as belonging to the genus Bacillus, exhibiting in vitro biochemical properties such as phosphate solubilization, indoleacetic acid production and ACC deaminase activity related to plant growth promotion, which was tested by inoculating M. magnimamma seeds. It was found that all isolates increased germination from 17 to 34.3% with respect to the uninoculated control seeds, being QAP24 the one having the greatest effect, accomplishing the germination of viable seeds (84.7%) three days before the control seeds. Subsequently, the inoculation of Mammillari zeilmanniana plants with this isolate showed a positive effect on bloom, registering during two months from a one year period, an increase of up to 31.0% in the number of flowering plants compared to control plants. The characterized Bacillus spp. isolates have potential to be used in conservation programs of plant species from arid zones.
Assuntos
Bacillus/isolamento & purificação , Bacillus/classificação , Adaptação Biológica/fisiologia , Conservação dos Recursos Naturais/métodos , Cactaceae/microbiologia , Rizosfera , Inoculantes Agrícolas/crescimento & desenvolvimento , Germinação/efeitos dos fármacos , Flores/efeitos dos fármacos , Padrões de Referência/métodosRESUMO
Cacti are the most representative vegetation of arid zones in Mexico where rainfall is scarce, evapotranspiration is high and soil fertility is low. Plants have developed physiological strategies such as the association with microorganisms in the rhizosphere zone to increase nutrient uptake. In the present work, four bacterial isolates from the rhizosphere of Mammillaria magnimamma and Coryphantha radians were obtained and named as QAP3, QAP19, QAP22 and QAP24, and were genetically identified as belonging to the genus Bacillus, exhibiting in vitro biochemical properties such as phosphate solubilization, indoleacetic acid production and ACC deaminase activity related to plant growth promotion, which was tested by inoculating M. magnimamma seeds. It was found that all isolates increased germination from 17 to 34.3% with respect to the uninoculated control seeds, being QAP24 the one having the greatest effect, accomplishing the germination of viable seeds (84.7%) three days before the control seeds. Subsequently, the inoculation of Mammillari zeilmanniana plants with this isolate showed a positive effect on bloom, registering during two months from a one year period, an increase of up to 31.0% in the number of flowering plants compared to control plants. The characterized Bacillus spp. isolates have potential to be used in conservation programs of plant species from arid zones.
Assuntos
Inoculantes Agrícolas , Bacillus/isolamento & purificação , Cactaceae/microbiologia , Rizosfera , Microbiologia do Solo , Bacillus/classificação , Bacillus/fisiologia , Cactaceae/crescimento & desenvolvimento , Flores/crescimento & desenvolvimento , Germinação , Raízes de Plantas/microbiologia , RNA Bacteriano/genética , RNA Ribossômico 16S/genética , Ribotipagem , Sementes/microbiologia , Sementes/fisiologia , SimbioseRESUMO
The excessive use of synthetic chemical inputs in agricultural production has led to the disruption of biogeochemical cycles. One of the alternatives that arose within the systems of sustainable agriculture was the partial or total replacement of chemicals by biological substances. The analysis of relevant scientific literature has become a tool for assessing the quality of knowledge generation and its impact on the environment. A scientometric analysis was conducted of Colombian research on bio-inoculants from 2009 through 2014 in journals added to the Web of SciencesTM in order to identify the characteristics of the main target crops, the microorganisms used, and the beneficial effects on agriculture. In this work, 34 articles were identified: 24 (71 %) were research on bio-fertilizer development and 10 (29 %) on bio-pesticides. Articles mainly focused on the study of Gram-negative bacilli affecting the area (77 %), while others focused on issues and topics surrounding vegetables (30 %).The analysis of co-occurrence of keywords identified: i. several genera of microorganisms (e.g. A%otobacter sp., Bradyrhi%obium sp.) and sustainable agriculture as issues that have a leading role in this scientific field, ii. plant growth promoting rhizobacteria (PGPR) as an emerging issue, iii. biological nitrogen fixation (BNF) as a subject which has risen in a complementary manner and iv. endophytic bacteria and biodiversity as issues in growth. This study showed that research in Colombia could be targeted on issues such as endophytic bacteria, diversity and productivity.
El uso excesivo de insumos sintéticos en la producción agrícola ha llevado a la disrupción de los ciclos biogeoquímicos. Como alternativa a este problema, los sistemas de agricultura sostenible han reemplazado parcial o totalmente los químicos por sustancias biológicas. El análisis de literatura científica relevante se ha convertido en una herramienta para determinar la calidad de la generación de conocimiento en este campo y su impacto en el ambiente.Se llevó a cabo un análisis cienciométrico de la investigación en Colombia sobre bioinoculantes entre 2009 y 2014. Se tuvieron en cuenta revistas indizadas en la Red de Ciencias®. Se buscó identificar las características de los principales cultivos, los microorganismos utilizados y sus efectos benéficos en la agricultura. Se seleccionaron 34 artículos: 24 (71%) sobre desarrollo de biofertilizantes y 10 (29%) sobre biopesticidas. Los artículos se enfocaron principalmente en el estudio de bacilos Gram-negativos (77%), mientras que otros se enfocaron en los temas relativos a hortalizas (30%). El análisis de co-ocurrencia de palabras claves identificó: i. Algunos géneros de microorganismos (Azptobacter sp., Bradyrhizobium sp.) y la agricultura sostenible como temas relevantes en este campo, ii. Rizobacterias promotoras del crecimiento en plantas (PGPR) como un tópico emergente, iii. Fijación biológica de nitrógeno (FBN) como un tema emergente y complementario y iv. Bacterias endofíticas y biodiversidad como tópicos en crecimiento. Este estudio mostró también que la investigación en Colombia podría enfocarse en temas como bacterias endofíticas, diversidad y productividad.
O uso excessivo de produtos químicos sintéticos na produção agrícola levou a uma perturbação dos ciclos biogeoquímicos. Uma das alternativas que surgiram dentro dos sistemas de agricultura sustentável foi a substituição total ou parcial de compostos químicos por substancias biológicas. O estudo de literatura científica relevante se tornou uma ferramenta para avaliar a qualidade da geração de conhecimento e seu impacto no meio ambiente. A análise cientométrica foi realizada em investigacoes colombianas sobre bioinoculantes de 2009 a 2014, em revistas disponíveis em Web of ScienceTM, com o intuito de identificar as características das principais culturas alvos, os microorganismos utilizados, e o efeito benéfico na agricultura. Neste trabalho, 34 artigos foram identificados: 24 (71 %) eram pesquisas sobre o desenvolvimiento de biofertilizantes e 10 (29 %) sobre biopesticidas. Os artigos eram focados principalmente no estudo de bacilos Gram-negativos afetando a área (77 %), enquanto que outros eram voltados a questoes e temas de vegetais (30 %). A análise de coocorréncia de palavras-chave identificou: i. diversos géneros de microorganismos (Ex. Azptobacter sp., Bradyrhizpbium sp.) e agricultura sustentável como questóes fundamentais nesta área científica, ii. rizobactéricas promotoras de crescimento de plantas (PGPR) como um tema emergente, iii. fixação biológica de nitrogénio (BNF) como um assunto que tem surgido de maneira complementar e iv. bactérias endofíticas e biodiversidade como temas em crescimento. Este estudo mostrou que a pesquisa na Colombia poderia ser dirigida a questoes como bactérias endofíticas, diversidade e produtividade.
RESUMO
The aim of this study was to estimate the chemical composition of maize silage based on the morphological characteristics of maize plants and to evaluate the effect of nitrogen fertilization and the inclusion of a microbial inoculant during the ensiling process on the production of maize silage and its morphological, qualitative and fermentative characteristics. The experimental treatments consisted of four levels of nitrogen fertilization with urea (0, 100, 200 and 300 kg ha-1) and the inclusion or exclusion of the microbial inoculants during the ensiling process. A completely randomized design was used in a 4 × 2 factorial arrangement of treatments. The maize silage chemical composition was estimated by evaluating the plant height (PH) and ear characteristics (NRE= number of rows per ear; NKE= number of kernels per ear; ELS= ear length with straw; EL= ear length without straw) using the following equations:CP= -12.44 + 5.871 × PH + 0.01814 × NRE² (R²= 0.89; P < 0.0001); NDF= 587.93-0.78×NKE-11.67×ELS-0.47×EL+0.0000007×NKE³+0.006× EL³ (R²=0.92; P = 0.003); ADF= 41.48 -0.046 × NRE2 (R2 = 0.42; P = 0.02);TDN= 57.81 - 0.0319 × NRE2 (R2 = 0.42; P = 0.02);EDDM= 56.58 + 0.035 × NRE2 (R2 = 0.42; P = 0.02) andNEL= 1.31 + 0.000757 × NRE2 (R2 = 0.41; P = 0.02). In conclusion, nitrogen fertilization increases the silage energy and protein content; while the inclusion of microbial inoculants during the ensiling process does not alter the chemical and fermentative characteristics of the maize silage.
O objetivo do presente estudo foi estimar a composição bromatológica da silagem por meio de características morfoló- gicas das plantas de milho, e avaliar o efeito de níveis de adubação nitrogenada e da inclusão de inoculante microbiano na ensilagem sobre as características produtivas, morfológicas, bromatológicas e fermentativas de silagem de milho. Os tratamentos consistiram em quatro níveis de adubações com ureia: 0; 100; 200 e 300 Kg ha-1, e da inclusão ou não de inoculante microbiano. Foi utilizado um delineamento inteiramente casualizado, com arranjo fatorial de tratamentos 4 × 2. A composição bromatológica da silagem foi estimada pela altura das plantas (AP) de milho e pelas características da espiga (NLE = número de linhas de grãos por espiga; NGE = Número de grãos por espiga; CCP = comprimento da espiga com palha; CSP = comprimento da espiga sem palha) por meio das seguintes equações: PB = -12,44 + 5,871 × AP + 0,01814 × NLE² (R² = 0,89; P < 0,0001); FDN = 587,93 0,78 × NGE 11,67 × CCP 0,47 × CSP + 0,0000007 × NGE³ + 0,006 × CCP³ (R² = 0,92; P = 0,003); FDA = 41,48 - 0,046 × NLE2 (R2 = 0,42; P = 0,02); NDT = 57,81 0,0319 × NLE2 (R2 = 0,42; P = 0,02); DMSE = 56,58 + 0,035 × NLE2 (R2 = 0,42; P = 0,02) e ELL = 1,31 + 0,000757 × NLE2 (R2 = 0,41; P = 0,02). Pode-se concluir que a adubação nitrogenada aumenta o teor de energia e de proteína da silagem; enquanto a inclusão de inoculante microbiano não altera as características bromatológicas e fermentativas da silagem de milho.
Assuntos
Animais , Análise de Alimentos/métodos , Plantas/classificação , Silagem , Ureia/química , Zea maysRESUMO
The aim of this study was to estimate the chemical composition of maize silage based on the morphological characteristics of maize plants and to evaluate the effect of nitrogen fertilization and the inclusion of a microbial inoculant during the ensiling process on the production of maize silage and its morphological, qualitative and fermentative characteristics. The experimental treatments consisted of four levels of nitrogen fertilization with urea (0, 100, 200 and 300 kg ha-1) and the inclusion or exclusion of the microbial inoculants during the ensiling process. A completely randomized design was used in a 4 × 2 factorial arrangement of treatments. The maize silage chemical composition was estimated by evaluating the plant height (PH) and ear characteristics (NRE= number of rows per ear; NKE= number of kernels per ear; ELS= ear length with straw; EL= ear length without straw) using the following equations:CP= -12.44 + 5.871 × PH + 0.01814 × NRE² (R²= 0.89; P < 0.0001); NDF= 587.93-0.78×NKE-11.67×ELS-0.47×EL+0.0000007×NKE³+0.006× EL³ (R²=0.92; P = 0.003); ADF= 41.48 -0.046 × NRE2 (R2 = 0.42; P = 0.02);TDN= 57.81 - 0.0319 × NRE2 (R2 = 0.42; P = 0.02);EDDM= 56.58 + 0.035 × NRE2 (R2 = 0.42; P = 0.02) andNEL= 1.31 + 0.000757 × NRE2 (R2 = 0.41; P = 0.02). In conclusion, nitrogen fertilization increases the silage energy and protein content; while the inclusion of microbial inoculants during the ensiling process does not alter the chemical and fermentative characteristics of the maize silage.(AU)
O objetivo do presente estudo foi estimar a composição bromatológica da silagem por meio de características morfoló- gicas das plantas de milho, e avaliar o efeito de níveis de adubação nitrogenada e da inclusão de inoculante microbiano na ensilagem sobre as características produtivas, morfológicas, bromatológicas e fermentativas de silagem de milho. Os tratamentos consistiram em quatro níveis de adubações com ureia: 0; 100; 200 e 300 Kg ha-1, e da inclusão ou não de inoculante microbiano. Foi utilizado um delineamento inteiramente casualizado, com arranjo fatorial de tratamentos 4 × 2. A composição bromatológica da silagem foi estimada pela altura das plantas (AP) de milho e pelas características da espiga (NLE = número de linhas de grãos por espiga; NGE = Número de grãos por espiga; CCP = comprimento da espiga com palha; CSP = comprimento da espiga sem palha) por meio das seguintes equações: PB = -12,44 + 5,871 × AP + 0,01814 × NLE² (R² = 0,89; P < 0,0001); FDN = 587,93 0,78 × NGE 11,67 × CCP 0,47 × CSP + 0,0000007 × NGE³ + 0,006 × CCP³ (R² = 0,92; P = 0,003); FDA = 41,48 - 0,046 × NLE2 (R2 = 0,42; P = 0,02); NDT = 57,81 0,0319 × NLE2 (R2 = 0,42; P = 0,02); DMSE = 56,58 + 0,035 × NLE2 (R2 = 0,42; P = 0,02) e ELL = 1,31 + 0,000757 × NLE2 (R2 = 0,41; P = 0,02). Pode-se concluir que a adubação nitrogenada aumenta o teor de energia e de proteína da silagem; enquanto a inclusão de inoculante microbiano não altera as características bromatológicas e fermentativas da silagem de milho.(AU)