The objective of this research was to identify the best microorganisms, alone or in mixture for total biomass gain (root + shoot), positive change in gas exchange, nutrient uptake (root, shoot and grain) and yield and yield components in the soybean crop. Trial under greenhouse conditions had the experimental design in a completely randomized scheme with 26 treatments and four replicates. The treatments consisted of the rhizobacteria BRM 32109, BRM 32110 and 1301 (Bacillus sp.), BRM 32111 and BRM 32112 (Pseudomonas sp.), BRM 32113 (Burkholderia sp.), BRM 32114 (Serratia sp.), Ab-V5 (Azospirillum brasilense) and 1381 (Azospirillum sp.), and the fungus Trichoderma asperellum (a mix of the isolates UFRA.T06, UFRA.T09, UFRA.T12 and UFRA.T52). Besides, the same isolates were combined in pairs, completing 16 combinations. Control treatments received no microorganism. Microorganisms applied isolated or in combination, provided biomass gain, positive gas exchange, increases in nutrients uptake at the shoot and grain, and improved grain yield and its components than control plants. Stood out the combination Ab-V5 + T. asperellum pool, which provided a 25% improvement in grain yield.
Multifunctional microorganisms can contribute significantly to improve plant performance and are innovative technology for sustainable development. Thus, objective of this study was to determine the effect of bioagents applied alone or in mix on the performance of upland rice. The experiment was conducted in a greenhouse in a completely randomized design with four replications. The 26 treatments consisted of the rhizobacteria Bacillus sp. (BRM 32109, BRM 32110 and 1301), Azospirillum sp. (1381), Azospirillum brasilense (Ab-V5), Pseudomonas sp. (BRM 32112), Pseudomonas fluorescens (BRM 32111), Burkholderia pyrrocinia (BRM 32113), Serratia sp. (BRM 32114), and a fungal genus formed by a pool of Trichoderma asperellum (T-06, T-09, T-12, and T-52), applied alone or in mix, plus a control treatment without microorganism application. The most effective treatments were the mixes of microorganisms 1301 + Ab-V5 and BRM 32114 + pool of Trichoderma asperellum, as they provided an average increase of 123 and 88% in the number of panicles and 206 and 167% in the grain yield of upland rice plants, respectively. Mixes of 1301 + Ab-V5, BRM 32114 + Trichoderma asperellum pool, BRM 32110 + BRM 32114, BRM 32110 + Ab-V5, 1301 + BRM 32110 and 1381 + Trichoderma asperellum pool also provided better morphophysiological performance in rice plants (photosynthetic rate, carboxylation efficiency, number of tillers, shoot dry biomass and nutrient content in shoot and root). Therefore, the use of multifunctional microorganisms in the management of upland rice was efficient in its ability to provide better development of plants.
Inoculating plants with a mix of beneficial microorganisms can significantly improve plant growth and contribute to sustainable agriculture. However, it is unclear if mixed inoculations of microorganisms provide better results than inoculations of a single beneficial microorganism. Thus, the objective of this study was to evaluate the effects of beneficial microorganisms on the performance of upland rice in a greenhouse experiment using a completely randomized design with three repetitions and 26 treatments. The treatments consisted of inoculations of Bacillus sp. (BRM32110), Serratia sp. (BRM32114), Azospirillum sp. (1381), Bacillus sp. (1301), A. brasilense (Ab-V5) and a pool of Trichoderma asperellum in isolation or in a mixture in addition to a control treatment (without application of microorganisms). Microorganisms significantly affected gas exchange, biomass production and nutrient accumulation in upland rice plants. The mixed treatments of BRM32114 + pool of T. asperellum and Ab-V5 + pool of T. asperellum were more effective than the other treatments, with improved gas exchange variables and nutrient concentration. The 1301 + Ab-V5 mixed treatment showed higher averages for biomass production than the other treatments, and these values were significantly different from those of the control treatment.
Multifunctional microorganisms can contribute to the development of plant root systems and positively affect the grain yield of crops. However, studies of the use of these microorganisms to benefit root development in rice plants are scarce. The objective of this study was to determine the effect of rhizobacterial inoculation of the seeds on the root development of upland rice seedlings. The experiment was carried out in the agricultural microbiology laboratory of Embrapa Rice and Beans, and we adopted a completely randomized design with eight replications. The treatments consisted of the inoculation of rice seeds with the rhizobacteria 1. Pseudomonas fluorescens (BRM 32111), 2. Burkholderia pyrrocinia (BRM 32113), 3. Serratia sp. (BRM 32114), 4. Bacillus sp. (1301), 5. Azospirillum brasilense (Ab-V5), 6. Azospirillum sp. (1381), and a 7. control treatment (without microorganisms). Treatment using the microorganism Azospirillum sp. (1381) provided the longest roots, greatest root volume and highest total dry mass of roots, at 86.34, 111.53 and 29.41%, respectively, significantly superior to the control treatment. In addition, treatments Ab-V5 and Bacillus sp. (1301) resulted in a root diameter of 13.81 and 13.06%, respectively, larger than that of the control treatment. The use of these multifunctional microorganisms was efficient for promoting the root development of rice seedlings.
A arquitetura de microsserviços incentiva a composição de serviços através da coreografia. A coreografia favorece o baixo acoplamento e a descentralização. Surge então o desafio de encontrar abordagens adequadas para realizá-la de acordo com estilo arquitetural proposto pelos microsserviços. Este trabalho descreve e compara duas estratégias para coreografar microsserviços. A primeira estratégia é baseada em eventos e faz uso de um mediador para transmitir as mensagens. A segunda é chamada de programação coreográfica e sua grande vantagem é fornecer uma visão global da coreografia. Um estudo de caso com quatro microsserviços foi implementado em cada estratégia. Resultados incluem uma tabela comparativa e o número de mensagens por minuto suportado pelas implementações.
No âmbito global se reconhece o potencial dos sistemas integrados como uma via sustentável para alimentar nove bilhões de pessoas em 2050. Esses sistemas são capazes de incrementar a resiliência ambiental pelo aumento da diversidade biológica e pela efetiva e eficiente ciclagem de nutrientes, o que acarreta a melhoria da qualidade do solo, além de prover serviços ecossistêmicos e contribuir para a mitigação das mudanças climáticas. O objetivo do trabalho foi avaliar a ocorrência e a composição da comunidade de plantas daninhas na cultura do milho em Sistemas Integrados de Produção Agropecuária (SIPAs). O delineamento experimental foi o de blocos casualizados (DBC), com 4 tratamentos e 3 repetições. A variedade de milho BRS Sol da Manhã foi cultivada em quatro sistemas: lavoura (L), integrado com lavoura-pecuária (LP), lavoura-floresta (LF) e lavoura-pecuária-floresta (LPF), todos sem a utilização de herbicida. Foram avaliadas a ocorrência e a composição de plantas daninhas nos diferentes sistemas de produção por meio de um levantamento da composição botânica em matéria seca (kg ha-1). Verificou-se grande contribuição de Megathyrsus maximus cv. Áries em todos os sistemas, principalmente no LPF, assim como o predomínio de Urochloa brizantha no LP, além do predomínio de Hemarthria altíssima no sistema LF. O SIPA demonstrou ser capaz de produzir 5,8t ha-1 milho sem uso de herbicidas.
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