Bio-Insecticidal Potential of Nucleopolyhedrovirus and Granulovirus Mixtures to Control the Fall Armyworm Spodoptera frugiperda (J.E. Smith, 1797) (Lepidoptera: Noctuidae).

The ability of the isolate VG008 of S. frugiperda granulovirus (SpfrGV) to enhance the infectivity of the isolate SfCOL of S. frugiperda multiple nucleopolyhedrovirus (SpfrMNPV) was evaluated on S. frugiperda larvae. Bioassays were performed with mixtures by using different proportions 90%:10% (M1), 95%:5% (M2) and 97.5%:2.5% (M3) of SfCOL:VG008, respectively. All mixtures showed higher insecticidal activity that SfCOL. The mixture M3 showed the highest enhancement of SfCOL reducing 11.40 times the Mean Lethal Concentration and 96 h in the Mean Time to Death. The enhancer activity of proteins derived from VG008 (GVPs) were also evaluated in mixture with SfCOL. The GVPs increased 27% larval mortality caused by SfCOL and damaged the peritrophic membrane of S. litura larvae, suggesting that the key point in this enhancing activity is the initial step of the larva colonization, the midgut infection. M3 was formulated and evaluated under greenhouse conditions in maize plants using different doses. The highest efficacy was obtained with the highest dose of M3 (8 × 1011 OBs/ha), which was similar to that found when formulated SfCOL was applied using an approximately twofold higher dose. The viral mixture M3 was selected as the active ingredient for developing a new biopesticide for a more efficient management of the pest in the field.

Microencapsulation of Rhizobium leguminosarum bv. trifolii with guar gum: Preliminary approach using spray drying.

Rhizobium leguminosarum bv trifolii strains TA1 and CC275e have been widely used as effective nitrogen fixing strains for white clover in New Zealand, but rhizobia survival on seeds is usually poor due to different stress conditions. The aim of this study was to select one of those commercial strains grown in a solid carrier (core) and study the influence of the core:polymer ratio in a microencapsulation process by spray drying using guar gum as coating material. First, strains TA1 and CC275e grown on peat and diatomaceous earth were exposed to temperature and desiccation stress. Both strains were stable at 40 °C and completely died after five minutes at 80 °C, while CC275e was more stable than TA1 at 60 °C. TA1 and CC275e slightly decreased viability after six hours drying with either carriers, with no differences between strains. A central composite design was used to develop the microencapsulation process. Independent variables were: inlet temperature (130 °C) and feed flow rate (5 mL/min). Microparticles presented rhizobia loading in 107 CFU/g and mean particle size between 10 and 30 µm. Optimized process reached 50% yield and 107 CFU/g loading. Rhizobia viability dropped two logarithmic units during the microencapsulation/drying process, possibly due to the negative effects of dehydration and high outlet temperature (≈70 °C), suggesting the need to continue optimizing the process by improving the thermal profile in the drying chamber.

Efecto del estrés térmico y la radiación ultravioleta durante la producción masiva de Nomuraea rileyi / Effect of thermal stress and ultraviolet radiation during massive production of Nomuraea rileyi

Resumen El hongo entomopatógeno Nomuraea rileyi (aislamiento Nm006) ha demostrado un alto potencial para ser utilizado en el control biológico de gusano cogollero del maíz Spodoptera frugiperda. Sin embargo, este microorganismo es altamente susceptible a condiciones abióticas de estrés, lo que dificulta el desarrollo tecnológico de un bioplaguicida. Teniendo en cuenta lo anterior, el objetivo del trabajo fue evaluar el efecto individual de temperatura y luz ultravioleta mediante choques de estrés implementados en el proceso de fermentación sólida. Los conidios obtenidos de los diferentes tratamientos se caracterizaron microbiológicamente (rendimiento y germinación), enzimática (β-esterasa, N-acetilglucosaminidasa y quimoelastasa proteasa Pr1) y biológicamente mediante un bioensayo. Los choques de temperatura no afectaron el rendimiento, germinación y actividad biológica del aislamiento, pero si potenciaron la actividad β-esterasa y la actividad N-acetilglucosaminidasa en comparación con los conidios no expuestos. Con respecto a los choques con luz UV, éstos no mejoraron las características de los conidios de N. rileyi. Con base en los resultados, los choques térmicos a 5 °C y 45 °C, se seleccionaron para la fermentación del hongo, porque no afectaron negativamente ninguna característica y aumentaron las actividades enzimáticas β-esterasa y N-acetilglucosaminidasa de los conidios, lo que podría mejorar la actividad insecticida sobre S. frugiperda.

Abstract The entomopathogenic fungus Nomuraea rileyi (isolate Nm006) is a possible microbial control agent against "fall armyworm" Spodoptera frugiperda. However, this fungus is affected by abiotic stress conditions that cause a slow development of the biopesticide. The objective of this study was to assess the individual effect of abiotic stress (temperature and UV light) during solid fermentation of Nomuraea rileyi Nm006. Conidia were produced under different stress conditions and then characterized microbiologically (yield and germination), enzymatically (β-esterese, N-acetylglucosaminidase and subtilin-like protease Pr1) and biologically against Spodoptera frugiperda. All the treatments were compare with conidia produced without stress. Yield and N-acetylglucosaminidase activity did not improve in conidia produced under temperature stress. Germination, efficacy and β-esterase activity were significantly higher in conidia exposed to thermal shock compared to unexposed conidia. UV light shocks did not improve any characteristics of Nm006. Thermal stress at 5 °C and 45 °C were select for fungus fermentation because conidia had higher enzymatic activity (β-esterase y N-acetilglucosaminidase) and any characteristic was negatively affect. This thermal stress could be a strategy to improve the insecticidal activity against S. frugiperda.

Microencapsulation of a Colombian Spodoptera frugiperda Nucleopolyhedrovirus with Eudragit® S100 by spray drying

A Colombian Spodoptera frugiperda nucleopolyhedrovirus NPV003 with high potential for the development of an efficient biopesticide was microencapsulated by spray drying with a pH dependent polymer (Eudragit® S100). Conditions for microparticles production were standardized and microencapsulation process was validated. Physical properties, insecticide activity and photo-stability of microencapsulated virus were determined. The microparticles were spherical and irregular shaped, with sizes between 17.64 and 19.47 µm. Moisture content was 10.38 ± 0.87%; encapsulation efficiency 84.61± 13.09% and process yield was 91.20 ± 6.40%. Microencapsulation process did not affect viral insecticidal activity and provided efficient protection against UVB radiation. Results demonstrated technological feasibility of spray drying process to be used in formulating a biopesticide based on NPV003.