A negative association between bromadiolone exposure and nestling body condition in common kestrels: management implications for vole outbreaks.

BACKGROUND: Vole outbreaks have been extensively described, along with their impacts on humans, particularly in agricultural areas. The use of rodenticides is a common legal practice to minimise crop damage induced by high vole density for biocidal use. However, rodenticides can have negative direct and indirect impacts on non-target species that feed on voles. We studied whether the use of a second-generation anticoagulant rodenticide (SGAR), bromadiolone, can be detected in the blood of fledglings of wild common kestrels Falco tinnunculus in two areas of central Spain, exploring its possible indirect effects. RESULTS: We found that 16.9% of fledglings had a detectable concentration of bromadiolone in their blood, with an average concentration of 0.248 ± 0.023 ng mL-1 . Fledglings with bromadiolone in their blood, regardless of the concentration, had 6.7% lower body mass than those without detectable bromadiolone. CONCLUSION: The use of bromadiolone was detectable in the blood of alive non-target species. Detected bromadiolone in blood may reduce the body condition of nestlings, potentially reducing their fitness. The source of bromadiolone found in nestlings needs to be determined in future studies to derive accurate management advice. However, we urge the discontinuation of official SGAR distribution to farmers and their use in agrarian lands to minimise damage of voles on crops, particularly where common kestrels breed, and encourage the use of alternative effective practices. © 2016 Society of Chemical Industry.

Ensayo a ciego simple del efecto hipoglucemiante de phyllanthus niruri (huevito escondido) y su combinación con azadirachta indica (NIM) en ratas wistar / A simple blind test of hypoglycemic effect of phyllanthus niruri (huevito escondido) and its combination with azadirachta indica (NIM) in wistar rats

Objetivo: valorar el efecto hipoglucemiante de un extracto acuoso de la planta entera Phyllantus niruri, hojas de Azadirachta indica y su combinación. Métodos: Se diseñó un ensayo cruzado a ciego simple, preparándose extractos acuosos de hojas de A. indica y planta entera de P. niruri, colocando 70 g en 200 mL de agua a 55-60 °C, conformando tres tratamientos: uno para cada extracto y el tercero la combinación. Como control positivo o de referencia se utilizó el extracto de A. Indica. Se emplearon 18 ratas Wistar a las que se administró el tratamiento vía oral una sola vez, a razón de 5 mL/300 g de peso. La glucemia se midió con un glucómetro One Touch Ultra antes y 2h después del tratamiento. Se aplicó la prueba ANOVA a los datos. Resultados: Hubo disminución de la glucemia con los tres tratamientos. No se encontró diferencia entre los tratamientos probados. Conclusiones: el extracto acuoso de la planta entera de Phyllanthus niruri tiene un efecto hipoglucemiante similar al extracto acuoso de hojas de Azadirachta indica. No hubo evidencia de efecto sinérgico.

Objective: to evaluate the hypoglycemic effect of aqueous extract of Phyllanthus niruri whole plant and its combination with one of Azadirachta indica leaves. Methods: A single-blind crossover trial was design. One for each extract and the third corresponding to the combination: aqueous extracts of leaves of Azadirachta indica and whole plant Phyllanthus niruri, placing 70 g of the plant material in 200 mL of water at 55-60 ° C, three treatments were prepared. The comparison was performed using the extract of Azadirachta indica as control. Eighteen Wistar rats were used. Treatment was given orally at a dose of 5 mL/300 g. Glucose measurement was made with a glucometer One Touch Ultra before and 2h after administration of the treatment. ANOVA was applied to the data. Results: There was a decrease in blood glucose levels with the three treatments. No difference was found between the tested treatments regarding the hypoglycemic effect. Conclusions: The aqueous extract of the whole plant of Phyllanthus niruri has a similar hypoglycemic effect to aqueous extract of Azadirachta indica leaves. There was no evidence of synergistic effect.

Actividad garrapaticida de Azadirachta indica A. Juss. (nim) / Tick control activity of Azadirachta indica A. Juss. (neem)

Introducción: la infestación por garrapatas constituye en muchos países un grave problema que limita la producción agropecuaria, altera la salud de animales productores de alimento, de animales de compañía y quizá en muchas ocasiones también del ser humano. La planta Azadirachta indica A. Juss. es una de las más estudiadas por su amplia actividad biocida, en particular para artrópodos. Por considerarse fuente de acaricidas biodegradables, la actividad garrapaticida de sus extractos obtenidos, sobre todo de hojas y semillas, ha sido investigada de modo insistente; sin embargo, la información potencialmente útil continúa estando dispersa, variable desde el punto de vista metodológico o de su eficacia, y no pocas veces contradictoria. Objetivo: recopilar y analizar la información publicada disponible sobre el efecto garrapaticida de Azadirachta indica. Métodos: se realizó una revisión de la literatura sobre la base del motor de búsqueda Google y la base de datos PubMed a partir del año 2000, con el fin de organizar la información disponible sobre la actividad garrapaticida de la planta. Resultados: se logró recopilar y organizar información sobre la actividad garrapaticida de Azadirachta indica A. Juss., considerando especialmente parte de la planta empleada, tipo de extracto elaborado, productos disponibles, metodología para su preparación, tipo de ensayo in vivo o in vitro, dosificación, efectos sobre el parásito y eficacia. Conclusiones: puede considerarse la planta lo suficiente bien estudiada en cuanto a sus efectos garrapaticidas, se requiere probar la incorporación de sus extractos a productos como baños, champús, jabones y otros, así como comprobar la persistencia de sus propiedades y eficacia.

Introduction: tick infestation is a serious problem in many countries, for it affects agricultural yield and the health of food-producing animals, pets and on many occasions even human beings. Azadirachta indica A. Juss. is one of the most widely studied plants, due to its broad biocide activity, particularly against arthropods. Considered a source of biodegradable acaricides, the tick control activity of the extracts obtained mainly from its leaves and seeds has been widely studied. However, potentially useful information about the subject is still scattered, methodologically variegated, of varying effectiveness and often contradictory. Objective: collect and analyze the available published information about the tick control effect of Azadirachta indica. Methods: a bibliographic review was conducted based on Google search engine and PubMed database as of the year 2000, with the purpose of organizing the information available about the tick control activity of the plant. Results: information about the tick control activity of Azadirachta indica A. Juss. was gathered and organized according to the plant section used, type of extract obtained, available products, preparation methodology, in vivo or in vitro assay type, dosing, effects on the parasite and effectiveness. Conclusions: the tick control effects of the plant may be considered to be sufficiently studied. Incorporation of its extracts into products such as baths, shampoo, soap and others, require further research. Persistence of its properties and effectiveness should also be verified.

Avian predators as a biological control system of common vole (Microtus arvalis) populations in north-western Spain: experimental set-up and preliminary results.

BACKGROUND: Ecologically based rodent pest management using biological control has never been evaluated for vole plagues in Europe, although it has been successfully tested in other systems. The authors report on the first large-scale replicated experiment to study the usefulness of nest-box installation for increasing the breeding density of common kestrels (Falco tinnunculus) and barn owls (Tyto alba) as a potential biological control of common vole (Microtus arvalis) abundance in agricultural habitats in north-western Spain. RESULTS: The results show that: (1) population density of both predator species increased in response to both nest-site availability and vole density; (2) voles are a major prey for the common kestrels during the breeding period; (3) vole density during the increase phase of a population cycle may be reduced in crop fields near nest boxes. CONCLUSION: The installation of nest boxes provides nesting sites for barn owls and kestrels. Kestrel populations increased faster than in areas without artificial nests, and the common vole was one of their main prey during the breeding season. The results suggest that local (field) effects could be found in terms of reduced vole density. If so, this could be an environmentally friendly and cheap vole control technique to be considered on a larger scale.