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Se evaluó la eficiencia de la trampa Mosquito Magnet Liberty PlusTM (MMLP) cebada con los atrayentes químicos 1-octen-3-ol (octenol) y Lurex 3 (L-ácido láctico) junto con dióxido de carbono (CO2) para recolectar anofelinos en la localidad Ye’kwana de Boca de Nichare, municipio Sucre, estado Bolívar, Venezuela. La trampa fue operada entre las 18:00 y 06:00 horas, durante 10 noches por mes, durante cuatro meses (Julio – Octubre, 2015), alternándose cada noche el atrayente. A fin de caracterizar la actividad nocturna de los anofelinos, cada cuatro horas se cambiaba la jaulit a donde eran atrapados los mosquitos. Se capturaron cinco especies de Anopheles y cuatro de Culicinae, siendo las más abundantes, Anopheles (Nyssorhynchus) darlingi Root y Anopheles (Nyssorhynchus) oswaldoi (Peryassú) sensu lato. El ANOVA factorial no paramétrico de Transformación de Rangos Alineados para la variable atrayente y sus interacciones con especie e intervalo horario no fueron estadísticamente significativas (p > 0.05). Estas especies muestran comportamientos diferentes: An. darlingi tiene el pico de actividad nocturna entre las 22:00 y 02:00 horas, mientras que en An. oswaldoi s.l. se observa un incremento de la actividad nocturna progresivamente que se mantiene durante el intervalo 02:00-06:00 horas. Los resultados permiten concluir que la trampa MMLP cebada con octenol o Lurex es un método alternativo de recolección de mosquit os para la vigilancia entomológica en áreas maláricas remotas con población indígena. La actividad horaria de los vectores An. darlingi y An. oswaldoi s.l. sugiere que el uso de mosquiteros tratados con insecticidas puede resultar un método efectivo para el control de la transmisión de malaria en esta zona del país.

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Polynomial and Wavelet-Type Transfer Function Models to Improve Fisheries’ Landing Forecasting with Exogenous Variables

Vivas

Allende‐Cid

Salas

et al. 2019

Entropy

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It is well known that environmental fluctuations and fishing efforts modify fishing patterns in various parts of the world. One of the most affected areas is northern Chile. The reduction of the gaps in the implementation of national fisheries’ management policies and the basic knowledge that supports the making of such decisions are crucial. That is why in this research, a transfer function method with variable coefficients is proposed to forecast monthly disembarkation of anchovies and sardines in northern Chile, taking into account the incidence of large-scale climatic variables on landings. The method uses a least squares procedure and wavelets to expand the coefficients of the transfer function. Linear estimators of the time varying coefficients are proposed, followed by a truncation of the wavelet expansion up to an appropriate scale. Finally, the estimators for the transfer function coefficients are obtained by using the inverse wavelet transformation. Research results suggest that the transfer function models with variable coefficients fit the behavior of the anchovies’ landing with great accuracy, while the use of transfer function models with constant coefficients fits sardines’ landings better. Both fisheries’ landings could be explained to a large extent from the large scale climatic variables.

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Desigualdades de conocimiento y estrategias para reducir las asimetrías

Vessuri¹,

Sánchez-Rose²,

Hernández-Valencia³

et al. 2014

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Lelys Bravo

Dynamic Bayesian temporal modeling and forecasting of short-term wind measurements

Respuesta a atrayentes químicos y actividad horaria de Anopheles Meigen spp. (Diptera: Culicidae) en un área malárica del estado Bolívar, Venezuela

Polynomial and Wavelet-Type Transfer Function Models to Improve Fisheries’ Landing Forecasting with Exogenous Variables

Desigualdades de conocimiento y estrategias para reducir las asimetrías

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