Gotowa bibliografia na temat „Culicoides molestus”

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Artykuły w czasopismach na temat "Culicoides molestus"

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Brei, Brandon, Bronwen W. Cribb i David J. Merritt. "Effects of seawater components on immature Culicoides molestus (Skuse) (Diptera: Ceratopogonidae)". Australian Journal of Entomology 42, nr 2 (kwiecień 2003): 119–23. http://dx.doi.org/10.1046/j.1440-6055.2003.00333.x.

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Cribb, Bronwen W., Brandon Brei, Andrew W. Ridley i David J. Merritt. "Occurrence of immature Culicoides molestus (Skuse) (Diptera: Ceratopogonidae) in relation to habitat characteristics". Australian Journal of Entomology 42, nr 2 (kwiecień 2003): 114–18. http://dx.doi.org/10.1046/j.1440-6055.2003.00332.x.

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WRIGHT, P. J., i C. S. EASTON. "Natural Incidence of Lagenidium giganteum Couch (Oomycetes: Lagenidiales) Infecting the Biting Midge Culicoides molestus (Skuse) (Diptera: Ceratopogonidae)". Australian Journal of Entomology 35, nr 2 (maj 1996): 131–34. http://dx.doi.org/10.1111/j.1440-6055.1996.tb01376.x.

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Santamaría, Erika, Olga Lucía Cabrera, Yaneth Zipa, Cristina Ferro, Martha Liliana Ahumada i Raúl Hernando Pardo. "Diagnóstico preliminar de la molestia sanitaria causada por Culicoides (Diptera: Ceratopogonidae) en el departamento de Boyacá, Colombia". Biomédica 28, nr 4 (1.12.2008): 497. http://dx.doi.org/10.7705/biomedica.v28i4.55.

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"Culicoides molestus". CABI Compendium CABI Compendium (7.01.2022). http://dx.doi.org/10.1079/cabicompendium.87026.

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León, Renato, Leonardo Ortega, Moisés Gualapuro, Francisco Morales, María Isabel Rojas i Mauricio Espinel. "Identificación de Dípteros Nematóceros de interés médico en zonas aledañas a la construcción de la Represa Hidroeléctrica Toachi-Pilatón". ACI Avances en Ciencias e Ingenierías 6, nr 2 (19.12.2014). http://dx.doi.org/10.18272/aci.v6i2.176.

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La presencia de represas hidroeléctricas ha sido asociada a grandes alteraciones ambientales y pueden tener un efecto en la transmisión de enfermedades parasitarias y vectoriales como la malaria, la leishmaniasis, la oncocercosis, enfermedades arbovirales y otras consecuencias para la salud. En el 2009, se inicia la construcción de la central hidroeléctrica Toachi-Pilatón y en este estudio reportamos un muestreo entomológico preliminar de insectos Dípteros Nematóceros de interés médico colectados en varias localidades cerca de la construcción de la represa. La presencia de al menos dos especies de anofelinos (Anopheles neivai y An. Albimanus) y de al menos una especie de flebótomos (Lutzomyia trapidoi), incriminados en el pasado como vectores de malaria y leishmaniasis respectivamente, indican el riesgo potencial de transmisión de estas enfermedades. Algunas especies de las arenillas del género Culicoides también están presentes. La abundancia de moscas negras del género Simulium cerca de ríos y riachuelos constituyen una real molestia a los trabajadores del campo y habitantes por sus picaduras. Los resultados de una encuesta epidemiológica piloto en dos poblaciones cercanas (Praderas del Toachi y Palo Quemado) indican que aunque la mayoría de los habitantes conocen de estos insectos, pocos están al tanto de las enfermedades que pueden transmitir y muy pocos utilizan mosquiteros. Se recomienda hacer seguimiento de estos resultados con nuevos estudios en el futuro para medir el efecto de la presencia de esta represa en la transmisión de enfermedades vectoriales y en las poblaciones de vectores en la zona.
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Rozprawy doktorskie na temat "Culicoides molestus"

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Chitra, Eric, i n/a. "Bionomics of Culicoides molestus (Diptera: Ceratopogonidae): a pest biting midge in Gold Coast canal estates". Griffith University. School of Environmental and Applied Science, 2004. http://www4.gu.edu.au:8080/adt-root/public/adt-QGU20041119.101151.

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Culicoides molestus (Skuse) is the major species of biting midge that plagues human comfort in the estuarine Gold Coast region of southeast Queensland. Local authorities have initiated a search for an effective, non-chemical means of control, that would minimize human-midge interaction. The effectiveness of a program to control an organism, such as a biting midge, is dependent upon knowledge of the biology of the particular organism of interest. This project revolved examines the lifecycle of C. molestus in detail. It addresses questions regarding the location, seasonal distribution, and dispersal of its juvenile stages in the sand of infested beaches, and their response to chemical treatment, the monthly and annual cycles of the adult midge, and the possibilities of achieving laboratory oviposition, as a first step to laboratory colonisation. The distribution of eggs, larvae and pupae of C. molestus was found to be mostly concentrated around, but below, mean tide level. They also occurred well below the mean tide level. Eggs and larvae have been recovered from as deep as 10 cm in the sand. A seasonal study of the juveniles of this species indicated that they were more strongly influenced by tides than seasons. After a routine pest-control larviciding treatment, a beach recolonisation study revealed that beaches become suitable for oviposition approximately two months after treatment. Large larvae invaded the sprayed areas within days of treatment, which suggests the existence of a refuge outside of the reach of the insecticide. Larvae found in clean (egg- and larva-free), isolated sand containers, placed on the study beach, indicated that larvae could swim in or on the water as a way of moving around the beach. Extended bite-rate studies highlighted the existence of four peaks in adult midge biting activity during the course of a year, around the mid seasons. The strongest peaks of activity were found to be in autumn and spring, but the data suggest that the species undergoes four generations in a year. Through a series of trial-and-error experiments, oviposition under laboratory conditions was achieved. Although the time from blood-feeding to egg maturation is not yet well determined, it occurs within an eight day mean survival period. Blood quality appears critical for adult blood-fed midge survival. Midges fed on the blood of a volunteer who was frequently exposed to midge bites do not live long enough to mature its eggs. The partial ovarial development of one unfed adult female, reared in the laboratory, indicates that C. molestus is facultatively anautogenous.
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Chitra, Eric. "Bionomics of Culicoides molestus (Diptera: Ceratopogonidae): a pest biting midge in Gold Coast canal estates". Thesis, Griffith University, 2004. http://hdl.handle.net/10072/367178.

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Culicoides molestus (Skuse) is the major species of biting midge that plagues human comfort in the estuarine Gold Coast region of southeast Queensland. Local authorities have initiated a search for an effective, non-chemical means of control, that would minimize human-midge interaction. The effectiveness of a program to control an organism, such as a biting midge, is dependent upon knowledge of the biology of the particular organism of interest. This project revolved examines the lifecycle of C. molestus in detail. It addresses questions regarding the location, seasonal distribution, and dispersal of its juvenile stages in the sand of infested beaches, and their response to chemical treatment, the monthly and annual cycles of the adult midge, and the possibilities of achieving laboratory oviposition, as a first step to laboratory colonisation. The distribution of eggs, larvae and pupae of C. molestus was found to be mostly concentrated around, but below, mean tide level. They also occurred well below the mean tide level. Eggs and larvae have been recovered from as deep as 10 cm in the sand. A seasonal study of the juveniles of this species indicated that they were more strongly influenced by tides than seasons. After a routine pest-control larviciding treatment, a beach recolonisation study revealed that beaches become suitable for oviposition approximately two months after treatment. Large larvae invaded the sprayed areas within days of treatment, which suggests the existence of a refuge outside of the reach of the insecticide. Larvae found in clean (egg- and larva-free), isolated sand containers, placed on the study beach, indicated that larvae could swim in or on the water as a way of moving around the beach. Extended bite-rate studies highlighted the existence of four peaks in adult midge biting activity during the course of a year, around the mid seasons. The strongest peaks of activity were found to be in autumn and spring, but the data suggest that the species undergoes four generations in a year. Through a series of trial-and-error experiments, oviposition under laboratory conditions was achieved. Although the time from blood-feeding to egg maturation is not yet well determined, it occurs within an eight day mean survival period. Blood quality appears critical for adult blood-fed midge survival. Midges fed on the blood of a volunteer who was frequently exposed to midge bites do not live long enough to mature its eggs. The partial ovarial development of one unfed adult female, reared in the laboratory, indicates that C. molestus is facultatively anautogenous.
Thesis (Masters)
Master of Philosophy (MPhil)
School of Environmental and Applied Science
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