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BACKGROUND: Anopheles darlingi is the most efficient vector of malaria parasites in the Neotropics. Nevertheless, the specificities of its larval habitats are still poorly known. OBJECTIVES: Characterize permanent larval habitats, and population dynamics of An. darlingi and other potential vectors in relation to climate, physicochemical variables, insect fauna and malaria cases. METHODS: A 14-month longitudinal study was conducted in Porto Velho, Rondônia, western Brazilian Amazon. Monthly, 21 permanent water bodies were sampled. Immature anophelines and associated fauna were collected, physicochemical characteristics, and climate variables were recorded and analyzed. FINDINGS: Five types of habitats were identified: lagoon, stream, stream combined with lagoon, stream combined with dam, and fishpond. A total of 60,927 anophelines were collected. The most abundant species in all habitats were Anopheles braziliensis and An. darlingi. The highest density was found in the lagoon, while streams had the highest species richness. Abundance was higher during the transition period wet-dry season. There was a lag of respectively four and five months between the peak of rainfall and the Madeira River level and the highest abundance of An. darlingi larvae, which were positively correlated with habitats partially shaded, pH close to neutrality, increase dissolved oxygen and sulphates. MAIN CONCLUSIONS: The present study provides data on key factors defining permanent larval habitats for the surveillance of An. darlingi and other potential vectors as well as a log-linear Negative Binomial model based on immature mosquito abundance and climate variables to predict the increase in the number of malaria cases.
Subject(s)
Anopheles , Ecosystem , Larva , Malaria , Mosquito Vectors , Population Density , Seasons , Animals , Anopheles/classification , Anopheles/growth & development , Anopheles/physiology , Brazil , Mosquito Vectors/physiology , Mosquito Vectors/classification , Mosquito Vectors/growth & development , Malaria/transmission , Longitudinal Studies , Population DynamicsABSTRACT
BACKGROUND Anopheles darlingi is the most efficient vector of malaria parasites in the Neotropics. Nevertheless, the specificities of its larval habitats are still poorly known. OBJECTIVES Characterize permanent larval habitats, and population dynamics of An. darlingi and other potential vectors in relation to climate, physicochemical variables, insect fauna and malaria cases. METHODS A 14-month longitudinal study was conducted in Porto Velho, Rondônia, western Brazilian Amazon. Monthly, 21 permanent water bodies were sampled. Immature anophelines and associated fauna were collected, physicochemical characteristics, and climate variables were recorded and analyzed. FINDINGS Five types of habitats were identified: lagoon, stream, stream combined with lagoon, stream combined with dam, and fishpond. A total of 60,927 anophelines were collected. The most abundant species in all habitats were Anopheles braziliensis and An. darlingi. The highest density was found in the lagoon, while streams had the highest species richness. Abundance was higher during the transition period wet-dry season. There was a lag of respectively four and five months between the peak of rainfall and the Madeira River level and the highest abundance of An. darlingi larvae, which were positively correlated with habitats partially shaded, pH close to neutrality, increase dissolved oxygen and sulphates. MAIN CONCLUSIONS The present study provides data on key factors defining permanent larval habitats for the surveillance of An. darlingi and other potential vectors as well as a log-linear Negative Binomial model based on immature mosquito abundance and climate variables to predict the increase in the number of malaria cases.
ABSTRACT
BACKGROUND: The massive use of insecticides in public health has exerted selective pressure resulting in the development of resistance in Aedes aegypti to different insecticides in Venezuela. Between 2010 and 2020, the only insecticides available for vector control were the organophosphates (Ops) fenitrothion and temephos which were focally applied. OBJECTIVES: To determine the state of insecticide resistance and to identify the possible biochemical and molecular mechanisms involved in three populations of Ae. aegypti from Venezuela. METHODS: CDC bottle bioassays were conducted on Ae. aegypti collected between October 2019 and February 2020 in two hyperendemic localities for dengue in Aragua State and in a malaria endemic area in Bolívar State. Insecticide resistance mechanisms were studied using biochemical assays and polymerase chain reaction (PCR) to detect kdr mutations. FINDINGS: Bioassays showed contrasting results among populations; Las Brisas was resistant to malathion, permethrin and deltamethrin, Urbanización 19 de Abril was resistant to permethrin and Nacupay to malathion. All populations showed significantly higher activity of mixed function oxidases and glutathione-S-transferases (GSTs) in comparison with the susceptible strain. The kdr mutations V410L, F1534C, and V1016I were detected in all populations, with F1534C at higher frequencies. MAIN CONCLUSION: Insecticide resistance persists in three Ae. aegypti populations from Venezuela even in the relative absence of insecticide application.
Subject(s)
Aedes , Insecticides , Pyrethrins , Animals , Insecticides/pharmacology , Pyrethrins/pharmacology , Malathion , Insecticide Resistance/genetics , Aedes/genetics , Permethrin , Venezuela , Mosquito Vectors/geneticsABSTRACT
BACKGROUND The massive use of insecticides in public health has exerted selective pressure resulting in the development of resistance in Aedes aegypti to different insecticides in Venezuela. Between 2010 and 2020, the only insecticides available for vector control were the organophosphates (Ops) fenitrothion and temephos which were focally applied. OBJECTIVES To determine the state of insecticide resistance and to identify the possible biochemical and molecular mechanisms involved in three populations of Ae. aegypti from Venezuela. METHODS CDC bottle bioassays were conducted on Ae. aegypti collected between October 2019 and February 2020 in two hyperendemic localities for dengue in Aragua State and in a malaria endemic area in Bolívar State. Insecticide resistance mechanisms were studied using biochemical assays and polymerase chain reaction (PCR) to detect kdr mutations. FINDINGS Bioassays showed contrasting results among populations; Las Brisas was resistant to malathion, permethrin and deltamethrin, Urbanización 19 de Abril was resistant to permethrin and Nacupay to malathion. All populations showed significantly higher activity of mixed function oxidases and glutathione-S-transferases (GSTs) in comparison with the susceptible strain. The kdr mutations V410L, F1534C, and V1016I were detected in all populations, with F1534C at higher frequencies. MAIN CONCLUSION Insecticide resistance persists in three Ae. aegypti populations from Venezuela even in the relative absence of insecticide application.
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INTRODUCTION: Neglected tropical diseases (NTDs) in developing countries like the Caribbean, negatively affect multiple income-generating sectors, including the tourism industry upon which island states are highly dependent. Insect-transmitted NTDs include, but are not limited to, malaria, dengue and lymphatic filariasis. Control measures for these disease, are often ignored because of the associated cost. Many of the developing country members are thus retained in a financially crippling cycle, balancing the cost of prophylactic measures with that of controlling an outbreak.The purpose of the paper is to bring awareness to NTDs transmitted by insects of importance to humans, and to assess factors affecting such control, in the English-speaking Caribbean. METHOD: Comprehensive literature review on reports pertaining to NTDs transmitted by insects in the Caribbean and Latin America was conducted. Data search was carried out on PubMed, and WHO and PAHO websites. RESULTS AND CONCLUSION: Potential risk factors for NTDs transmitted by arthropods in the English-speaking Caribbean are summarised. The mosquito appears to be the main insect-vector of human importance within the region of concern. Arthropod-vectors of diseases of veterinary importance are also relevant because they affect the livelihood of farmers, in highly agriculture based economies. Other NTDs may also be in circulation gauged by the presence of antibodies in Caribbean individuals. However, routine diagnostic tests for specific diseases are expensive and tests may not be conducted when diseases are not prevalent in the population. It appears that only a few English-speaking Caribbean countries have examined secondary reservoirs of pathogens or assessed the effectivity of their insect control methods. As such, disease risk assessment appears incomplete. Although continuous control is financially demanding, an integrated and multisectoral approach might help to deflect the cost. Such interventions are now being promoted by health agencies within the region and various countries are creating and exploring the use of novel tools to be incorporated in their insect-vector control programmes.
ABSTRACT
Anopheles albitarsis F is a putative species belonging to the Albitarsis Complex, recognized by rDNA, mtDNA, partial white gene, and microsatellites sequences. It has been reported from the island of Trinidad, Venezuela and Colombia, and incriminated as a vector of malaria parasites in the latter. This study examined mitochondrially encoded cytochrome c oxidase I (MT-CO1) sequences of An. albitarsis F from malaria-endemic areas in Colombia and Venezuela to understand its relations with other members of the Complex, revised and update the geographical distribution and bionomics of An. albitarsis F and explore hypotheses to explain its phylogenetic relationships and geographical expansion. Forty-five MT-CO1 sequences obtained in this study were analyzed to estimate genetic diversity and possible evolutionary relationships. Sequences generated 37 haplotypes clustered in a group where the genetic divergence of Venezuelan populations did not exceed 1.6% with respect to Colombian samples. Anopheles albitarsis F (π = 0.013) represented the most recent cluster located closer to An. albitarsis I (π = 0.009). Barcode gap was detected according to Albitarsis Complex lineages previously reported (threshold 0.014-0.021). Anopheles albitarsis F has a wide distribution in northern South America and might play an important role in the transmission dynamics of malaria due to its high expansion capacity. Future studies are required to establish the southern distribution of An. albitarsis F in Venezuela, and its occurrence in Guyana and Ecuador.
Subject(s)
Animal Distribution , Anopheles/genetics , Electron Transport Complex IV/genetics , Genetic Variation , Haplotypes , Animals , DNA, Mitochondrial/genetics , Mosquito Vectors , Phylogeny , South AmericaABSTRACT
Se evaluó la eficiencia de la trampa Mosquito Magnet Liberty PlusTM (MMLP) cebada con los atrayentes químicos 1-octen-3-ol (octenol) y Lurex 3TM (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 jaulita 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 mosquitos 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(AU)
The efficiency of the Mosquito Magnet Liberty PlusTM (MMLP) trap was evaluated baited with the chemical attractants 1-octen-3-ol (octenol) and Lurex3M (L-lactic acid) together with carbon dioxide (CO2) to collect anophelines in the Amerindian village Boca de Nichare, Sucre municipality, Bolívar State, Venezuela. The trap was operated between 18:00 and 06: hours, 10 nights per month for four months (July-October 2015), the attractants were alternated nightly. To determine the host seeking behavior of anophelines, the trap cage was changed every 4 hours. Five species of Anopheles and four of Culicinae were collected; Anopheles (Nyssorhynchus) darlingi Root and Anopheles oswaldoi (Peryassú) sensu lato were the most abundant species collected. The Align Rank Transform (ART) test for nonparametric ANOVA for the variable attractant and its interactions with species and hour interval were not significant (p > 0.05). An. darlingi and An. oswaldoi s.l. showed contrasting host seeking activity: An. darlingi showed a peak between 22:00 and 02:00 hours, while in An. oswaldoi s.l. there was a steady increase in activity up to the interval 02:00-06:00 hours. The MMLP trap baited either with octenol or Lurex is an alternative method for entomological surveillance in remote Amerindian malaria endemic areas. The biting activity of the vectors An. darlingi and An. oswaldoi s.l. suggests that the use of long-lasting insecticide treated nets could be an effective method to control the transmission of malaria in this area(AU)
Subject(s)
Animals , Venezuela , Indigenous Peoples , Environmental Health , Public HealthABSTRACT
The mosquito Aedes aegypti is the main Dengue vector in Latin America. This study investigated the genetic structure of this vector using samples collected in Venezuela, Colombia, Peru, Mexico, Argentina, Puerto Rico, and French Guiana. We examined the distribution of a 246-basepair region of the NADH dehydrogenase subunit 4 mitochondrial gene among a total of 369 Ae. aegypti from all the populations. This gene was amplified by the polymerase chain reaction and tested for variation using single strand conformation polymorphism analysis. Twelve haplotypes were detected among all the countries sampled and grouped into two clades. Significant differentiation was detected among the populations studied and these were not genetically isolated by distance.
El mosquito Aedes aegypti es el principal vector del Dengue en los países latinoamericanos. En este estudio se investigó la estructura genética de este vector en muestras colectadas en Venezuela, Colombia, Perú, Mexico, Argentina, Puerto Rico y Guyana Francesa. Nosotros examinamos la distribución de una región de 246 pares de bases del gen mitochondrial de la subunidad 4 de la NADH deshidrogenasa entre un total de 369 Ae. aegypti de todas las poblaciones. Este gen fue amplificado por la reacción en cadena de la polimerasa y la variación se determinó usando el análisis de polimorfismos de conformación de cadena simple. Doce haplotipos se detectaron entre todos los países y se repartieron en dos clados. Una diferenciación significativa se detectó entre las poblaciones y estas no se encontraron genéticamente aisladas por distancia.
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Se revisaron un total de 506 montajes permanentes de diferentes estadios de mosquitos del género Chagasia Cruz de la colección del Museo Dr. Pablo Cova García, S.A. Instituto de Altos Estudios Dr. Arnoldo Gabaldon, Maracay. Especímenes previamente identificados como Ch. bathana (Dyar) fueron confirmados como Ch. bonnae Root. Se concluye que hasta el presente, al menos en el estado Bolívar, solo están presentes Ch. bonnae y Ch. ablusa Harbach,estando en discusión la presencia de Ch. bathana en Venezuela.
A total of 506 specimens of mosquitoes from the genus Chagasia Cruz housed in the "Dr. Pablo Cova García" Museum at the Instituto de Altos Estudios, Maracay, were examined. Specimens previously identified as Ch. bathana (Dyar) were confirmed as Ch. bonnae Root. We can conclude that, at least in Bolívar State, only Ch. bonnae and Ch. ablusa Harbach are present. The presence of Ch. bathana in Venezuela remains under discussion.
ABSTRACT
El municipio Sifontes, ubicado en el noreste del estado Bolívar, constituye el principal foco de malaria de Venezuela. Durante el quinquenio 2010-2014, se registró en el municipio un aumento considerable de la morbilidad con una fuerte tendencia al incremento, cerrando 2014 con la cifra record de 51.603 casos, 58% de la malaria del país en el año. Con el objeto de estudiar la distribución espacial de las larvas de anofelinos en los hábitats acuáticos y su relación con las variables ambientales, se hicieron colectas mensuales de larvas en hábitats representativos de los diferentes tipos existentes en la zona, entre septiembre 2002 y diciembre 2003. El Análisis de Correspondencia Canónica (CANOCO) indica que a nivel de hábitat (humedal), la presencia de las especies de Anopheles está determinada por el tipo y la dinámica hídrica del hábitat, mientras que a nivel de microhábitat (cucharonazo) las especies se ubican a lo largo de un gradiente dominado por el tipo de vegetación, y en menor grado por la luz solar y el color aparente del agua. Esto permitió establecer grupos de especies a priori, tales como las del subgénero Nyssorhynchus, asociadas a la luz solar y a ciertas plantas acuáticas, o las de los subgéneros Anopheles y Stethomyia, An. (Lophopodomyia) squamifemur y Chagasia bonneae asociadas a ambientes sombreados y carentes de vegetación. Los resultados ayudan a comprender mejor la relación de las especies de anofelinos con el medio ambiente y resaltan la importancia de variables como la dinámica hídrica, luz solar, vegetación y color aparente del agua para determinar su ocurrencia en el hábitat acuático.
The Municipality of Sifontes, located in the northeast of Bolivar State, is the main malaria foci in Venezuela. A considerable increase in malaria morbidity was recorded in the Municipality during the decade 2010-2014, with a record figure of 51.603 cases for 2014, 58% of the malaria for the country. In order to study the spatial distribution of anopheline inmature stages in the larval habitats and its relation to environmental variables, monthly collections were carried out in larval habitats representatives of the different types present in the area between September 2002 and December 2003. The Canonic Correspondance Analysis (CANOCO) showed that at the larval habitat level the Anopheles species is determined by the type and dynamics of the habitat, while at the microhabitat level (dip) the species are located along a gradient dominated by the type of vegetation, and in a lesser degree by the exposure to sun light and apparent water color. These allowed to established group of species a priori, such as those of the subgenus Nyssorhynchus associated to sun light and certain aquatic plants, or the subgenus Anopheles and Sthetomyia, An. squamifemur and Chagasia bonneae associated to shaded environments and lack of vegetation. The results help to understand the relationship of anopheline species with the environment and the importance of variables such s water dynamics, sun light, vegetation and water apparent color to determine its occurrence in the larval habitat.
ABSTRACT
El Municipio Sifontes, ubicado en el noreste del estado Bolívar, Venezuela, constituye uno de los principales focos de malaria del país debido a causas naturales y antrópicas.Durante el decenio 2004-2013, se registró en este municipio un aumento considerable del número de casos, cerrando 2013 con 42.981 casos, 56% de la malaria del país. Con el objeto de describir la dinámica poblacional de las principales especies de anofelinos, en fase pre-adulta, entre septiembre 2002 y diciembre 2003, se hicieron colectas mensuales en cuerpos de agua representativos de los diferentes tipos existentes en el municipio. Anopheles triannulatus Neiva & Pinto sensu lato fue la especie más abundante y ubicua en toda el área de estudio, seguida de An. albitarsis Lynch Arribalzaga s.l., mientras que An. darlingi Root fue encontrada principalmente en lagunas y ríos. La variabilidad estacional en la abundancia larval estuvo condicionada principalmente por la especie de anofelino y el tipo de hábitat que ésta coloniza, de tal forma que el efecto de la lluvia sobre la abundancia de las especies depende de la dinámica hídrica del hábitat larval, si bien en general, la abundancia de larvas tiende a ser mayor durante el periodo de transición lluvia-sequía y sequía. Los resultados de este estudio contribuyen a dilucidar la relación de la dinámica poblacional de los anofelinos con el patrón de lluvias en la región estudiada.
Sifontes Municipality in the north-east of Bolivar State is one of the main malaria foci in Venezuela due to both natural and anthropic factors. Between 2004 and 2013 a significant increase in the number of cases were reported for this region: at the close of 2013, 42.981 cases had been registered representing 56% of the total number of cases reported in the country. Between September 2002 and December 2003 anopheline larvae were collected monthly to study population fluctuations in different habitats representative of the study area. Anopheles triannulatus Neiva & Pinto sensu lato was the most abundant species collected followed by An. albitarsis Lynch Arribalzaga s.l., while An. darlingi Root was mainly found in lagoons and rivers. Seasonal variations in larval abundance were mainly determined by anopheline species and the type of larval habitat exploited by each one. Anopheline species are thus differentially influenced by rainfall according to the water dynamics of their larval habitats, but in general abundance is higher during the transitions between rainfall-drought and the dry season. These results help us to understand the relationships between anopheline population dynamics and rainfall patterns in this region. In addition, they contribute to our basic knowledge of the bio-ecology of anopheline vectors important for the epidemiology, surveillance and control of malaria in Sifontes Municipality.
ABSTRACT
Adaptive management and ecohealth frameworks were developed for malaria elimination in Amerindian riparian communities of Venezuela. These frameworks were developed as a strategy to capture, organize, and communicate connections among key factors related to local malaria complex systems. Important causal relationships between social, economic, and environmental stressors which are determinant of malaria were identified at different levels and assumptions that guide interventions are offered, based on available scientific knowledge and input from stakeholders. Drawing on our experience of action research committed to the health of Amerindian populations and conservation of areas with biodiversity value, the authors provide lessons to strengthen the practice of an ecohealth approach. First, conservation targets were considered as a way to achieve sustainable human well-being rather than as a consequence of well-being. Second, the effectiveness and sustainability of technical solutions generally proposed for malaria control depend largely on individual knowledge, attitudes, and practices. Hence, it is necessary to look at the real opportunities of choices that Amerindian people have for attaining a life without malaria, and therefore pay attention to local capabilities, needs, and freedom to choose. The ecohealth approach can benefit from the capability approach, and we explain why.
Subject(s)
Endemic Diseases/prevention & control , Environment , Indians, South American , Malaria/ethnology , Malaria/prevention & control , Culture , Economics , Ecosystem , Health Knowledge, Attitudes, Practice , Health Services Research , Humans , Malaria/transmission , Social Determinants of Health , VenezuelaABSTRACT
El Manual contiene información básica, tanto para técnicos como para profesionales, de los materiales y métodos empleados actualmente para capturar mosquitos del género Anopheles y otros géneros de mosquitos de importancia en salud pública con bionomías similares en Venezuela. El Manual está dividido en dos partes. Capitulo I, describe los materiales y métodos empleados para capturar estadios inmaduros (larvas y pupas), así como las fichas que utilizamos en campo para el registro de la información relevante, transporte y preservación de mosquitos capturados. Capitulo II, describe diversos métodos, así como los materiales y equipos necesarios para captura de mosquitos adultos, preservación y transporte.(AU)
Subject(s)
Humans , Animals , Male , Female , Mosquito Control , Anopheles , Culicidae , Delivery of Health Care , Epidemiological MonitoringABSTRACT
Se realizó un estudio longitudinal en 18 comunidades o shabonos de las localidades Yanomami Ocamo y Mavaca del municipio Alto Orinoco entre Junio 1998 y Diciembre 2000 para caracterizar la fauna de culicinos. Se colocaron trampas CDC dentro de viviendas entre 1900 y 0600 horas a fin de capturar los mosquitos atraídos por personas protegidas por mosquiteros. Se capturaron un total de 4.635 culicinos pertenecientes a nueve géneros y 25 especies. Del total de especies identificadas, 18 especies (72%) constituyen nuevos registros para el estado Amazonas. Las especies más abundantes fueron Mansonia (Mansonia) titillans (48%), Aedes (Ochlerotatus) fulvus (16,9%) y Culex (Melanoconion) spissipes (12%). Se observaron correlaciones negativamente significativas entre precipitación, nivel del río y abundancia de Ma. titillans y Ae. fulvus. La abundancia y diversidad de especies resultó diferente entre comunidades. La mayor diversidad y abundancia se encontró en las comunidades Santa María de los Guaicas y Carlitos. El esfuerzo de captura, disponibilidad de criaderos y diversidad de hábitats en estas comunidades influye en esta diferencia con respecto a las otras comunidades. El presente constituye el primer y único estudio longitudinal realizado en el estado Amazonas para caracterizar la fauna de culicinos, la cual incluye especies de importancia en salud pública.
A longitudinal study was conducted in 18 communities or "shabonos" in the Yanomami inhabited Ocamo and Mavaca regions in the Alto Orinoco municipality between June 1998 and December 2000. CDC light traps were placed inside dwellings to catch mosquitoes attracted to humans protected by mosquito nets between 1900 and 0600 hours. A total of 4.635 culicines belonging to 9 genera and 25 species were captured. Of the total number of species identified, 18 (72%) are new reports for Amazonas state. The most abundant species were Mansonia (Mansonia) titillans (48%), Aedes (Ochlerotatus) fulvus (16.9%) and Culex (Melanoconion) spissipes (12%). There were significantly negative correlations between rainfall and river levels, and the abundance of Ma. titillans and Ae. fulvus. The abundance and species diversity of culicines differed among communities, with the highest values of both these parameters found in Santa María de los Guiacas and Carlitos. These differences were partly due to sampling effort but could also have been produced by the availability of larval habitats and niche diversity in these communities compared to the others surveyed. Up until, now this is the only longitudinal study to characterize the culicine fauna in Amazonas state, which includes several species of public health importance.
ABSTRACT
La malaria es endemo-epidémica en el estado Bolívar, con brotes epidémicos frecuentes debido a causas naturales y antrópicas. En el municipio Sifontes, ubicado en el noreste del estado, durante el último decenio se ha registrado un aumento considerable de los casos, cerrando 2013 con 46.610 casos, 71% % de la malaria del estado y 61% del país. Este es un foco meso-endémico de malaria inestable donde la transmisión ocurre durante todo el año, con brotes epidémicos estrechamente relacionados con la minería aurífera. A partir de 1983, gran parte de la malaria en Venezuela depende de la generada en el estado Bolívar, y esta a su vez de la generada en el municipio Sifontes. La revisión de la data de malaria del estado en el periodo 1980-2013 reveló la existencia de dos niveles epidemiológicos, uno basal y otro adicional, este último ligado a la minería aurífera; sin embargo, no se encontró correlación con la lluvia, para el nivel basal (R = 0,41, P= 0,78) ni para el nivel epidémico (R = 0,41; P = 0,32). Asimismo, la proyección geográfica de los datos reveló la naturaleza focal de la enfermedad en el municipio, el cual reúne todas las condiciones epidemiológicas, ambientales, climáticas y sociales para ser considerado un foco caliente. Las características espaciales y temporales de la malaria en el municipio Sifontes lo configuran como el foco de malaria más importante en Venezuela, el cual debe ser priorizado en los planes de control de la enfermedad.
Malaria is endemo-epidemic in Bolívar state with frequent epidemic outbreaks occurring due to both natural and anthropic factors. The Sifontes municipality, located in the northeastern corner of the state, has reported a considerable increase in the number of cases over the last decade; with 46.610 cases registered during 2013. This represents 71% of the number of malaria cases reported for the state and 61% for the country in this same year. Sifontes municipality is a meso-endemic focus of unstable malaria, and transmission occurs throughout the year with epidemic outbreaks tightly linked to gold mining activities. Since 1988 the increase in the number of cases reported in Venezuela has been determined by the number of cases reported in Bolívar state which, in turn, is correlated with the number of cases reported in Sifontes. A review of malaria data between 1980 and 2013 reveals the existence of two epidemiological categories: a base level and an additional level, the latter associated with gold mining; nevertheless, there was not correlation whit the rainfall for basal (R = 0,41, P= 0,78) or additional level (R = 0,41; P = 0,32). In addition, a geographic plotting of the data revealed the focal nature of malaria in the municipality, which to gather all environmental, climatic, social and epidemiological factors that have produced conditions typical of a hot spot. The spatial and temporal characteristics of malaria in the Sifontes municipality demonstrates that this is the most important malaria focus in Venezuela, and must be prioritized when designing strategies for the control of this disease.
ABSTRACT
To explore the effects of deforestation and resulting differences in vegetation and land cover on entomological parameters, such as anopheline species composition, abundance, biting rate, parity and entomological inoculation rate (EIR), three villages were selected in the Lower Caura River Basin, state of Bolívar, Venezuela. All-night mosquito collections were conducted between March 2008-January 2009 using CDC light traps and Mosquito Magnet® Liberty Plus. Human landing catches were performed between 06:00 pm-10:00 pm, when anophelines were most active. Four types of vegetation were identified. The Annual Parasite Index was not correlated with the type of vegetation. The least abundantly forested village had the highest anopheline abundance, biting rate and species diversity. Anopheles darlingi and Anopheles nuneztovari were the most abundant species and were collected in all three villages. Both species showed unique biting cycles. The more abundantly forested village of El Palmar reported the highest EIR. The results confirmed previous observations that the impacts of deforestation and resulting changes in vegetation cover on malaria transmission are complex and vary locally.
Subject(s)
Anopheles/classification , Biodiversity , Feeding Behavior/physiology , Insect Vectors/classification , Malaria/transmission , Animals , Anopheles/physiology , Female , Humans , Insect Bites and Stings , Insect Vectors/physiology , Longitudinal Studies , Malaria/epidemiology , Male , Population Density , Risk Factors , Rivers , Seasons , Venezuela/epidemiologyABSTRACT
To explore the effects of deforestation and resulting differences in vegetation and land cover on entomological parameters, such as anopheline species composition, abundance, biting rate, parity and entomological inoculation rate (EIR), three villages were selected in the Lower Caura River Basin, state of Bolívar, Venezuela. All-night mosquito collections were conducted between March 2008-January 2009 using CDC light traps and Mosquito Magnet(r) Liberty Plus. Human landing catches were performed between 06:00 pm-10:00 pm, when anophelines were most active. Four types of vegetation were identified. The Annual Parasite Index was not correlated with the type of vegetation. The least abundantly forested village had the highest anopheline abundance, biting rate and species diversity. Anopheles darlingi and Anopheles nuneztovari were the most abundant species and were collected in all three villages. Both species showed unique biting cycles. The more abundantly forested village of El Palmar reported the highest EIR. The results confirmed previous observations that the impacts of deforestation and resulting changes in vegetation cover on malaria transmission are complex and vary locally.
Subject(s)
Animals , Female , Humans , Male , Anopheles/classification , Biodiversity , Feeding Behavior/physiology , Insect Vectors/classification , Malaria/transmission , Anopheles/physiology , Insect Bites and Stings , Insect Vectors/physiology , Longitudinal Studies , Malaria/epidemiology , Population Density , Risk Factors , Rivers , Seasons , Venezuela/epidemiologyABSTRACT
Se registran por primera vez anopheles albitarsis F y anopheles oswaldoi B recolectadas en localidades de los municipios Sucre y Cedeño del estado Bolívar. Los análisis morfométricos de hembras adultas mostraron que los caracteres analizados en las manchas claras y oscuras de la vena Costa del ala y los tarsómeros de las patas posteriores para An. albitarsis F caen dentro de los rangos reportados para An. marajora sensu lato, mientras que para An. oswaldoi B los rangos de variación de los caracteres medidos están dentro del rango reportado para An. oswaldoi s.l., An. oswaldoi sensu stricto de Brasil y An. konderi. Sin embargo, el análisis de ADN mitocondrial (región código de barras, 658 pb) mostró una divergencia genética entre An. oswaldoi B y An. oswaldoi s.s. de 3,2%, mientras entre An. albirtarsis F y An. marajoara s.s. esta fue de 5,2%, valores que están por encima de los limites propuestos para delimitación de especies.
Anopheles albitarsis F and Anopheles oswaldoi B were first recorded from collections in Sucre and Cedeño Municipalities, Bolivar State. Morphometric analysis of dark and pale spots on wing Costa and hind tarsomeres of adult females, showed that the range of variation for An. albitarsis F are within the reported ranges for An. marajoara sensu latu For An. oswaldoi B the range of variation are within the ranges reported for An. oswaldoi s.l., An. oswaldoi sensu stricto from Brazil and An. konderi. DNA mitochondrial analysis (Barcode region 658 bp) showed 3.2% of genetic divergence between An. oswaldoi B and An. oswaldoi s.s., while this divergence was 5.2% between An. albirtarsis F and An. marajoara s.s. Both these values are above the proposed limits for species delimitation.