Agamermis sp. (Nematoda: Mermithidae) parasitizing Armadillidium vulgare (Crustacea: Isopoda) in Argentina.

The Mermithidae is a family of nematodes parasitic in many kinds of insects, spiders, leeches, crustaceans and other invertebrates throughout the world. While conducting an assay with entomopathogenic nematodes, we found Armadillidium vulgare (Crustacea: Isopoda) individuals to be infected with Agamermis sp., marking the fourth known discovery of a mermithid infection in the order Isopoda. In this work, we contribute with an 18S rDNA sequence of the isolated nematode and the morphological and morphometrical characterization of the juveniles.

Behavior of Aedes albifasciatus (Diptera: Culicidae) larvae from eggs with different dormancy times and its relationship with parasitism by Strelkovimermis spiculatus (Nematoda: Mermithidae).

Aedine mosquitoes go through unfavorable periods as dormant eggs. However, extended dormancy times lead to a depletion of egg reserves, which might be partially compensated by changes in larval-feeding behavior. Changes in larval behavior may also be induced by parasitism by mermithids probably as a strategy to reduce the impact of the parasite on the host. The most abundant floodwater mosquito in southern South America is Aedes albifasciatus (Diptera: Culicidae), a species naturally parasitized by Strelkovimermis spiculatus (Nematoda: Mermithidae). This study aimed to evaluate the behavior of fourth-instar larvae of Ae. albifasciatus from eggs with 2, 4, and 6 months of dormancy, parasitized or not by S. spiculatus. To achieve this, eight categories of behavior were defined, and then, each individual was observed for 5 min, and its behaviors and their duration were recorded. The behaviors with the highest percentage of observation time were still (50.1%) and wriggle swimming (33.6%), while those with the lowest percentage of observation time were those involving active foraging (less than 8%). A great variability in the behaviors was observed among individuals within the same treatment. The type and duration of each behavior did not vary in relation to egg dormancy time or parasitism, but parasitism affected the level of larval activity. Parasitized larvae performed, on average, fewer behaviors than non-parasitized larvae. This result supports the hypothesis that S. spiculatus parasitism affects the behavior of Ae. albifasciatus larvae by reducing their level of activity.

Susceptibility of the floodwater mosquito Aedes albifasciatus from eggs of different dormancy times to the nematode parasite Strelkovimermis spiculatus.

This study aimed to evaluate the effects of egg dormancy times on susceptibility of larvae of the floodwater mosquito Aedes albifasciatus (Diptera: Culicidae) to parasitism by their natural enemy Strelkovimermis spiculatus (Nematoda: Mermithidae) and on their life history traits. Aedes albifasciatus eggs stored for 2, 4, 6, 8 and 10 months were hatched, and the larvae either exposed to S. spiculatus (treatment group) or not exposed (control group). Egg dormancy time had a negative effect on the retention of parasites, but no effect on the prevalence and intensity of parasitism or the melanization of nematodes. The survival to adulthood of control individuals decreased as dormancy time increased, whereas that of exposed individuals that remained uninfected was constant and low. A trend towards increasing development times with longer dormancy times was detected in the control group, but not in the exposed noninfected group. The results suggest nonconsumptive effects of parasites in exposed but not infected larvae from eggs with short dormancy times. In contrast, the relatively low fitness of larvae from eggs with long dormancy times regardless of their contact with the nematodes may be the result of the nutritional deprivation during the egg stage.

Mosquito Iridescent Virus: New Records from Nature and Infections Using Strelkovimermis spiculatus (Mermithidae) as a Vector Under Laboratory Conditions.

Iridoviridae is a DNA virus family that affects both vertebrates and invertebrates. Immature aquatic stages of many dipteran species infected with iridovirus have been found in different places worldwide. The most represented genera of the Culicidae family are Aedes and Psorophora. To date, sixteen species of Aedes naturally infected with iridoviruses have been reported. Moreover, there are four records for the genus Psorophora, one for Culiseta, and two for Culex. In this paper, we report two new mosquito species as natural hosts of iridoviridae in Argentina: Aedes albifasciatus (Macquart) and Culex dolosus (Lynch Arribalzaga). We also analyzed the ability of a Cx. pipiens-Invertebrate Iridescent Virus to replicate in vivo in the larval stage of two mosquito species, Culex apicinus Philippi and Ae. aegypti (L.) using Strelkovimermis spiculatus as a vector, under laboratory conditions. Although Ae. aegypti is the most recognized mosquito vector of important arboviruses responsible for emergent diseases, Cx. apicinus and Ae. albifasciatus may also be implicated in enzootic or epizootic cycles of virus transmission, such as the St. Louis Encephalitis virus and the Western Equine Encephalomyelitis virus.

Nematodes (Mermithidae) parasitizing grasshoppers (Orthoptera: Acrididae) in the Pampean region, Argentina / Nematóides (Mermithidae) parasitando gafanhotos (Orthoptera: Acrididae) nos Pampas região, a Argentina

Abstract This work provides the results of a survey of entomonematodes parasites of grasshoppers in grasslands of the Pampean Region, Argentina. Nymphs of Staurorhectus longicornis Giglio-Tos, Laplatacris dispar Rhen, 1939, Dichroplus elongatus Giglio-Tos, 1894 and Metaleptea brevicornis (L.) (Orthoptera: Acrididae) were collected. Mermithidae was the only family registered with seven species: Agamermis decaudata Cobb, Steiner and Christie, 1923, Amphimermis bonaerensis Miralles and Camino, 1983, Amphimermis dichroplusi Camino and Lange, 1997, Amphimermis ronderosi Camino and Lange, 1997, Hexamermis coclhearius Stock and Camino, 1992, Hexamermis ovistriata Stock and Camino, 1992, and Longimermis acridophila Camino and Stock, 1989. The values of parasitism ranged between 1-12%, and intensity not overcome the number of 5.0 nematodes per larva. The nematodes observed showed specificity, not registering the same species of parasite in more than one host species. The Pampean region constituted an area with high diversity of mermithids where new species could be consider as bioregulator agents of this troublesome insect pests in agricultural areas of Argentina.

Resumo Este trabalho apresenta os resultados de uma pesquisa entomonematode parasitando gafanhotos em pastagens da região pampeana, Argentina. Ninfas de Staurorhectus longicornis Giglio-Tos, Laplatacris dispar Rhen de 1939, Dichroplus elongatus Giglio-Tos, 1894 e Metaleptea brevicornis (L.) (Orthoptera: Acrididae) foram coletados. Mermithidae era a única família registrado com sete espécies: Agamermis decaudata Cobb, Steiner and Christie, 1923, Amphimermis bonaerensis Miralles and Camino, 1983, Amphimermis dichroplusi Camino and Lange, 1997, Amphimermis ronderosi Camino and Lange, 1997, Hexamermis coclhearius Stock and Camino, 1992, Hexamermis ovistriata Stock and Camino, 1992, e Longimermis acridophila Camino and imagem, de 1989. Os valores de parasitismo variou entre 1-12%, e intensidade não superar o número de 5,0 nematóides por larva. Os nemátodos observados demonstraram especificidade, não registar as mesmas espécies de parasita em mais do que uma espécie de hospedeiro. A região pampeana constituída uma área com alta diversidade de mermithids onde novas espécies poderiam ser consideradas como agentes bio-reguladores deste incômodos insetos pragas em áreas agrícolas da Argentina.

Nematodes (Mermithidae) parasitizing grasshoppers (Orthoptera: Acrididae) in the Pampean region, Argentina.

This work provides the results of a survey of entomonematodes parasites of grasshoppers in grasslands of the Pampean Region, Argentina. Nymphs of Staurorhectus longicornis Giglio-Tos, Laplatacris dispar Rhen, 1939, Dichroplus elongatus Giglio-Tos, 1894 and Metaleptea brevicornis (L.) (Orthoptera: Acrididae) were collected. Mermithidae was the only family registered with seven species: Agamermis decaudata Cobb, Steiner and Christie, 1923, Amphimermis bonaerensis Miralles and Camino, 1983, Amphimermis dichroplusi Camino and Lange, 1997, Amphimermis ronderosi Camino and Lange, 1997, Hexamermis coclhearius Stock and Camino, 1992, Hexamermis ovistriata Stock and Camino, 1992, and Longimermis acridophila Camino and Stock, 1989. The values of parasitism ranged between 1-12%, and intensity not overcome the number of 5.0 nematodes per larva. The nematodes observed showed specificity, not registering the same species of parasite in more than one host species. The Pampean region constituted an area with high diversity of mermithids where new species could be consider as bioregulator agents of this troublesome insect pests in agricultural areas of Argentina.

Prevalence of parasitism and adult survival time of Aedes albifasciatus (Diptera: Culicidae) parasitized by Strelkovimermis spiculatus (Nematoda: Mermithidae).

We described the carryover of Strelkovimermis spiculatus (Poinar and Camino) (Nematoda: Mermithidae) from mosquito larvae, the primary site of maturation, to adults. We analyzed the survival time of male and female Aedes albifasciatus (Macquart) (Diptera: Culicidae) parasitized by S. spiculatus, the time of emergence of nematodes from adult mosquitoes, and the state of parasitism in the same mosquito cohorts during the immature stages. Mosquito larvae with single and multiple parasitism (up to 11 parasites) were observed. The mortality of mosquito larvae and adults was produced in all cases where at least one mermithid emerged. The mortality of S. spiculatus showed an increasing trend in mosquito larvae with larger numbers of nematodes and was higher in larvae parasitized by eight or more nematodes. Maximum survival of parasitized adult females of Ae. albifasciatus was 38 days, while non-parasitized adult males and females survived 39 and 41 days, respectively. Strelkovimermis spiculatus mortality was observed in Ae. albifasciatus larvae with single or multiple parasitisms. The spread of mermithid parasitism in adult mosquito populations is discussed.

Romanomermis culicivorax (Nematoda:Mermithidae): una alternativa para el control de vectores de malaria en Nicaragua / Romanomermis culicivorax (Nematoda: Mermithidae): an alternative for malaria vector control in Nicaragua

Introducción: la aparición de casos de malaria en zonas donde se creía controlada, como lo es la Región Autónoma Atlántica Norte en Nicaragua, se debe a múltiples factores como el costo de los productos químicos para el control vectorial, zonas de difícil accesibilidad y altos índices de pobreza. Recientemente existe un marcado interés en disminuir la incidencia y prevalencia de la malaria en esta área, mediante la producción y aplicación de alternativas biológicas de control. Objetivos: establecer y estandarizar la cría de Romanomermis culicivorax para la producción masiva en condiciones de laboratorio y su utilización en criaderos naturales para reducir la población de Anopheles albimanus en 3 municipios de la Región Autónoma Atlántica Norte. Métodos: se utilizaron cultivos de una cepa de Romanomermis culicivorax provenientes del Instituto de Medicina Tropical Pedro Kourí de La Habana, Cuba. El establecimiento y la producción de esta cepa se hizo siguiendo la metodología descrita por especialistas cubanos. El trabajo se realizó en 7 criaderos de 5 barrios pertenecientes a los municipios Puerto Cabezas, Waspam y Rosita, desde noviembre de 2009 a marzo de 2011. Resultados: se estableció y estandarizó la cría del nematodo, utilizando la dosis de infestación de 7:1 (7 pre-parasíticos por larva) en condiciones de laboratorio. La dosis de aplicación en los criaderos fue 1 000 pre-parasíticos/m²,demostrando ser adecuada para las condiciones de campo. Se lograron porcentajes de reducción elevados y en menor tiempo en los municipios Waspam y Rosita. Se demostró la permanencia del nematodo en los criaderos. Conclusiones: se establece por primera vez y con éxito la producción masiva de Romanomermis culicivorax en Nicaragua. Los resultados en el terreno demostraron la eficiencia de este nematodo para controlar densidades larvales de Anopheles albimanus, lo cual constituye una alternativa de control vectorial(AU)

Introduction: the emergence of malaria cases in areas where the disease was thought to be controlled, such as the North Atlantic Autonomous Region in Nicaragua, is due to a variety of factors, such as the cost of chemicals for vector control, the inaccessibility of areas and the high rates of poverty. A marked interest has recently arisen in reducing the incidence and prevalence of malaria in the region by developing and implementing biological control alternatives. Objectives: establish and standardize the breeding of Romanomermis culicivorax for mass production under laboratory conditions and for its use in natural breeding sites to reduce the population of Anopheles albimanus in three municipalities of the North Atlantic Autonomous Region. Methods: the study was based on cultures of a Romanomermis culicivorax strain obtained from Pedro Kourí Tropical Medicine Institute in Havana, Cuba. The strain was established and produced following the methodology described by Cuban specialists. The research was conducted at 7 breeding sites from 5 districts in the municipalities of Puerto Cabezas, Waspam and Rosita, from November 2009 to March 2011. Results: breeding of the nematode was established and standardized with a 7:1 infestation dose (7 preparasites per larva) under laboratory conditions. The application dose at breeding sites was 1 000 preparasites/m², which proved to be appropriate for field conditions. High reduction percentages were obtained. These were achieved in a shorter time in the municipalities of Waspam and Rosita. It was found that the nematodes remained at the breeding sites. Conclusions: successful mass production of Romanomermis culicivorax is established for the first time in Nicaragua. Field results show the efficiency of this nematode to control larval densities of Anopheles albimanus, constituting a vector control alternative(AU)

Romanomermis culicivorax (Nematoda:Mermithidae): una alternativa para el control de vectores de malaria en Nicaragua / Romanomermis culicivorax (Nematoda: Mermithidae): an alternative for malaria vector control in Nicaragua

Introducción: la aparición de casos de malaria en zonas donde se creía controlada, como lo es la Región Autónoma Atlántica Norte en Nicaragua, se debe a múltiples factores como el costo de los productos químicos para el control vectorial, zonas de difícil accesibilidad y altos índices de pobreza. Recientemente existe un marcado interés en disminuir la incidencia y prevalencia de la malaria en esta área, mediante la producción y aplicación de alternativas biológicas de control. Objetivos: establecer y estandarizar la cría de Romanomermis culicivorax para la producción masiva en condiciones de laboratorio y su utilización en criaderos naturales para reducir la población de Anopheles albimanus en 3 municipios de la Región Autónoma Atlántica Norte. Métodos: se utilizaron cultivos de una cepa de Romanomermis culicivorax provenientes del Instituto de Medicina Tropical Pedro Kourí de La Habana, Cuba. El establecimiento y la producción de esta cepa se hizo siguiendo la metodología descrita por especialistas cubanos. El trabajo se realizó en 7 criaderos de 5 barrios pertenecientes a los municipios Puerto Cabezas, Waspam y Rosita, desde noviembre de 2009 a marzo de 2011. Resultados: se estableció y estandarizó la cría del nematodo, utilizando la dosis de infestación de 7:1 (7 pre-parasíticos por larva) en condiciones de laboratorio. La dosis de aplicación en los criaderos fue 1 000 pre-parasíticos/m²,demostrando ser adecuada para las condiciones de campo. Se lograron porcentajes de reducción elevados y en menor tiempo en los municipios Waspam y Rosita. Se demostró la permanencia del nematodo en los criaderos. Conclusiones: se establece por primera vez y con éxito la producción masiva de Romanomermis culicivorax en Nicaragua. Los resultados en el terreno demostraron la eficiencia de este nematodo para controlar densidades larvales de Anopheles albimanus, lo cual constituye una alternativa de control vectorial(AU)

Introduction: the emergence of malaria cases in areas where the disease was thought to be controlled, such as the North Atlantic Autonomous Region in Nicaragua, is due to a variety of factors, such as the cost of chemicals for vector control, the inaccessibility of areas and the high rates of poverty. A marked interest has recently arisen in reducing the incidence and prevalence of malaria in the region by developing and implementing biological control alternatives. Objectives: establish and standardize the breeding of Romanomermis culicivorax for mass production under laboratory conditions and for its use in natural breeding sites to reduce the population of Anopheles albimanus in three municipalities of the North Atlantic Autonomous Region. Methods: the study was based on cultures of a Romanomermis culicivorax strain obtained from Pedro Kourí Tropical Medicine Institute in Havana, Cuba. The strain was established and produced following the methodology described by Cuban specialists. The research was conducted at 7 breeding sites from 5 districts in the municipalities of Puerto Cabezas, Waspam and Rosita, from November 2009 to March 2011. Results: breeding of the nematode was established and standardized with a 7:1 infestation dose (7 preparasites per larva) under laboratory conditions. The application dose at breeding sites was 1 000 preparasites/m², which proved to be appropriate for field conditions. High reduction percentages were obtained. These were achieved in a shorter time in the municipalities of Waspam and Rosita. It was found that the nematodes remained at the breeding sites. Conclusions: successful mass production of Romanomermis culicivorax is established for the first time in Nicaragua. Field results show the efficiency of this nematode to control larval densities of Anopheles albimanus, constituting a vector control alternative(AU)

Host range of the parasite Strelkovimermis spiculatus (Nematoda: Mermithidae) in Argentina mosquitoes.

Strelkovimermis spiculatus (Poinar and Camino 1986) is a nematode parasite of mosquitoes isolated from the Neotropical region. We investigated the host range of this parasite in mosquito populations for a better understanding of the dynamics of temporary breeding sites. Five grassy-pool habitats filled by rainwater were sampled from the summer 2007 through the fall 2008. Eight mosquito species were collected: Anopheles albitarsis, Culex chidesteri, Culex dolosus, Culex maxi, Aedes albifasciatus, Psorophora ciliata, Psorophora cyanescens, and Psorophora albigenu. Six of these species were parasitized: Cx. chidesteri, Cx. dolosus, Cx. maxi, Ae. albifasciatus, Ps. ciliata, and Ps. cyanescens. The occurrence of this mermithid in natural mosquito populations was increased from the end of winter to the end of the spring. Prevalence ranged from 11% to 100%. High levels of infections were registered only in Ae. albifasciatus larvae, the most abundant mosquito species (95%), followed by Cx. dolosus (2.7%). Strelkovimermis spiculatus completed its development in all infected mosquito larvae. The presence of S. spiculatus in six natural mosquito populations increases the number of susceptible species to 24.

Effect of temperature, photoperiod, flooding, and drying on the hatching pattern of the eggs of Strelkovimermis spiculatus (Nematoda: Mermithidae).

We assessed the number of Strelkovimermis spiculatus preparasites obtained from a known initial number of nematode eggs and the effect of abiotic conditions (temperature, photoperiod, flooding-drying) on the number of emerged preparasites. Two egg groups were maintained: one continuously flooded, another with flooding-drying cycles (every 15, 30, 60 days). Each egg group was studied at 25°C and 14:10 (L:D) and 16°C and 12:12 (L:D). The flooded eggs contained a higher overall percentage of S. spiculatus preparasites compared to the wet-dry-cycle eggs. The conditions of continuous flooding at 16°C and 12:12 (L:D) produced the maximum percent of emerged J2s (30±15%). Preparasites were recorded by 7 (25°C) and 14 (16°C) days, suggesting this period as the minimum time for embryonic development. The preparasite-emergence time observed from the same flooded-egg batch (98 and 112 days at 25°C and 16°C, respectively) suggested a nonsynchronous hatching, possibly through nonuniform egg embryonation. The time of exposure to drought in the assays did not significantly affect the total average percentage of J2s obtained at 25°C and 14:10 (L:D), whereas at 16°C the number of emerged J2s diminished with a prolongation of the drying period. The oviposition period was also recorded only at 16°C and 12:12 (L:D): S. spiculatus eggs were detected at 12.6 days after postparasite emergence, and oviposition was complete at 51days under those conditions. We propose a flooding schedule to optimize the mass-rearing of S. spiculatus.

Allomermis solenopsi n. sp. (Nematoda: Mermithidae) parasitising the fire ant Solenopsis invicta Buren (Hymenoptera: Formicidae) in Argentina.

Allomermis solenopsi n. sp. (Mermithidae: Nematoda) is described from the fire ant Solenopsis invicta Buren (Hymenoptera: Formicidae) in Argentina. Diagnostic characters of the new species include stiff and erect processes on the surface of the mature egg, small female amphids, extension of the latero-medial rows of male genital papillae beyond the middle rows, an obliquely truncate spicule tip and a ventrally swollen male terminus. This is the first record of Allomermis Steiner, 1924 from South America and the first host record for members of this genus. Previous records of mermithids from Solenopsis spp. are summarised. The placement in Allomermis was confirmed by molecular analyses based on nuclear 18S ribosomal DNA sequences, the first such molecular framework for the Mermithidae. The possible life-cycle of the parasite is discussed, with the aim of using A. solenopsi as a biological control agent for fire ants in the United States.

[Pathogenic effect of 3 parasitic nematodes in Aedes aegypti larvae under laboratory conditions in Cuba]. / Efecto patogénico de 3 nematodos parásitos en larvas de Aedes aegypti en condiciones de laboratorio, en Cuba.

The pathogenic effect of three parasitic nematodes, Romanomermis culicivorax Ross y Smith, 1976, Romanomermis iyengari Welch, 1964, and Strelkovimermis spiculatus Poinar and Camino, 1986, was evaluated at different application doses in larvae of Aedes aegypti. For each experimental unit, one hundred second instar larvae of this mosquitoe were infested with preparasites of the three nematode species in the following proportions: 3:1, 5:1, 10:1, 15:1 and 20:1. Both infestation mean and parasitism rate increased as the doses augmented. Romanomermis culicivorax proved to be more effective at low doses when compared to other species; however, with the 10:1 proportion, all the nematodes caused 100% of mortality. S. spiculatus showed the highest infestation rate. For this reason, a proportion of 10:1 could be recommended to evaluate these nematodes under natural conditions in useless artificial containers as a biological alternative for Aedes aegypti control.

Efecto de la temperatura sobre la longevidad e infección con preparásitos del nematodo Strelkovimermis spiculatus (Nemata: Mermithidae), parásito de mosquitos culícidos / Effect of temperature on longevity and infection with the nematode Strelkovimermis spiculatus (Nemata: Mermithidae), a parasite of mosquitoes

Strelkovimermis spiculatus is a common parasite of culicid species in Argentina. Effect of temperature on longevity and infectivity of juvenile preparasites of S. spiculatus was determined at 4, 10, 20 and 27 degrees C. Three containers with 100 ml of dechlorinate water and 300 preparasites (12 hour-old), were placed for each day and temperature, during 40 days (total = 480 containers). Survived preparasites were counted on 12 containers per day (three for each temperature). When number of survived preparasites was determined, second instar larvae of Aedes aegypti were added to each container in a 10:1 ratio (preparasites:mosquito) to determine infectivity of daily survived preparasites. Longevity of preparasites decreased at higher temperatures. Maximum longevity of preparasites maintained at 4, 10, 20 and 27 degrees C were 35, 30, 25 and 27 days, respectively. Survivorship of preparasites, exposed to the same temperatures, varied from 57 to 100 at day two, from 21 to 77 at day five and from 9 to 33 at day ten. Infectivity of preparasites maintained at temperatures from 4 to 27 degrees C was always higher than 70. Extended longevity with maintenance of the infectivity capacity of preparasites, are important attributes to consider S. spiculatus an effective mean of controlling a large number of culicid species between 4 and 27 degrees C.

Mortality in immatures of the floodwater mosquito Ochlerotatus albifasciatus (Diptera: Culicidae) and effects of parasitism by Strelkovimermis spiculatus (Nematoda: Mermithidae) in Buenos Aires Province, Argentina.

Life tables were constructed for six cohorts of immature stages of the floodwater mosquito Ochlerotatus albifasciatus (Macquart) in a park in Buenos Aires, highlighting the mortality attributable to the parasitic nematode, Strelkovimermis spiculatus Poinar & Camino. Two cohorts were selected to compare parasite incidence in all mosquito stages when low and high parasitism occurred. Development time of Oc. albifasciatus from first instar to adult was 7.7-10 days in the spring, 6 days in the summer, and 10.9-21.9 days in the fall. Survival was estimated as 0-1.4% in the spring, 2% in the summer and 0.2-4.4% in the fall. The highest "K" value (Killing power) occurred during a fall cohort when prevalence of the parasite was 86.9%, and the lowest in a spring cohort. Parasitism occurred during all seasons, but S. spiculatus persisted to adult only in the summer and fall, when adult mosquitoes developed from parasitized third and fourth instars larvae. The abundance of S. spiculatus differed between old and young larvae only when parasite prevalence was the highest. Although pupae and adults of Oc. albifasciatus were parasitized, no pupal mortality attributable to parasitism was recorded. The proportion of parasitized adults ranged from 14.2% and 5.7% in the two cohorts compared. Pupal wet weight and adult wing lengths did not differ between parasitized and unparasitized individuals.

Mortality in immatures of the floodwater mosquito Ochlerotatus albifasciatus (Diptera: Culicidae) and effects of parasitism by Strelkovimermis spiculatus (Nematoda: Mermithidae) in Buenos Aires Province, Argentina

Life tables were constructed for six cohorts of immature stages of the floodwater mosquito Ochlerotatus albifasciatus (Macquart) in a park in Buenos Aires, highlighting the mortality attributable to the parasitic nematode, Strelkovimermis spiculatus Poinar & Camino. Two cohorts were selected to compare parasite incidence in all mosquito stages when low and high parasitism occurred. Development time of Oc. albifasciatus from first instar to adult was 7.7-10 days in the spring, 6 days in the summer, and 10.9-21.9 days in the fall. Survival was estimated as 0-1.4 percent in the spring, 2 percent in the summer and 0.2-4.4 percent in the fall. The highest "K" value (Killing power) occurred during a fall cohort when prevalence of the parasite was 86.9 percent, and the lowest in a spring cohort. Parasitism occurred during all seasons, but S. spiculatus persisted to adult only in the summer and fall, when adult mosquitoes developed from parasitized third and fourth instars larvae. The abundance of S. spiculatus differed between old and young larvae only when parasite prevalence was the highest. Although pupae and adults of Oc. albifasciatus were parasitized, no pupal mortality attributable to parasitism was recorded. The proportion of parasitized adults ranged from 14.2 percent and 5.7 percent in the two cohorts compared. Pupal wet weight and adult wing lengths did not differ between parasitized and unparasitized individuals

[Effect of temperature on longevity and infection with the nematode Strelkovimermis spiculatus (Nemata: Mermithidae), a parasite of mosquitoes]. / Efecto de la temperatura sobre la longevidad e infección con preparásitos del nematodo Strelkovimermis spiculatus (Nemata: Mermithidae), parásito de mosquitos culícidos.

Strelkovimermis spiculatus is a common parasite of culicid species in Argentina. Effect of temperature on longevity and infectivity of juvenile preparasites of S. spiculatus was determined at 4, 10, 20 and 27 degrees C. Three containers with 100 ml of dechlorinate water and 300 preparasites (12 hour-old), were placed for each day and temperature, during 40 days (total = 480 containers). Survived preparasites were counted on 12 containers per day (three for each temperature). When number of survived preparasites was determined, second instar larvae of Aedes aegypti were added to each container in a 10:1 ratio (preparasites:mosquito) to determine infectivity of daily survived preparasites. Longevity of preparasites decreased at higher temperatures. Maximum longevity of preparasites maintained at 4, 10, 20 and 27 degrees C were 35, 30, 25 and 27 days, respectively. Survivorship of preparasites, exposed to the same temperatures, varied from 57% to 100% at day two, from 21% to 77% at day five and from 9% to 33% at day ten. Infectivity of preparasites maintained at temperatures from 4 to 27 degrees C was always higher than 70%. Extended longevity with maintenance of the infectivity capacity of preparasites, are important attributes to consider S. spiculatus an effective mean of controlling a large number of culicid species between 4 and 27 degrees C.

Susceptibilidad de Anopheles nuneztovari Gabaldón y Aedes aegypti L a la infección con Romanomermis iyengari Welch (rhabditida: mermitidae) / Susceptibility to the infestation of Anopheles nuneztovari Gabaldón and Aedes aegypti L with Romanomermis iyengari Welch (rhabditida: mermithidae)

Con la finalidad de valorar la capacidad de infestación del nemátodo parásito de mosquitos, Romanomermis iyengari Welch, sobre larvas de las especies Anopheles nuneztovari Gabaldón y Aedes aegypti L1, se condujo un estudio en condiciones de laboratorio. Para cada especie se tomaron 900 larvas de los estadios L1 al L3. Estos se infestaron con larvas preparasíticas de R. iyengari en proporciones de 5:1 y 10:1. Se obtuvieron promedios de infestación de 3,9 y 6,7 para Anopheles nuneztovari y de 1,9 y 4,7 para Aedes eagypti respectivamente. Los niveles de mortalidad oscilaron entre 95 y 100 por ciento para ambas especies, observándose mayor susceptibilidad al parasitismo en las larvas de Anopheles nuneztovari

[Susceptibility to the infection of Anopheles nuneztovari Gabaldón and Aedes aegypti L with Romanomermis iyengari Welch (Rhabditida: Mermitidae)]. / Susceptibilidad de Anopheles nuneztovari Gabaldón y Aedes aegypti L a la infección con Romanomermis iyengari Welch (Rhabditida: Mermitidae).

A laboratory-based study was performed in order to assess the infestation capacity of the mosquito parasite nematode Romanomermis iyengari Welch, on Anopheles nuneztovari Gabaldón and Aedes aegypti L. For each mosquito species, nine hundred (900) I to III instars larvae were taken. These larvae were infested with pre-parasitic larvae of R. iyengari in proportions of 5:1 and 10:1. The infestation averages obtained were 3.9 and 6.7 for Anopheles nuneztovari, and 1.9 and 4.7 for Aedes aegypti respectively. Mortality ranked between 95 and 100% for both mosquito species and Anopheles nuneztovari showed the highest susceptibility to the nematode parasitism.