RESUMO

The mosquito Aedes aegypti (Linnaeus, 1762) is the main vector of dengue and yellow fever viruses. Different methods have been used to control A. aegypti, including chemical and biological tools. However, chemical control can lead to a subsequent increase in the mosquitoes' insecticide resistance, and biological control represents an important method as an alternative to insecticide usage. Larvae from the Toxorhynchites genus (Diptera: Culicidae) are predators of other mosquitoes and represent a potential natural biocontrol agent of A. aegypti larvae. In the present work, A. aegypti larval survival was studied in the presence of the neotropical Toxorhynchites violaceus (Wiedemann, 1821) fourth instar larvae. Toxorhynchites violaceus consumption of A. aegypti increased during the 192 hours of the experiment and was more marked in the intervals between 96 and 120 hours and between 168 and 192 hours, when the A. aegypti survival reached 0%. During the fourth instar, T. violaceus increased its predation on A. aegypti larvae, possibly in order to increase its nutrient storage prior to pupation. Otherwise, low prey consumption can lead to a nutritional deficit for the larvae, delaying the adult's sexual development and reducing its egg production. Here we show that A. aegypti survival can be reduced by the T. violaceus fourth larvae predation under laboratory conditions

RESUMO

The mosquito Aedes aegypti (Linnaeus, 1762) is the main vector of dengue and yellow fever viruses. Different methods have been used to control A. aegypti, including chemical and biological tools. However, chemical control can lead to a subsequent increase in the mosquitoes' insecticide resistance, and biological control represents an important method as an alternative to insecticide usage. Larvae from the Toxorhynchites genus (Diptera: Culicidae) are predators of other mosquitoes and represent a potential natural biocontrol agent of A. aegypti larvae. In the present work, A. aegypti larval survival was studied in the presence of the neotropical Toxorhynchites violaceus (Wiedemann, 1821) fourth instar larvae. Toxorhynchites violaceus consumption of A. aegypti increased during the 192 hours of the experiment and was more marked in the intervals between 96 and 120 hours and between 168 and 192 hours, when the A. aegypti survival reached 0%. During the fourth instar, T. violaceus increased its predation on A. aegypti larvae, possibly in order to increase its nutrient storage prior to pupation. Otherwise, low prey consumption can lead to a nutritional deficit for the larvae, delaying the adult's sexual development and reducing its egg production. Here we show that A. aegypti survival can be reduced by the T. violaceus fourth larvae predation under laboratory conditions

RESUMO

The mosquito Aedes aegypti (Linnaeus, 1762) is the main vector of dengue and yellow fever viruses. Different methods have been used to control A. aegypti, including chemical and biological tools. However, chemical control can lead to a subsequent increase in the mosquitoes' insecticide resistance, and biological control represents an important method as an alternative to insecticide usage. Larvae from the Toxorhynchites genus (Diptera: Culicidae) are predators of other mosquitoes and represent a potential natural biocontrol agent of A. aegypti larvae. In the present work, A. aegypti larval survival was studied in the presence of the neotropical Toxorhynchites violaceus (Wiedemann, 1821) fourth instar larvae. Toxorhynchites violaceus consumption of A. aegypti increased during the 192 hours of the experiment and was more marked in the intervals between 96 and 120 hours and between 168 and 192 hours, when the A. aegypti survival reached 0%. During the fourth instar, T. violaceus increased its predation on A. aegypti larvae, possibly in order to increase its nutrient storage prior to pupation. Otherwise, low prey consumption can lead to a nutritional deficit for the larvae, delaying the adult's sexual development and reducing its egg production. Here we show that A. aegypti survival can be reduced by the T. violaceus fourth larvae predation under laboratory conditions

RESUMO

The reproduction and survival of Synthesiomyia nudiseta (Wulp, 1883) were studied between 22 and 28ºC, 70% R.H. and 12h photoperiod. The raw data were analyzed based on age-class, sex life table, Weibull distribution and entropy curve (H). The intrinsic rate of increase (r m), finite rate of increase (lambda), net reproduction rate (R0) and mean generation time (T) were 0.534, 1.7, 59.439 and 7.65 respectively, suggesting fast population growth in these conditions. That is caused by the high fecundity that was confirmed for this species with mean number of eggs/female of 266 and mean preoviposition period of 10.25 days. The Weibull survival model showed that the survival was not constant throughout the adults life: the mortality rate was more pronounced after the fourth and fifth week because both sexes had H values intermediate to those theoretically expected (0.0-0.5), showing that the survival curve is rectangular (with more impact of mortality on the fourth and fifth week from pupal emergence). The presented results can be considered as base for detailed studies on dynamics and population growth of this species in natural habitats.

A reprodução e a sobrevivência de Synthesiomyia nudiseta (Wulp, 1883) foram estudadas entre 22 e 28ºC, UR de 70% e fotoperíodo de 12h. Os dados foram analisados através de classes de idade, tabelas de vida de fecundidade, análise de sobrevivência pela distribuição de Weibull e análise das curvas de sobrevivência através do conceito de entropia (H). A taxa intrínseca de aumento natural (r m), taxa finita de aumento (lambda), taxa de reprodução líquida (R0) e tempo médio de uma geração (T) foram 0,534; 1,7; 59,439 e 7,65 respectivamente, sugerindo rápido crescimento populacional nestas condições. Isso foi causado pela alta fecundidade, confirmando o que ocorre para esta espécie, com média de 266 ovos/fêmea e período de pré-oviposição de 10,25 dias. O modelo de Weibull demonstrou que a sobrevivência não foi constante ao longo da vida de adultos, com mortalidade pronunciada depois da quarta e quinta semanas e valores de H intermediários aos valores teóricos esperados (0,0-0,5) para os ambos sexos, demonstrando que a curva de sobrevivência é retangular (com maior impacto da mortalidade na quarta e quinta semanas após a emergência). Os resultados apresentados podem ser considerados como base para estudos pormenorizados da dinâmica e do crescimento populacional desta espécie em hábitats naturais.

RESUMO

The reproduction and survival of Synthesiomyia nudiseta (Wulp, 1883) were studied between 22 and 28ºC, 70% R.H. and 12h photoperiod. The raw data were analyzed based on age-class, sex life table, Weibull distribution and entropy curve (H). The intrinsic rate of increase (r m), finite rate of increase (lambda), net reproduction rate (R0) and mean generation time (T) were 0.534, 1.7, 59.439 and 7.65 respectively, suggesting fast population growth in these conditions. That is caused by the high fecundity that was confirmed for this species with mean number of eggs/female of 266 and mean preoviposition period of 10.25 days. The Weibull survival model showed that the survival was not constant throughout the adults life: the mortality rate was more pronounced after the fourth and fifth week because both sexes had H values intermediate to those theoretically expected (0.0-0.5), showing that the survival curve is rectangular (with more impact of mortality on the fourth and fifth week from pupal emergence). The presented results can be considered as base for detailed studies on dynamics and population growth of this species in natural habitats.

A reprodução e a sobrevivência de Synthesiomyia nudiseta (Wulp, 1883) foram estudadas entre 22 e 28ºC, UR de 70% e fotoperíodo de 12h. Os dados foram analisados através de classes de idade, tabelas de vida de fecundidade, análise de sobrevivência pela distribuição de Weibull e análise das curvas de sobrevivência através do conceito de entropia (H). A taxa intrínseca de aumento natural (r m), taxa finita de aumento (lambda), taxa de reprodução líquida (R0) e tempo médio de uma geração (T) foram 0,534; 1,7; 59,439 e 7,65 respectivamente, sugerindo rápido crescimento populacional nestas condições. Isso foi causado pela alta fecundidade, confirmando o que ocorre para esta espécie, com média de 266 ovos/fêmea e período de pré-oviposição de 10,25 dias. O modelo de Weibull demonstrou que a sobrevivência não foi constante ao longo da vida de adultos, com mortalidade pronunciada depois da quarta e quinta semanas e valores de H intermediários aos valores teóricos esperados (0,0-0,5) para os ambos sexos, demonstrando que a curva de sobrevivência é retangular (com maior impacto da mortalidade na quarta e quinta semanas após a emergência). Os resultados apresentados podem ser considerados como base para estudos pormenorizados da dinâmica e do crescimento populacional desta espécie em hábitats naturais.

RESUMO

Aspects related to the longevity and oviposition of Ophyra albuquerquei Lopes, 1985 are studied. Males had a mean lifespan longer than females (40.24 vs. 33.15 days, respectively), while still possessing qualitative advantages during this period. Females O. albuquerquei were fed on powdered milk, fish flour, refined sugar and water, and provided fish flour and moistened sawdust for oviposition. The length of the oviposition period for females was 46.75 days, and most of the deposition of the eggs occurred in the first days of the colony. Females completed 50% of their egg deposition by Day 16, seven days before the large last mortality peak and about 12 days after the first oviposition in the colony. Females deposited an average of 184 eggs per individual. Mortality of males, unlike females, was low until the 28th day, and increased thereafter. It was demonstrated that it is possible to maintain colonies of this species under laboratory conditions for at least 28 days with high fertility and low cost.

RESUMO

Aspects related to the longevity and oviposition of Ophyra albuquerquei Lopes, 1985 are studied. Males had a mean lifespan longer than females (40.24 vs. 33.15 days, respectively), while still possessing qualitative advantages during this period. Females O. albuquerquei were fed on powdered milk, fish flour, refined sugar and water, and provided fish flour and moistened sawdust for oviposition. The length of the oviposition period for females was 46.75 days, and most of the deposition of the eggs occurred in the first days of the colony. Females completed 50% of their egg deposition by Day 16, seven days before the large last mortality peak and about 12 days after the first oviposition in the colony. Females deposited an average of 184 eggs per individual. Mortality of males, unlike females, was low until the 28th day, and increased thereafter. It was demonstrated that it is possible to maintain colonies of this species under laboratory conditions for at least 28 days with high fertility and low cost.

RESUMO

A colony of Synthesiomyia nudiseta (WULP, 1883) was established in the laboratory to obtain eggs, larvae and puparium, to determine the period of development and viability at constant temperature with RH above 75% and photoperiod of 12 h. The viability of development cicle was 48.68%. Incubation period was 21.17 h, larvae development 25.97; 48.08 and 233.65 h for the first, second and feeding phase of third instars, respectively. The development period of postfeeding larva, prepupa and pupa development was 322.26 h.

RESUMO

A colony of Synthesiomyia nudiseta (WULP, 1883) was established in the laboratory to obtain eggs, larvae and puparium, to determine the period of development and viability at constant temperature with RH above 75% and photoperiod of 12 h. The viability of development cicle was 48.68%. Incubation period was 21.17 h, larvae development 25.97; 48.08 and 233.65 h for the first, second and feeding phase of third instars, respectively. The development period of postfeeding larva, prepupa and pupa development was 322.26 h.