Observations on the predatory potential of Lutzia fuscana on Aedes aegypti larvae: implications for biological control (Diptera: Culicidae)

Among the natural predators, larval stages of the mosquito Lutzia fuscana (Wiedemann, 1820) (Diptera: Culicidae) bear potential as a biological control agent of mosquitoes. An estimation of the predatory potential of the larva of L. fuscana against the larva of the dengue vector Aedes aegypti (Linnaeus, 1762) (Diptera: Culicidae) was made to highlight its use in vector management. Laboratory experiments revealed that the larva of L. fuscana consumes 19 to 24 A. aegypti larvae per day, during its tenure as IV instar larva. The consumption of A. aegypti larvae was proportionate to the body length (BL) and body weight (BW) of the predatory larva L. fuscana as depicted through the logistic regressions: y = 1 / (1 + exp(-(-2.09 + 0.35*BL))) and y = 1 / (1 + exp(-(0.4+ 0.06*BW))). While the prey consumption remained comparable among the days, the net weight gained by the L. fuscana larva showed a decreasing trend with the age. On the basis of the results, it is apparent that the larva of the mosquito L. fuscana can be used in the regulation of the mosquito A. aegypti through augmentative release, particularly, in the smaller mosquito larval habitats.

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Temperature and Photoperiodic Response of Diapause Induction in Anastatus japonicus, an Egg Parasitoid of Stink Bugs

Insects ◽

10.3390/insects12100872 ◽

2021 ◽

Vol 12 (10) ◽

pp. 872

Author(s):

Can Zhao ◽

Yi Guo ◽

Zixin Liu ◽

Yue Xia ◽

Yuyan Li ◽

...

Keyword(s):

Biological Control Agent ◽

Developmental Regulation ◽

Exposure Period ◽

Instar Larva ◽

Egg Parasitoid ◽

Control Agent ◽

Photoperiodic Response ◽

Stink Bugs ◽

Larval Stages ◽

Long Term Storage

Anastatus japonicus Ashmead is a widely used biological control agent against stink bugs that can be successfully reared using the large eggs of the Chinese silkworm. In this study, environmental factors responsible for the induction of diapause in A. japonicus were investigated on host eggs of the Chinese silkworm. A. japonicus exhibited a facultative, mature larval diapause within its host eggs. Second–third instar larva are the most sensitive stages to diapause stimuli. The accumulation of diapause stimuli during all the larval stages maximized the diapause response. A short photoperiod of 10L:14D and temperature of 17 °C led to the occurrence of the highest diapause response, while a long photoperiod (14L:10D) and low temperatures (11 and 14 °C) prevented the diapause. A specific exposure period was required to reach high diapause incidence. Diapausing mature larvae had a significantly higher survival rate after 180 days storage at 10 °C than that of nondiapausing mature larvae. Taken together, results suggest methods that could be exploited in the developmental regulation, field-release pretreatment technology, and long-term storage of A. japonicus.

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Descrição da larva de 3º ínstar e redescrição do adulto de Phaedon confinis Klug (Coleoptera: Chrysomelidae)

EntomoBrasilis ◽

10.12741/ebrasilis.v8i2.452 ◽

2015 ◽

Vol 8 (2) ◽

pp. 135-144

Author(s):

Julianne Milléo ◽

Felícia Pereira de Albuquerque ◽

Jonathan Pena Castro ◽

Luciano de Azevedo Moura

Keyword(s):

Biological Control ◽

Biological Control Agent ◽

Larval Instar ◽

Dorsal Surface ◽

Ventral Surface ◽

Instar Larva ◽

Control Agent ◽

Lateral Margins ◽

Oval Body

Tendo em vista o potencial de Phaedon confinis Klug como biocontrolador de Senecio brasiliensis Less e a carência do conhecimento taxonômico das espécies de Phaedon registradas para o Brasil, o trabalho teve como objetivos descrever a larva de 3º instar, bem como acrescentar novos caracteres do adulto e ilustrações para o reconhecimento da espécie. As larvas de P. confinis são eruciformes, subcilíndricas, alongadas e ligeiramente convexas; superfície dorsal marrom-escura e ventral com regiões amareladas mais claras; quatro cerdas na fronte; seis estemas arranjados em três grupos; labro marrom, com quatro pares de cerdas; placa pronotal com dez cerdas; região pleural do protórax com tubérculo T; meso- e metatórax com tubérculos Dai e Dae aproximados, mas não fusionados, e tubérculos Es-Ss fusionados entre si e pela linha mediana; garras tarsais simples; abdômen com tubérculo Dae ausente e Dai presente e pouco pronunciado; tubérculos abdominais com duas cerdas em Dpi e Dpe. Adulto com corpo oval e convexo dorsalmente; pronoto e élitros glabros; coloração predominante azul violeta metálica; margens laterais do pronoto arredondadas, castanho-amareladas com mácula central azul-metálica; estrias elitrais com pontuações profundas e ordenadas em oito fileiras longitudinais; regiões castanho-amareladas na cabeça, protórax e pernas; cabeça com duas pequenas máculas pretas ovais, posteriores aos olhos na região do vértice.Description of the 3rd Instar Larva and Characters of Adult Phaedon confinis Klug (Coleoptera: Chrysomelidae)Abstract. In view of the potential of Phaedon confinis Klug as an biological control agent of the Senecio brasiliensis Less and the lack of taxonomic knowledge of the species Phaedon recorded for Brazil, this paper aimed to describe the 3rd larval instar, redescribe the adult, as well as add new characters and illustrations to acknowledgment of the specie. The P. confinis larvae are eruciform, subcylindrical, elongated and slightly convex; dorsal surface dark brown and ventral surface with yellowish lighter regions; four setae in the front; six stemmata arranged in three groups; brown labrum, with four pairs of setae, pronotal plate with ten setae; pleural region of prothorax with tubercle T; meso- and metathorax with tubercles Dai and Dae close, but not fused, and tubercles Es-Ss fused between themselves by midline; simple tarsal claws; abdomen with tubercle Dae absent and Dai present, little pronounced; abdominal tubercles with two setae in Dpi and Dpe. Adult has oval body and dorsally convex; pronotum and elytral glabrous; predominant colour blue metallic violet; lateral margins of pronotum rounded, yellowish brown with central macula metallic blue, elytral striae with deep punctuation and arranged in eight longitudinal rows; yellowish brown regions on the head, prothorax and legs; head with two small oval black maculae, posterior to the eyes in vertex region.

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Potency of Bacillus thuringiensis isolates from bareng Tenes-Malang City as a biological control agent for suppressing third instar of Aedes aegypti larvae

10.1063/1.5012729 ◽

2017 ◽

Author(s):

Nihayatul Lutfiana ◽

Zulfaidah Penata Gama

Keyword(s):

Biological Control ◽

Bacillus Thuringiensis ◽

Aedes Aegypti ◽

Biological Control Agent ◽

Control Agent

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Ascogregarina Taiwanensis Interfere in the Performance of Aedes Albopictus and in the Susceptibility of Aedes Aegypti to Temephos and Azadirachta Indica Oil

10.21203/rs.3.rs-610799/v1 ◽

2021 ◽

Author(s):

Josiane Somariva Prophiro ◽

Thiago Nunes Pereira ◽

Joice Guilherme de Oliveira ◽

Felipe Allan Silva da Costa ◽

Harry Luiz Pilz Júnior ◽

...

Keyword(s):

Biological Control ◽

Aedes Aegypti ◽

Aedes Albopictus ◽

Azadirachta Indica ◽

Biological Control Agent ◽

Negative Influence ◽

Control Agent ◽

Chemical Insecticide ◽

Different Types ◽

Ascogregarina Taiwanensis

Abstract Background: Aedes albopictus and Aedes aegypti are mosquitoes commonly adapted to tropical and subtropical regions. These vectors can transmit different types of arboviruses causing a serious concern to public health. New alternatives for the vector/arboviruses control are emerging, and in this sense the protozoan Ascogregarina taiwanensis may present potential as a biological control agent against these mosquitoes. Methods: To evaluate the effects of protozoan A. taiwanensis, mosquitoes were parasitized with a solution containing oocysts and evaluated to lifetime, fertility, fecundity for Ae. albopictus and for Ae. aegypti interaction with Azadirachta indica and Temephos. Results: In this work it was possible to observe the protozoan morphology in mosquitoes Ae. albopictus, as well its negative influence on mortality, 73% and non-parasitized was 44%. The number of eggs oviposited by parasitized females of Ae. albopictus was lower (3,490) than for the non-parasitized females (5,586). In addition, the hatchability and/or viability of these eggs were also lower for the parasitized females (63%) than the non-parasitized ones (74%). For Ae. aegypti mosquitoes, a synergism between the use of A. taiwanensis associated with a chemical insecticide and a botanical insecticide was observed. The results demonstrate that when Ae. aegypti larvae was parasitized by A. taiwanensis and exposed to the oil of Az. indica or to the organophosphate Temephos present a greater mortality. Conclusion: It was notable that A. taiwanensis can be a potential for biological control and adjuvant of insecticides. We also provide important information about the maintenance of A. taiwanensis in laboratory.

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Mosquito densoviruses: the revival of a biological control agent against urban Aedes vectors of arboviruses

10.1101/2020.04.23.055830 ◽

2020 ◽

Author(s):

Aurélie Perrin ◽

Anne-Sophie Gosselin-Grenet ◽

Marie Rossignol ◽

Carole Ginibre ◽

Bethsabée Scheid ◽

...

Keyword(s):

Biological Control ◽

Aedes Aegypti ◽

Aedes Albopictus ◽

Biological Control Agent ◽

Mortality Rates ◽

Control Agent ◽

Biocontrol Agents ◽

Specific Variation ◽

Different Strains ◽

Alternative Control Methods

ABSTRACTUrban Aedes mosquitoes are vectors of many viruses affecting human health such as Dengue, Chikungunya and Zika viruses. Insecticide resistance and environmental toxicity risks hamper the effectiveness of chemical control against these mosquito vectors. Alternative control methods, such as the use of mosquito-specific entomopathogenic viruses should be explored. Numerous studies have focused on evaluating the potential of different densoviruses species as biological control agent. However, knowledge on the extent of inter- and intra-specific variations in the susceptibility of Aedes mosquitoes to infection by different densoviruses remains insufficient. In this study, we compared infection and mortality rates induced by the Aedes albopictus densovirus 2 in different strains of Aedes albopictus and Aedes aegypti mosquitoes. The two Aedes species were different in terms of susceptibility to viral infection. Under laboratory conditions, Aedes albopictus densovirus 2 appeared more virulent for the different strains of Aedes aegypti tested than for those of Aedes albopictus. In addition, we also found significant intra-specific variation in infection and mortality rates. Thus, although even if Aedes albopictus densoviruses could be powerful biocontrol agents used in the management of urban Aedes populations, our results also call into question the use of single viral isolate as biocontrol agents.

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