Suppression of Aedes aegypti by predatory Toxorhynchites moctezuma in an island habitat

Larval populations of the mosquito Aedes aegypti were suppressed by predatory Toxorhynchites moctezuma mosquito larvae released systematically in a village on Union Island (Saint Vincent and the Grenadines) during March-December 1988. Eggs and larvae of Tx.moctezuma were transported from Trinidad and introduced into all semi-permanent and permanent water-holding containers in the experimental village at Clifton. The semi-isolated village of Ashton served as control. Base-line Ae.aegypti indices (house, ovitrap, Breteau, cistern/tank, drum/barrel, small containers) were obtained for the two villages over a 4-month period prior to the introduction of the predatory Tx.moctezuma mosquito larvae. After sustained releases of predators for 5 months, all indices of Ae.aegypti were lower in the treated village than in the untreated village during the last 3 months of the year.     

Predator–prey interactions and the cannibalism of larvae of Armigeres subalbatus (Diptera: Culicidae)

Predation and cannibalism can affect the co-existence of mosquito species or the assemblage of mosquito species (i.e., community structure). In this study, predatory feeding patterns and cannibalism of larvae of Armigeres subalbatus mosquitoes were quantified under laboratory conditions using Aedes albopictus and Culex uniformis larvae as prey organisms. Rate of consumption of prey larvae and the rate of cannibalism of 1st to 4th instar larvae of Armigeres subalbatus were reported at 24 h intervals with and without alternative food supplement. Both the 3rd and 4th instar larvae of Ar. subalbatus showed a substantial predation on the larvae of Ae. albopictus (33.6 ± 4.4) and Cx uniformis (47.3 ± 7.6). The cannibalism of the predatory larvae was strongly correlated to the larval density (r = 0.9). The predator and the prey density and the given food type were significant factors that determined the rate of pupation, death and the emergence as adults. A significant relationship was shown for the co-occurrence of predatory larvae and the prey larvae at the 85 natural breeding habitats observed at the field (χ² = 74.4, p < 0.001). Nine breeding sites (10.6%) were positive for both prey and predatory larvae. Our study showed robust information about the predatory and cannibalistic behavior of Ar. subalbatus larvae emphasizing their role in managing the population structure of mosquito communities.     

Salt-marsh Crustaceans, Gammarus duebeni and Palaemonetes varians as Predators of Mosquito Larvae and Their Reaction to Bacillus thuringiensis subsp. israelensis

The predatory potential of two onmnivorous crustaceans, Gammarus duebeni and Palaemonetes varians, has been examined to investigate their effect as mosquito larval predators. Mature gammarids ate 4-8 Aedes detritus larvae/24 h and palaemonids, 22-30/1 h, often killing larvae when not hungry. The crustaceans were exposed to Bacillus thuringiensis subsp. israelensis (Bti) and to mosquito larvae killed by Bti with no adverse effects, endorsing the safety of this microbial pesticide. Crustacean faecal pellets, collected post-feeding and placed in fresh marsh water, were toxic to mosquito larvae the following day. After placing the crustaceans in fresh salt-marsh water for 6 days, the fresh faecal pellets failed to kill mosquitoes apart from pellets obtained from crustaceans originally fed on the highest concentration of Bti, where there was a 50% kill after 3 days of incubation. Mosquito larvae on salt-marshes are not easy to control with ecologically undesirable toxic chemicals. Encouraging the breeding of predators such as crustaceans, or even their release, could prove to be a useful method of mosquito control to supplement the periodic inundative use of the ecologically acceptable Bti.     

Larvicidal activity of tectoquinone isolated from red heartwood-type Cryptomeria japonica against two mosquito species

Mosquito larvicidal activities of methanolic extracts from different plant parts of red heartwood-type Cryptomeria japonica D. Don against the fourth-instar larvae of Aedes aegypti and Aedes albopictus were examined. Results of mosquito larvicidal tests demonstrated that the n-hexane fraction of C. japonica sapwood methanolic extract had an excellent inhibitory effect against the larvae of A. aegypti and A. albopictus and its LC50 values were 2.4 and 3.3 microg/ml, respectively, in 24h. Following the bioactivity-guided fractionation procedure, the active constituent isolated from C. japonica sapwood was characterized as tectoquinone by spectroscopic analyses. The LC50 values of tectoquinone against A. aegypti and A. albopictus in 24h were 3.3 and 5.4 microg/ml, respectively. In addition, comparisons of mosquito larvicidal activity of anthraquinone congeners demonstrated that anthraquinone skeleton with a methyl group at C-2 position, such as tectoquinone, exhibited the strongest mosquito larvicidal activity. Results of this study show that the methanolic extract of C. japonica sapwood may be considered as a potent source and tectoquinone as a new natural mosquito larvicidal agent.     

Scanning electron microscopy of damage caused by Mesocyclops thermocyclopoides (Copepoda: Cyclopoidea) on larvae of the Dengue fever vector Aedes aegypti (Diptera: Culicidae)

Dengue fever is a mosquito-borne viral disease, whose main biological vector is Aedes aegypti. This mosquito colonizes tropical areas where the disease is endemic. The most obvious action against dengue is attacking its vector. Biological control appears to be an alternative approach, using natural enemies of the mosquitoes, such as predatory copepods. Thus, the morphological study of the damage caused by copepods is important to understand its predatory capacity. Twenty-five A. aegypti larvae were exposed to the copepod Mesocyclops thermocyclopoides and the damage caused by the copepods was evaluated using scanning electron microscopy. The larvae showed damage mainly at the anal segment, the siphon and the abdomen; only three attacks to the head were observed. The size of the siphon might be of importance in determining whether or not a copepod will attack a mosquito larva.     

Laboratory evaluation of Mesocyclops annulatus (Wierzejski, 1892) (Copepoda: Cyclopidea) as a predator of container-breeding mosquitoes in Argentina

In laboratory bioassays we tested the predatory capacity of the copepod Mesocyclops annulatus on Aedes aegypti and Culex pipiens larvae. A single adult female of M. annulatus caused 51.6% and 52.3% mortality of 50 first instar larvae of Ae. aegypti and Cx. pipiens respectively, in a 72 h test period. When alternative food was added to the containers, mortality rates declined to 16% and 10.3% for Ae. aegypti and Cx. pipiens respectively. When 50 first instar larvae of each of the two mosquito species tested were placed together with a single adult female of M. annulatus, mortality rates were 75.5% for Ae. aegypti larvae and 23.5% for Cx. pipiens larvae in a three day test period. Different density of adult females of M. annulatus ranged from 5 to 25 females produced mortality rates of Ae. aegypti first instar larvae from 50% to 100% respectively. When a single adult female of M. annulatus was exposed to an increasing number of first-instar Ae. aegypti larvae ranging from 10 to 100, 100% mortality was recorded from 1 to 25 larvae, then mortality declined to 30% with 100 larvae. The average larvae killed per 24 h period by a single copepod were 29.     

Derris (Lonchocarpus) urucu (Leguminosae) extract modifies the peritrophic matrix structure of Aedes aegypti (Diptera:Culicidae)

Aqueous suspension of ethanol extracts of Derris (Lonchocarpus) urucu (Leguminosae), collected in the state of Amazonas, Brazil, were tested for larvicidal activity against the mosquito Aedes aegypti (Diptera:Culicidae). The aim of this study was to observe the alterations of peritrophic matrix in Ae. aegypti larvae treated with an aqueous suspension of D. urucu extract. Different concentrations of D. urucu root extract were tested against fourth instar larvae. One hundred percent mortality was observed at 150 microg/ml (LC(50) 17.6 microg/ml) 24 h following treatment. In response to D. urucu feeding, larvae excreted a large amount of amorphous feces, while control larvae did not produce feces during the assay period. Ultrastructural studies showed tha larvae fed with 150 microg/ml of D. urucu extract for 4 h have an imperfect peritrophic matrix and extensive damage of the midgut epithelium. Data indicate a protective role for the peritrophic matrix. The structural modification of the peritrophic matrix is intrinsically associated with larval mortality.     

BIOLOGICAL CONTROL OF MOSQUITO LARVAE WITH MESOCYCLOPS LEUKARTI1)

Abstract  The control efficacy of a predatory copepod, Mesocyclops leukarti , collected in Jining, and its compatibility with Bacillus sphaericus (B.s. ) and B. thuringiensis var. csraefensis H-14 ( B. t. i. ) against mosquito larvae were evaluated in the laboratory and in the field. In the laboratory, M. leukarti showed higher predatory activity toward first instar larvae of Aedes albopictus than toward that of Anopheles sinensis and Culex pipiens pallens. Cage simulation test showed that larvae of Cx. pipiens pallens, An. sinensis and Ae. albopictus could be eliminated within 9, 10 and 7 weeks after interaction with the copepods respectively. M. leukarti population can grow quickly, and its mass production is easy and economic. However, pilot field trials indicated that M. leukarti alone could not eradicate mosquito larvae of the three species rapidly and completely as by chemical insecticides, although they could persist in mosquito breeding habitats longer than the mosquito season. When Mesocyclops was used in combination with B. s. and B. t. i. , higher and sustainable control effects were achieved. So this combination, which achieved the rapid larvicidal and sustainable control effect, was presumed to be practical and could be integrated into mosquito control program.     

用刘氏中剑水蚤防治蚊幼虫(英文)

本研究在室内评价了在济宁采集的捕食性刘氏中剑水蚤单用及与球形芽孢杆菌(B.s.)或苏云金杆菌以色列变种(B.t.i.)合用对蚊幼虫的控制效果。在室内,刘氏中剑水蚤对白蚊伊蚊Ⅰ龄幼虫的捕食效果好于对中华按蚊和淡色库蚊幼虫的效果。蚊笼模拟试验表明,刘氏中剑水蚤可分别于9、10和7周内消灭淡色库蚊、中华按蚊和白蚊伊蚊的幼虫种群。该剑水蚤增长速率快,大量培养经济易行。现场试验证明,刘氏中剑水蚤虽可在蚊虫孳生地存活时间长于蚊虫季节,但单用该剑水蚤不能象化学杀虫剂一样快速完全地控制三种蚊虫。刘氏中剑水蚤与B.s.或B.t.i.合用,应用刘氏中剑水蚤的长持效和生物杀虫剂的速效,取得了高效、持久的防治效果。因此二者合用可用于蚊虫防治并可作为蚊虫综合防治的一个组成部分。     

Ecological prerequisites for spread of bloodsucking mosquitoes

The spread of mosquitoes beyond the initial ranges and the ecological prerequisites for colonization of new territories are considered for several mosquito species which are active bloodsuckers and vectors of many disease agents. The invasion of homodynamic Aedes aegypti from Africa into the tropical zone of several continents has probably occurred during the last 400 years by means of transportation of the eggs and larvae mainly by sea ships. In the new areas mosquitoes occupied breeding places similar to those in their native ranges. On the contrary, the urban mosquito Culex pipiens f. molestus, introduced from the subtropical areas of Africa into Europe and other continents in the XX century, found a new type of habitat: underground constructions with polluted water where the mosquito develops the year round. This was preconditioned by such specific biological features as autogeny, stenogamy, and homodynamy (seasonal development without diapause). Aedes albopictus originated from Southeast Asia and invaded four continents (Europe, North and South America, and Africa) in 1980–2000 owing to its high capacity of adaptation to various climatic conditions (high viability of eggs, variation in the ability for diapause and mechanisms of diapause control between the strains, etc.). The eggs and larvae of this mosquito were transported by sea in used car tires. The models predicting the distribution of invasive species and the ways of their spread (by sea, air, motor transport) are discussed.     

Insecticidal activities of leaf essential oils from Cinnamomum osmophloeum against three mosquito species

The larvicidal activities of leaf essential oils and their constituents from six chemotypes of indigenous cinnamon (Cinnamomum osmophloeum Kaneh.) trees were evaluated against three mosquito species. Results of larvicidal tests demonstrated that the leaf essential oils of cinnamaldehyde type and cinnamaldehyde/cinnamyl acetate type had an excellent inhibitory effect against Aedes albopictus larvae, and their LC(50) values in 24h were 40.8 microg/ml (LC(90)=81.7 microg/ml) and 46.5 microg/ml (LC(90)=83.3 microg/ml), respectively. Results of the 24-h mosquito larvicidal assays also showed that the effective constituents in leaf essential oils were trans-cinnamaldehyde and benzaldehyde and that the LC(50) values of these constituents against A. albopictus larvae were below 50 mug/ml. In addition, cinnamaldehyde type leaf essential oil and trans-cinnamaldehyde have also exhibited great larvicidal performance against Culex quinquefasciatus and Armigeres subalbatus larvae. Comparisons of mosquito larvicidal activity of trans-cinnamaldehyde congeners revealed that alpha-methyl cinnamaldehyde, benzaldehyde, and trans-cinnamaldehyde exhibited strong mosquito larvicidal activity.     

Behaviour of late-instar gypsy moth larvae in high and low density populations

ABSTRACT. 1. Using scaffolding and night-vision equipment, we observed fifth and sixth instars of the gypsy moth, Lymantria dispar (L.), on Quercus velutina Lam. in the field.
2. In low-density populations, larvae fed at night and spent the day resting in sheltered sites away from the canopy. In high-density populations, larvae remained in the canopy throughout the day and night, and the amount of feeding during daylight hours increased with population density.
3. Larvae at all population densities used a similar sequence of behaviours and sampled a number of leaves when selecting feeding sites, but larvae in high-density populations switched feeding sites more frequently and fed continuously for shorter periods.
4. Larvae seldom interfered with each other's feeding in any of the populations.
5. When fifth instars were collected from the field and held for 24 h in an electronic feeding monitor, they maintained feeding rhythms that were characteristic of their source populations. Larvae spent more time crawling and less time feeding when offered foliage from high-density rather than low-density populations.     

Changes in feeding behaviour of the larvae of the damselfly Enallagma cyathigerum in response to stimuli from predators

1. The feeding rates, diet composition and diel periodicity in feeding activity among larvae of the damselfly Enallagma cyathigerum Charp., exposed to chemical, visual and mechanical stimuli from the predators Ranatra linearis (L.), Notonecta glauca L. and Rutilus rutilus (L.) were investigated.
2. In response to chemical cues produced by all the predator species, larvae reduced their rate of feeding significantly (especially on large, sedentary prey).
3. Small larvae reacted more strongly than large ones to the kairomone produced by N. glauca.
4. The fish kairomone induced a reduction in feeding activity during daylight hours only. This reaction was more intense than the reaction to non-chemical cues.
5. Observed predator-induced changes in diet composition, caused directly by reduced activity during feeding, are discussed as an antipredator behaviour of damselfly larvae.     

Histological changes in the Dengue vector,Aedes aegypti (Diptera: Culicidae) larvae treated with neem oil loaded niosomes

Mosquitoes are one of the greatest threats to human health around the globe. They act as vectors for common diseases like Malaria, Dengue, Chikungunya, etc. Niosomes encapsulated with neem oil showed a significant mortality rate against Aedes aegypti larvae when treated for 24 h. In this study, the histological changes that led to the mortality of the Aedes aegypti mosquito larvae were studied. Organs of the late III-instar stage larvae such as head, optic lobes, cuticle, adipose tissue, midgut region, haemolymph were investigated. Several histological alterations such as disorientation of the brain and antenna in the head part, damage in the optic lobe and microvilli were observed. Total disruption was seen in the inner and outer retractor muscles of the larval body. The midgut and hindgut regions were disintegrated due to the damage to the fat bodies in the region. A Series of such histological changes in the body of mosquito larvae compared to the control larvae hindered metabolic functions leading to death. The results suggested that the neem oil loaded niosomes could be used as a biocontrol agent against the Dengue vector, Aedes aegypti larvae.     

Ecology of mosquitoes (Diptera: Culicidae) in areas of Serra do Mar State Park, State of São Paulo, Brazil. III. Daily biting rhythms and lunar cycle influence

The ecology of mosquito species (Diptera: Culicidae) was studied in areas of the Serra do Mar State Park, State of S?o Paulo, Brazil. The influence of the lunar cycle and the daily biting rhythms of mosquito populations were analyzed. Systematized biweekly human bait collections were made in a silvatic environment for 24 consecutive months (January 1991 to December 1992). A total of 20,591 specimens of adult mosquitoes belonging to 55 species were collected from 545 catches. Sabethini species were captured exclusively during daylight periods, with the exception of Trichoprosopon digitatum, while members of Anophelinae predominated during nocturnal hours. Members of the subfamily Culicinae that were collected primary during nocturnal periods included Culex nigripalpus, Coquillettidia chrysonotum and Cq. venezuelensis while daytime catches included Psorophora ferox and Ps. albipes. Others members of culicines mosquitoes that were collected during both day and night included: Aedes serratus, Ae. scapularis and Ae. fulvus. Lunar cycles did not appear to influence the daily biting rhythms of most mosquito species in the area, but larger numbers of mosquitoes were collected during the new moon. Ae. scapularis were captured mainly during the full moon.     

Parasitoid-induced behavioral alterations of Aedes aegypti mosquito larvae infected with mermithid nematodes (Nematoda: Mermithidae).

A wide range of parasites are known to cause behavioral changes in their hosts and parasitized insects are especially amenable to the study of such changes. The majority of studies addressing parasite-induced behavioral alterations have focused on parasites with complex life cycles and the adaptive nature of such changes. Behavioral changes caused by parasitoids, single-host parasites that kill their host upon emergence, have been studied less and the adaptive nature of these changes is likely to be different than those in complex life cycles. I investigated behavioral alterations in Aedes aegypti mosquito larvae infected with parasitoid nematodes (family Mermithidae). I conducted several experiments in which I tested the following hypotheses: 1) Mermithid nematodes induce behavioral changes in mosquito larvae and the changes are density dependent. 2) Different species of mermithid nematodes induce similar changes in mosquito larvae behavior. 3) Behavioral alterations vary with mermithid developmental stage. 4) Mosquito larvae infected with mermithid nematodes behave similarly to uninfected food-deprived mosquito larvae. I found that 4th instar Ae. aegypti infected with Romanomermis culicivorax or Strelkovimermis spiculatus exhibited resting behaviors significantly more often than uninfected controls but that intensity of infection did not affect activity levels. In earlier instars, infected mosquito larvae were more active than uninfected control larvae in some behaviors associated with feeding. There was no significant difference between infected and uninfected food-deprived mosquitoes in nine of the ten behaviors observed. The decrease in activity of late instar Ae. aegypti larvae infected with mermithids may be a parasitoid adaptation that reduces the risk of predation and thus increases host and parasitoid survival. The increase in feeding activity in earlier instars as well as the similarity between uninfected food-deprived and infected Ae. aegypti behavior may indicate that these behaviors are adaptive for the parasitoid, increasing nutritional acquisition for successful parasitoid development.     

Ribosome metabolism during the vitellogenic cycle of the mosquito, Aedes aegypti

Ribosome accumulation and synthesis in the fat body of the mosquito Aedes aegypti increased by approx. 4-fold during 18 h after the blood meal, consistent with the pattern of total RNA accumulation during the synthetic phase of the vitellogenic cycle. By 24-30 h after the blood meal, the accumulated ribosomes began to be degraded, and the total RNA content in the fat body eventually returned to previtellogenic levels. A method has been developed for isolation of ribosomal subunits from fat body, and the ribosomal proteins have been shown to have properties similar to those from cultured Aedes albopictus cells by two-dimensional polyacrylamide gel electrophoresis. Proteins S1, S10, and A from the small ribosomal subunit are phosphorylated when fat body is incubated in Aedes saline in the presence of [32P]orthophosphate.     

Role of gregarine parasite Ascogregarina culicis (Apicomplexa: Lecudinidae) in the maintenance of Chikungunya virus in vector mosquito

Ascogregarina culicis and Ascogregarina taiwanensis are common gregarine parasites of Aedes aegypti and Aedes albopictus mosquitoes, respectively. These mosquito species are also known to transmit dengue and Chikungunya viruses. The sporozoites of these parasites invade the midgut epithelial cells and develop intracellularly and extracellularly in the gut to complete their life cycles. The midgut is also the primary site for virus replication in the vector mosquitoes. Therefore, studies were carried out with a view to determine the possible role of these gregarines in the vertical transmission of dengue and Chikungunya viruses from larval to adult stage. Experiments were performed by exposing first instar mosquito larvae to suspensions containing parasite oocysts and viruses. Since Ascogregarina sporozoites invade the midgut of first instar larvae, the vertical transmission was determined by feeding the uninfected first instar larvae on the freshly prepared homogenates from mosquitoes, which were dually infected with viruses and the parasite oocysts. Similarly, the role of protozoan parasites in the vertical transmission of viruses was determined by exposing fresh first instar larvae to the dried pellets of homogenates prepared from the mosquitoes dually infected with viruses and the parasite oocysts. Direct vertical transmission and the vertical transmission of CHIK virus through the oocyst of the parasites were observed in the case of Ae. aegypti mosquitoes. It is suggested that As. culicis may have an important role in the maintenance of CHIK virus during the inter-epidemic period.