Mosquitoes of 12 species belonging to 5 subgenera and 9 genera—Aedes, Anopheles, Culex, Diceromyia, Lorrainea, Rhinoskusea, Stegomyia, Toxorhynchites, and Verrallina—were recorded in the Coringa mangrove forest in Andhra Pradesh, India. Tree holes, crab holes, and swamp pools constituted the larval habitats with Lo. fumida being predominant in tree holes. Adults were found resting in tree holes, tree trunks, root bases, and in crab holes. Species involved in daytime feeding on humans were Ae. cancricomes, Cx. sitiens, Lo. fumida, Rh. wardi, and Ve. lugubris.

Mosquitoes of 26 species belonging to 16 subgenera and 11 genera were recorded in the Kundapur mangroves of Karnataka, and 17 species belonging to 11 subgenera and 7 genera were recorded in the mangroves of Kannur, Kerala along the west coast of India. Genera recorded were Aedes, Anopheles, Armigeres, Culex, Heizmannia, Lutzia, Mansonia, Ochlerotatus, Tripteroides, Uranotaenia, and Verrallina. Species common to both mangrove forests were Ae. albopictus, Ae. vittatus, An. jamesi, Ar. subalbatus, Cx. gelidus, Cx. infantulus, Cx. pseudovishnui, Cx. sitiens, Cx. tritaeniorhynchus, Oc. wardi, Ur. atra, and Ve. lugubris. Tree holes and swamp pools were the common larval habitats, with more species occurring in tree holes in Kundapur than in Kannur. Adults of Ae. albopictus, Ae. vittatus, Ar. aureolineatus, Ar. subalbatus, Cx. bitaeniorhynchus, Cx. sitiens, Ma. uniformis, and Ve. lugubris bloodfed on humans.

Pardomyia is validated as a subgenus of Mucidus and primary characters are given to separate it from the nominotypical subgenus. All life stages of the subgenus are described. The subgenus occurs in the Oriental and Australasian Regions and includes Mu. aurantius aurantius, Mu. aurantius chrysogaster, Mu. painei, and Mu. quadripunctis. A “previous usage” section is provided for tracking the published generic-level history of the 14 species, one with subspecies, currently included in Mucidus.

A state-wide survey of tire-breeding mosquitoes in Alabama was conducted in 2004 and 2005. Tire sites in all 67 counties in the state of Alabama were sampled for mosquito larvae. A total of 13,022 mosquito larvae, representing 12 species in 7 genera, was collected. The most frequently collected species were Aedes albopictus (70.4%), Culex territans (8.0%), and Ochlerotatus triseriatus (7.1%). The following species were also collected: Cx. restuans (6.0%), Cx. salinarius (2.7%), Orthopodomyia signifera (2.4%), and Cx. quinquefasciatus (1.4%). Ochlerotatus atropalpus, Toxorhynchites rutilus, Anopheles punctipennis, An. quadrimaculatus, and Psorophora columbiae each represented <1.0% of the total larval collections. No Ae. aegypti or Oc. japonicus were collected from tires during this survey. The first known collection of Ps. columbiae breeding in water-filled tires is reported.

Laboratory experiments attempting to elicit a response based on a natural condition rely on the assumption that the laboratory treatment accurately mimics field conditions. With Aedes albopictus (Skuse), laboratory experiments analyzing hatch rates assume that the laboratory stimuli resemble those received by the eggs in field conditions. With the use of a colonized strain of Ae. albopictus, an analysis of the hatch rates comparing both field and laboratory settings was conducted. Additionally, hatch rates were compared for mosquitoes exposed to regular, periodic hatch stimulation (as usually seen in laboratory experiments) and random hatch stimulation (as seen in the field). In both experiments, laboratory treatments were not found to differ significantly from the field treatments, indicating that experimental results achieved in the lab are relevant to field situations.

Mark–release–recapture experiments were conducted in 2001 and 2002 to determine whether Ochlerotatus taeniorhynchus, black salt marsh mosquitoes, were dispersing from uninhabited islands in the Key Deer National Wildlife Refuge to inhabited islands within Monroe County, Florida. An estimated 1,658,000 mosquitoes were marked during 2001, and an estimated 300,000 mosquitoes were marked during 2002. Recapture rates were 0.0061% and 0.0117%, respectively. Oc. taeniorhynchus disperse from uninhabited islands to other uninhabited islands and also to inhabited islands, namely, Big Pine Key and No Name Key.

CDC light-trap collections and larval dipping conducted during 2004 and 2005 revealed Culex coronator firmly entrenched in 10 counties in central and south Mississippi. A total of 3,307 specimens (2,200 adults, 1,107 larvae) of Cx. coronator have been collected in Mississippi. Notes on breeding sites and seasonality are presented and discussed. It is likely that the Mississippi population of Cx. coronator is contiguous with the one previously known from southern Texas, because specimens have been collected in Harris County, TX over the last few years, and were also found in Louisiana in 2004. Establishment of this population of a nonnative mosquito in Mississippi reveals how apparently easy it is for such events to happen.

A method of marking adult Culex quinquefasciatus by feeding the larvae commercial hog chow dyed with methylene blue, Giemsa, and crystal violet was evaluated under laboratory conditions. Of 243 mosquitoes fed the dyed food, 230 had visible marks (94.6%). The dyed food increased the egg–adult development time from 11.4 to 12.1 d. After 9 d, 82.5% of adult mosquitoes dyed as larvae could be identified, and remained detectable for up to 15 d, their maximum laboratory life.

Blood meals of 1,491 Anopheles fluviatilis sensu lato (s.l.), 1,690 An. culicifacies s.l., 719 An. annularis s.l., and 358 An. varuna sensu stricto were examined by gel diffusion method. The overall anthropophilic index (AI) was 78.9%, 1.6%, 3.2%, and 6.7% for An. fluviatilis, An. culicifacies, An. annularis, and An. varuna, respectively. Out of 4 anopheline species studied, only 0.2% of An. culicifacies blood meals contained blood from humans and cattle. Anopheles fluviatilis and An. culicifacies revealed seasonality in their anthropophilic index. An. fluviatilis showed a human forage ratio of more than 1, whereas An. culicifacies, An. annularis, and An. varuna had forage ratios of 2.6, 2.5, and 2.4, respectively, for bovine. There was a correlation between the AI of An. fluviatilis and the malaria slide positivity rate. This study suggests that the use of repellent, insecticide-treated nets will be effective for controlling biting mosquitoes inside houses in Orissa.

Insecticide-treated lethal ovitraps are used for control of the dengue vector Aedes aegypti in north Queensland, Australia. In an effort to optimize their use, the influence of deployment height, premise shading, and protection from wind on trap efficacy was assessed in field experiments. Sticky ovitraps were used as a proxy for lethal ovitraps because they provide a direct measure of adult visitation rates. Sticky ovitraps deployed at ground level for 1 wk captured significantly more female Ae. aegypti (mean ± SE, 1.7 ± 0.4) than those set at 1.75-m elevation (1.0 ± 0.3). Setting traps on the leeward side of houses significantly improved collections during a dry season experiment but not in the wet season. Traps set at lightly or heavily shaded premises performed equally well. To determine the optimum number of ovitraps to set per premise, five treatments making up different numbers of traps (1, 2, 4, 6, or 8) were trialled in a Latin square experimental design. Female Ae. aegypti collections increased as more traps were deployed, although mean collections by using 4 (2.6 ± 0.6), 6 (2.4 ± 0.5), or 8 traps (4.8 ± 1.3) could not be separated statistically, suggesting that 4 traps was the optimum number for routine deployment.

Using laboratory Y-tube olfactometers, the attractiveness of lactic acid and 2 kairomone blends from the United States Department of Agriculture (USDA) and BioGents GmbH (BG) was assessed for attractiveness to Aedes aegypti. Four geographically disparate populations were assessed: North Queensland Australia (NQA), Florida USA, Minas Gerais Brazil (MGB), and Singapore. In descending order, populations were attracted to USDA, BG blends, and lactic acid. MGB was poorly attracted to lactic acid alone. The blends were less attractive than human odor. Proprietary blends were modified, and their attractiveness was assessed to find the optimum attractive mixture for NQA. Adding acetone to BG, and ammonia and caproic acid to USDA, improved attractiveness in the laboratory. Field attractiveness was assessed by coupling the blends with a newly developed BG-Sentinel Ae. aegypti trap. Trials were carried out using the BG blend, BG blend plus acetone, USDA blend, USDA blend plus ammonia and caproic acid, and a control trap with no kairomones. The traps were highly effective, with mean 24-h collections up to 11.15 Ae. aegypti per trap, and this species made up 91.7% of collections. However, the effectiveness of the unbaited control trap indicated that the BG-Sentinel has visual attractive properties for Ae. aegypti and that the kairomone lures added little to trap performance in NQA.

The host preference, survival rates, and length of the gonotrophic cycle of Anopheles punctimacula was investigated in southern México. Mosquitoes were collected in 15-day separate experiments during the rainy and dry seasons. Daily changes in the parous–nulliparous ratio were recorded and the gonotrophic cycle length was estimated by a time series analysis. Anopheles punctimacula was most abundant during the dry season and preferred animals to humans. The daily survival rate in mosquitoes collected in animal traps was 0.96 (parity rate = 0.86; gonotrophic cycle = 4 days). The length of gonotrophic cycle of 4 days was estimated on the base of a high correlation coefficient value appearing every 4 days. The minimum time estimated for developing mature eggs after blood feeding was 72 h. The proportion of mosquitoes living enough to transmit Plasmodium vivax malaria during the dry season was 0.35.

Studies were conducted to determine the host selection patterns of Culex quinquefasciatus in the municipalities of Guadalupe and Escobedo near Monterrey, northeastern Mexico. Mosquitoes were captured inside and outside houses. Chickens and humans were the most common blood sources for all Cx. quinquefasciatus females, accounting for nearby 70% of blood meals. Human blood was detected by enzyme-linked immunosorbent assay in 36.4% and 28.4% of engorged females resting inside houses in Guadalupe and Escobedo, respectively. The proportions of indoor resting females fed on chicken blood were 38.7% and 56.7%, respectively. The weighted and unweighted human blood index (HBI) values were calculated, by using indoor and outdoor data, from the proportions of humanfed mosquitoes. Weighted means (HBI) estimates for Guadalupe and Escobedo were 23.0% and 15.4%, respectively. The forage ratios (FRs) for humans were <1.0 (with or without chicken populations); consequently, it seems that these mosquitoes feed on humans with less frequency in comparison with chickens, horses, and pigs. The FRs for chickens were the highest of all available hosts (1.7 and 3.2), and they were the most abundant hosts in Escobedo, and the second most abundant in Guadalupe, indicating a selective bias of Cx. quinquefasciatus for chickens (i.e. ornithophagic).

The vector competence of Culiseta incidens (Thomson) and Culex thriambus Dyar for West Nile virus (WNV) were compared to Cx. quinquefasciatus Say or Cx. tarsalis Coquillett and Cx. stigmatasoma Dyar collected concurrently in California. Culiseta incidens were less susceptible to oral infection than Cx. quinquefasciatus, but transmitted virus at a significantly higher rate, thereby yielding comparable population transmission rates. Culex thriambus was equally susceptible to oral infection and transmitted virus at rates comparable to Cx. tarsalis or Cx. stigmatosoma. A mammalian host selection pattern most likely precluded detection of natural infection in Cs. incidens, a fairly abundant peridomestic species. In contrast, an avian host selection pattern and efficient vector competence resulted in repeated detection of WNV in Cx. thriambus; however, limited abundance and restrictive riparian larval habitat requirements would seem to limit the involvement of Cx. thriambus in WNV epidemiology.

Effective control of mosquitoes in rural Midwestern communities that lack organized mosquito control districts would be aided by baseline data on optimal breeding sites, interannual effects of climate on population emergence and abundance, and efficacy of various control options under field conditions. During 19 surveillance weeks in the summer of 2005, we sampled 100 catch basins each week that were distributed among 10 study zones. Catch basins within each study zone were subjected to 1 of 4 different mosquito control methods or were left untreated. Of the 10 study zones, 5 were in high-intensity urban areas and 5 in low-intensity urban areas. During the study period, treatment of urban catch basins with Altosid® XR extended residual briquets resulted in a 69.5% reduction in mosquito larvae numbers. However, the product did not provide sustained treatment for the 120–150 days suggested by the manufacturer. Vectolex®WSP, when applied according to manufacturer's suggestions, resulted in a 73.4% reduction in mosquito larvae. VectolexWSP effectiveness was impacted by heavy rainfalls early in the surveillance period. Cleaning catch basins once or twice during the surveillance period resulted in a 40.1% and a 39.9% reduction in mosquito larvae, respectively. Catch basins in high-intensity urban areas comprised 27.7% of the total collection compared to 72.3% from low-intensity urban areas. The AltosidXR extended residual briquets and the VectolexWSP products both impacted the number of mosquito larvae collected. However, a single treatment to control mosquitoes in this study area may not be sufficient. We suggest that treatment of urban catch basins is optimized when accompanied by a comprehensive surveillance plan, and that a combination of treatments or multiple treatments during the season may be necessary to mitigate risks of vector-borne infectious diseases in areas with similar climate and precipitation trends.

Potential insecticide-resistance mechanisms were studied with the use of biochemical assays in Aedes aegypti (L.) collected from 5 municipalities representing the north part of Quintana Roo: Benito Juarez, Cozumel, Isla Mujeres, Lazaro Cardenas, and Solidaridad. The activities of α and β esterases, mixed-function oxidases (MFO), glutathione-S-transferase (GST), acethylcholinesterase (AChE), and insensitive acethylcholinesterase (iAChE) were assayed in microplates. Three replicates were performed for each enzyme and 60 males and 60 females were analyzed in each population. The New Orleans (NO) susceptible strain of Ae. aegypti was used as a susceptible reference and the threshold criteria for each enzyme were the highest NO absorbance values. In none of the 6 tests were absorbance values correlated in males and females. α esterases were elevated in Benito Juarez, Cozumel females and in Lazaro Cardenas males and females. β esterases were elevated in Benito Juarez, Cozumel females and in Cozumel and Lazaro Cardenas males. Elevated esterases suggest potential insecticide-resistance mechanisms against organophosphate, carbamate, and some pyrethroid insecticides. Slightly elevated levels of MFOs appeared in Lazaro Cardenas females and in Cozumel, Isla Mujeres, and Solidaridad males. Mechanisms involving iAChE or GST were not apparent.

The Indian urban malaria vector Anopheles stephensi Liston was selected for deltamethrin resistance for 25 generations (F₂₅) at larval and adult stages separately in the laboratory. There was roughly a 151-fold increase in the lethal concentration (LC)₅₀ and a 99-fold increase in the LC₉₀ in larval selection, when the F₂₅ was compared with the parent colony. Similarly, adult selection resulted in a 39-fold increase in the LC₅₀ and a 31-fold increase in the LC₉₀ in the adults. Knockdown bioassays conducted on adults (selected at the larval and adult stages) against the diagnostic concentration of insecticide-impregnated papers, namely, deltamethrin (0.05%), permethrin (0.75%), λ-cyhalothrin (0.05%), and cyfluthrin (0.15%), revealed that the adults selected at the adult stage were more resistant to deltamethrin and the other pyrethroids than those selected at the larval stage. A significant cross-resistance to DDT was noticed only in the adults selected at the adult stage, and no cross-resistance to malathion and propoxur was observed in the adults of both resistant colonies. Polymerase chain reaction studies revealed an occurrence of heterozygote level of kdr mutation (leucine to phenylalanine) in the adults selected at the adult stage. This event was not observed in the adults selected at the larval stage. Moreover, this is the first report on the occurrence of kdr mutation in Indian An. stephensi resistant to deltamethrin.

Behavioral responses of 2 wild-caught populations of Anopheles maculatus (Theobald) and Anopheles sawadwongporni Rattanarithikul and Green to operational field doses of DDT (2 g/m²) and permethrin (0.5 g/m²) were characterized using an excito-repellency test system. Both test populations, collected from animal quarters at Ban Pu Teuy, Sai Yok District, Kanchanaburi Province, western Thailand, were found completely susceptible to DDT and permethrin. Specimens from 2 test populations quickly escaped from direct contact with treated surfaces from 2 insecticides compared with paired controls. Noncontact repellency response to DDT was significantly pronounced in An. sawadwongporni (P < 0.05) and comparatively weak in An. maculatus, but it was statistically greater than individually paired controls (P < 0.05). We conclude that contact irritancy is a major behavioral response of both field populations when exposed directly to DDT and permethrin, whereas noncontact repellency to DDT also produced a significant escape response in An. sawadwongporni.

The aim of this work was to evaluate the larvicidal effect of andiroba oil, Carapa guyanensis, against 2 strains of Aedes aegypti. After 8 h after exposure to oil, the lethal concentration (LC)₉₀ and LC₉₅ values for the GCZ (temephos-resistant) strain larvae were 80 and 86 ppm (1st instars), 98 and 106 (2nd instars), 166 and 182 (3rd instars), and 192 and 202 ppm (4th instars), respectively. TheLC₉₀ and LC₉₅ values for the Rockefeller strain larvae were 164 and 182 ppm (1st instars), 212 and 224 (2nd instars), 210 and 226 (3rd instars), and 450 and 490 ppm (4th instars), respectively. Comparison of the 2 laboratory strains of Ae. aegypti in the present study demonstrated significant variation in the susceptibility of larvae to andiroba oil. Whether a higher susceptibility of field populations of Ae. aegypti to andiroba oil occurs remains to be investigated.

The importance of appropriate drop size and density for successful mosquito adulticide applications mandates the necessity for accurate determination of drop spectra of a particular nozzle. There is considerable disparity between mass median diameter (MMD) determinations for flat-fan nozzles relative to the horizontal or vertical orientation of the microscope slide used to collect the drops. To remove this ambiguity, the definitive MMDs of flat-fan nozzles used in aerially applied mosquito control adulticides were determined by laser-diffraction–based characterization and analysis. These data were compared with previous data, and the impact of these data on aerial adult mosquito control was discussed. At The Florida Wind Tunnel for Mosquito Control, the Malvern Spraytec Spray Particle Analysis System was used to characterize the entire aerosol plume of the nozzles. Nozzle characterizations were carried out at aircraft operational wind speeds and pressures with nozzles mounted at 135° relative to the direction of air flow. The mean drop-diameter volumes (Dv) Dv_(0.1), Dv_(0.5), and Dv_(0.9) with 95% confidence intervals for each scenario were determined. Characterizations of flat-fan nozzles of 80005 to 8005 for Orchex 796, Dibrom and a Permanone∶Orchex 796 mix (1∶1) resulted in no Dv_(0.5) less than 50 µm and a maximum of 133 µm. The Dv_(0.1) was greater than 25 µm for 52% of the nozzles and ranged from 14 to 42 µm. The Dv_(0.9) ranged from 130 to 296 µm. There was a decrease in drop-diameter values (Dv_(0.1), Dv_(0.5), Dv_(0.9)) relative to increased wind speed and/or pressure for any particular nozzle. Relative to characterizations with Orchex 796, drop-diameter values for Dibrom varied from the same to slightly larger, whereas the Permanone∶Orchex 796 mix values were larger except for 2. Relative to the goal of creating an aerosol cloud efficient in controlling adult mosquitoes, none of the nozzles were capable of producing a Dv_(0.5) of less than 50 µm. Fifty percent of the spray was capable of causing visible damage to a car's finish. The concept that droplets larger than 25 µm are wasteful because they contain more malathion than required for kill suggests that for 52% of the nozzle configurations, those with Dv_(0.1) greater than 25 µm, 90% of the spray is of little use in controlling mosquitoes. None of the flat-fan nozzle regimes tested will satisfy new label requirements of a Dv_(0.5) and Dv_(0.9) of around 50 and 100 µm, respectively, because of their high Dv_(0.9).

Modification of the DC-III portable droplet measurement system, permitting its use under field conditions, is described. Under laboratory conditions, the system effectively sampled water droplets from aerosols produced by a dry ice/water generator and high-pressure syringe. Seven droplet sizes, totaling 71,053 droplets within 22 tests (dry ice method), consisted of 1-, 2-, 6-, 11-, 18-, 25-, and 34-µm droplets with individual (rounded) percentages of 45.25, 37.22, 13.85, 3.17, 0.45, 0.02, and 0.005, respectively, for each size. Cumulatively, 1-µm droplets accounted for ca. 45.25% of the droplets sampled; combined with 2-µm (ca. 82.48% together), 6-µm (ca. 96.33% together), and 11-µm droplets, yielded ca. 99.51% of the droplets sampled. The syringe produced 12 droplet sizes, with 4,121 droplets sampled, consisting of 1, 2, 6, 11, 18, 25, 34, 45, 56, 69, 83, and 99 µm with individual percentages of 15.43, 21.91, 24.58, 17.30, 10.62, 4.65, 2.93, 1.33, 0.63, 0.33, 0.16, 0.07, respectively, for each size. The 6-µm droplets contributed the highest individual percentage, and cumulatively, these droplets combined with 1- and 2-µm droplets, yielding 61.93%, whereas 11- to 45-µm droplets contributed 36.83%, for a total of 98.76%. Droplets measuring 56–99 µm accounted for ca. 1.24% of droplets sampled. Hand-fogger oil aerosols produced 12 droplet sizes (1–38 µm) at test distances of 7.6 and 15.2 m, with 1,979 and 268 droplets sampled, respectively, during 10 tests at each distance. With analysis of variance of transformed individual percentages for each size at both distances, no significant differences were observed for 7.6 and 15.2 m. Cumulatively, 1-, 2-, 3-, and 5-µm droplets contributed 82.87 and 80.97%, whereas 8-, 11-, 14-, and 18-µm droplets added 14.55% to totals at both 7.6 and 15.2 m, respectively. Droplets measuring 22, 27, 32, and 38 µm contributed 2.57% and 4.47% to samples obtained at 7.6 and 15.2 m. The average mass median diameter (MMD) of mineral oil aerosols obtained at 7.6 and 15.2 m were 19.55 ± 1.62 and 15.49 ± 1.35, respectively. Positioned at 15 m (50 ft) within a field cage test plot during 12 separate tests, the MMD values obtained downrange were less than calibration MMD values in 5 tests (10–93% of calibration values), but 1.1 to 4.4 times greater in 7 remaining tests. With exception of 2 tests, susceptible Sebring strain Culex quinquefasciatus mortality at the 31-m (100-ft) stake, 15 m (50 ft) behind the DC-III, was consistently 100%. The average MMD values for malathion, permethrin, and resmethrin (at 0.003 and 0.007 rates) at this distance were 13.24 ± 6.08, 7.48 ± 5.69, 16.64 ± 5.54, and 15.48 ± 2.89, respectively.

Bacillus sphaericus is a bacterium that is specifically pathogenic to mosquitoes. The current study investigated the particle behavior of a spray-dried technical concentrate and a water-dispersible granule (WDG) formulation of B. sphaericus in an aqueous column. The objective was to determine the distributional behavior (minus any extraneous environmental factors) of B. sphaericus within a water column over time. Studies showed a homogenous distribution of particles over a 16-h period for the technical concentrate and WDG. The particle behavior of the WDG formulation also showed homogenous distribution of particles at 64 and 128 h. These results show that declines in particle availability in the field may not be due to the bacterium itself or to the WDG formulation.

The residual effectiveness of pyrethroid-treated foliage as a barrier against female Aedes albopictus and Culex quinquefasciatus was evaluated in large screened cage field tests. Individual potted southern wax myrtle, Myrica certifica, plants were treated with either Aqua Reslin® 20 20 emulsifiable concentrate (EC) (20% active ingredient [AI] permethrin 20% [AI] piperonyl butoxide), Permanone® EC (10% [AI] permethrin), or Suspend® suspension concentrate (SC) (4.75% [AI] deltamethrin) at maximum label rates. Generally, Aqua Reslin provided ≈83% overall reduction of mosquitoes during the week of treatment. After that time, mosquito reduction decreased to <50% and continued at this level for the remainder of the 12-wk study. Mosquito knockdown/mortality from excised Aqua Reslin-treated leaves revealed that this formulation quickly lost effectiveness after the initial week of treatment. Plants treated with Permanone provided ≈70% and 64% overall reduction during the week of, and first week after treatment, respectively. Knockdown/mortality from excised leaf bioassays of leaves treated with this formulation fell below 50% 2 wk after treatment where it remained for the rest of the study. Suspend generally provided 70 to ≈80% overall mosquito reduction during the first 4 weeks after treatment and decreased to <50% thereafter. Residues on treated leaves provided >95% overall knockdown/mortality throughout the study and was not correlated with weekly reduction in the field cages. We believe this disparity was in part attributed to new plant growth. Newly formed leaves probably provided nontoxic surfaces for mosquito harborage.

The 16th Annual Latin American Symposium presented by the American Mosquito Control Association (AMCA) was held as part of the 72nd Annual Meeting in Detroit, MI, in February 2006. The principal objective, as for the previous 15 symposia, was to promote participation in the AMCA by vector control specialists, public health workers, and academicians from Latin America. This publication includes summaries of 34 presentations that were given orally in Spanish and 12 posters presented by participants from 6 countries in Latin America, Puerto Rico and the United States. The symposium addressed results from chemical and biological control programs and studies; studies on insecticide resistance; findings from population genetics, molecular, taxonomic, ecological, and behavioral studies of vectors of dengue (Aedes aegypti and Ae. albopictus), West Nile virus (Culex quinquefasciatus), malaria (Anopheles albimanus, An. darlingi, and An. marajoara), leishmaniasis (Lutzomyia), Chagas' disease (Triatoma); and Amblyomma.

Morphology and internal anatomy of a Culex pipiens L. bipolar gynandromorph that was collected on September 3, 2005 in a gravid trap at Springfield Park in the borough of Queens, New York City, NY is presented. The head of the mosquito possessed male palpi, compared to the rest of the body, which had female anatomical and morphological characteristics. The relation of morphological characteristics to physiological responses of the gynandromorph is discussed.

Ochlerotatus j. japonicus (Theobald) was first collected and identified in 2003 from CDC gravid trap collections in Boone, Campbell, and Wolfe counties, Kentucky. Subsequent collections during 2004 and 2005 indicate that the species has become established in Boone, Campbell, Fayette, Fleming, Grant, Jefferson, and Kenton counties.

We report on the collection of adults and larvae of Aedes albopictus from Carlsbad, New Mexico. In 1989, in Albuquerque, individual adults of this species were intercepted and destroyed. This recent investigation in Carlsbad disclosed the presence of adults from four sites and larvae from one site, on August 19 and on September 12, 14, and 15, 2005.

Against caged field-collected Anopheles quadrimaculatus Say adults, ultra-low volume (ULV) applications of 3.175 g a.i./0.40 ha (0.007 lb a.i./ac) of synergized permethrin (4% Aqua-Kontrol®) gave excellent control (mean: 90%). Droplet collections on magnesium-oxide–coated (MGO) glass slides from 3 applications revealed mean deposition rate of 216 droplets/cm² and 11-µ volume median diameter (VMD) (based on Aqua-Kontrol label spread factor of 0.61).