Surfactant-enhanced essential oils as mosquito larvicides

Using laboratory bioassays with fourth-instarCulex pipiens formmolestus larvae, we explored the larvicidal properties of two representative plant-derived oils, eucalyptus oil and turpentine (two grades), and cineole, the main component of eucalyptus oil. Each was larvicidal alone, but efficacy was enhanced when the spreading pressure was increased by adding 1% insoluble surfactant (Arosurf MSF) plus 1% detergent. Cheap turpentine was more effective than more refined turpentine. These mixtures were compared with the familiar surface-active larvicides Arosurf and Golden Bear Oil. At a dose of 2 μl per tub (=0.13 μl cm⁻²), enhanced by surfactants (turpentine:Arosurf:detergent 100:1:1 by volume), refined turpentine acted faster than Arosurf alone, causing higher mortality at 24 and 48 h after treatment but equivalent mortality at 72 h. It immobilised more larvae than Golden Bear Oil in the first three hours, but was less effective over 24 h. Crude turpentine enhanced by surfactants immobilised about as many larvae as Golden Bear Oil over 24 h. These findings indicate that plant essential oils merit further attention as widely available, environmentally benign mosquito larvicides.     

Factors affecting the efficacy of three commercial formulations of Bacillus thuringiensis var. israelensis against species of European black flies

The efficacy of three commercial formulations of Bacillus thuringiensis var. israelensis against two European black fly species was determined. The effect of seston concentration, temperature and larval size on the efficacy of the formulations was also determined. Teknar‐WDC was found to be almost four times as effective as Bactimos‐WP though only slightly more efficient than Vectobac‐AS against Simulium variegatum gp. larvae. Small larvae ( < 2.5 mm) were more susceptible to both Teknar‐WDC and Vectobac‐AS than large larvae ( > 5 mm) though no difference was seen with Bactimos‐WP. High seston concentrations both before and during bioassays significantly decreased the efficacy of all formulations. Increased temperatures increased the efficacy of all formulations.     

Factors Affecting Black Fly Larval Mortality and Carry of Two Formulations of Bacillus thuringiensis subsp. israelensis Tested in the Same Stream During a 3-Year Experiment

Over the last 20 years, many formulations of Bacillus thuringiensis subsp. israelensis (Bti) have been commercialized for the biological control of black flies in abatement programs. However, products were tested in different streams and under different environmental conditions, thus rendering the evaluation of the performance of liquid formulations of Bti very arbitrary or even impossible. Using a new field procedure, two commercial liquid formulations of Bti, Teknar HP-D and Vectobac 1200L, were for the first time tested within short time intervals in the same stream and under environmental conditions that allowed better comparison of the behavior and the performance (carry) of both products. Field results from tests using the products tested in either the same (replicate) or different environmental (abiotic) conditions were analyzed and compared. Results of the 3-year experiment showed that both water temperature and discharge had an important effect on the performance of both products (Teknar HP-D and Vectobac 1200L). In temperate water temperature (16°C) and similar discharge (70 l s -1 ), Teknar HP-D and Vectobac 1200L did not show a significant difference in their carry50 (distance where 50% of black fly larvae mortality is recorded). However, an increase in water temperature (20- 22°C) or in the discharge (250-350 l s -1 ) enhanced significantly the carry50 of both products with Vectobac 1200L having a longer carry than Teknar HP-D. Other abiotic elements such as the hyporheic zone and adsorption onto periphyton were also identified as factors affecting the behavior and the carry of the products. However, more work should be done on the loss of the residual dosages along the stream to better understand the relation between the dosages and the resulting field mortality that would lead to suggestions on how to improve Bti formulations.     

Storage Stability of Two Liquid Formulations of Bacillus thuringiensis subsp. israelensis and Effect of Freezing Over Time

Over the last two decades, many tests have been performed in the field to investigate the behaviour (persistence, carry, loss of activity, etc.) of different Bacillus thuringiensis subsp. israelensis ( Bti ) formulations. Depending on the experimental protocols, a single container of a formulation could be used more than once over time and field samples containing Bti may have to be frozen to preserve them for bioassays to be performed later. Thus, it is necessary to know how long a formulation could keep its level of efficacy and also the effects of time on frozen samples. Our results showed that the efficacy of two commercial liquid formulations of Bti (Teknar HP-D and Vectobac 1200L) when tested against Aedes triseriatus behaved differently over time when kept at room temperature. Teknar HP-D remained stable for the first two years and its LC 50 increased by 20% the third year. For Vectobac 1200L, although its larvicidal activity was better than that of Teknar HP-D every year, there was an increase in LC 50 by 22% the second year and by another 20% the third year for a total loss of activity of 46% over the three-year study. The efficacy of suspensions made with both formulations was greatly affected by freezing and the loss of efficacy increased over time. About half of the efficacy of Teknar HP-D was lost after one week of freezing and stayed at that level for three months, while with Vectobac 1200L, no significant effect of freezing was seen after one month, when compared to fresh material. However, both products showed similar efficacy after three or six months of freezing. Overall, the LC 50 s of both products had increased by a factor of about 2.5 after six months of freezing.     

Factors Affecting Residual Dosages of Two Formulations of Bacillus thuringiensis subsp. israelensis Tested in the Same Stream During a 3-Year Experiment

Although many field trials have been conducted using Bacillus thuringiensis subsp. israelensis (Bti)-based formulations, most have been in rivers with different biotic and abiotic conditions thus rendering the evaluation of their performance very difficult. Recently, results of a threeyear experiment using a new field procedure brought new insight into the behavior and the performance (carry) of two liquid formulations of Bti, Teknar HP-D and Vectobac 1200L, tested in the same lotic environment and under similar abiotic and biotic conditions. Factors such as discharge, water temperature and the hyporheic zone were identified as elements affecting the downstream loss of activity of both products. However, to better understand the reduction of black fly mortality along a stream (measured by using gutters), data of residual dosages of both products (measured by laboratory assay with mosquito larvae) were compared with reduction of black fly mortality. Bti toxic activity was monitored from water samples taken at different distances downstream from an application point, and from probes driven into the hyporheic zone, to study the effects of abiotic factors on the loss of the toxic crystals. Results showed that the loss of dosage was exponential for both products but more crystals were recovered from Vectobac 1200L along the stream than from Teknar HP-D. However, the latter was more efficient, i.e. less toxins were needed to kill 50% of black fly larvae both in temperate (16°C) and warmer (19.5-22°C) water. Also, a rise in water temperature had a greater effect in the kill induced by Vectobac 1200L compared to Teknar HP-D. For the same residual dosages present at the stations, longer carries of toxin activity (higher mortalities) were obtained in warmer water. Finally, the hyporheic zone was identified as a major source of loss of activity of Bti products. Large stream discharges decreased the effect of the hyporheic zone and that was reflected in longer carry of the products.     

Laboratory and field evaluations of industrial formulations of Bacillus thuringiensis serovar. israelensis against some mosquito species of central Italy

Two wettable powder formulations (Bactimos and Vectobac) and a flowable concentrate (Teknar) formulation of Bacillus thuringiensis serovar. israelensis were evaluated as larvicides of Culex pipiens, Aedes caspius, and Aedes detritus. In the laboratory, the levels of susceptibility of these species to the test formulations were essentially similar and corresponded to their relative potencies; the LC₉₀ values ranged from 0.042 to 0.37 ppm. C. pipiens, A. caspius, and A. detritus, in that order, were susceptible to the biocide. Under field conditions in central Italy. Bactimos at 0.5 kg/ha gave 98% control of C. pipiens in an irrigation canal. Teknar at 1.25 liters/ha gave 86–100%, and at 2.5 liters/ha gave 90–100% control of C. pipiens in two natural ponds. Against A. caspius in salt marsh habitats, Bactimos at 0.5 kg/ha and Teknar at 2.5 liters/ha yielded complete control of the larvae, while a lower rate (0.2 kg/ha) of Bactimos, and Vectobac at 0.5 kg/ha resulted in 82–94% and 67–91% control, respectively. Higher rates (0.75 and 1.0 kg/ha) of Vectobac gave 76–100% and 98–100% control of A. caspius. Bactimos at 0.15 kg/ha gave 93–98% control of A. detritus in two salt marsh ponds. B. thuringiensis serovar. israelensis is practically economical for the control of C. pipiens, A. caspius, and A. detritus in the various biotopes in central Italy.     

Field evaluation of the microbial insecticide Bacillus thuringiensis serotype H-14 against floodwater mosquitoes.

Four experimental formulations of the microbial insecticide Bacillus thuringiensis var. israelensis (serotype H-14) were evaluated in the field against larvae of the floodwater mosquitoes Aedes nigromaculis and Psorophora columbiae with ground and aerial application methods. The formulations included ABG-6108D (Abbott Laboratories, North Chicago, Ill.), a wettable powder containing about 400 IU/mg, Sandoz 402-WDC (Sadoz, Inc., Homestead, Fla.), a flowable concentrate containing 600 IU/mg, and two wettable powder formulations of Bactimos (Biochem Products, Montchanin, Del.), one with 3,000 IU/mg and the other with 6,000 IU/mg. Trials against both species indicated they were similar in susceptibility to B. thuringiensis var. israelensis (serotype H-14), and that by using ground application methods, populations of second and third instars could be reduced by 83 to 100% with ABG-6108 and Sandoz 402-WDC at 0.56 to 1.12 kg/ha and with Bactimos (6,000 IU/mg) at 0.44 kg/ha. When applied aerially, approximately two to three times the ground rates had to be used to obtain similar population reductions. Fourth instars were difficult to control, requiring approximately 1.5 to 2 times the rates required for the earlier instars to obtain 80 to 100% reductions. However, these rates were not sufficient to obtain adequate control if larvae were late fourth instars.     

Anopheles albimanus (Diptera: Culicidae) and cyanobacteria: an example of larval habitat selection

Northern Belize has extensive herbaceous wetlands. Those dominated by sparse emergent macrophytes, rushes (Eleocharis spp.) and sawgrass (Cladium jamaicense Crantz), often develop floating mats of cyanobacteria (blue-green algae). These mats provide suitable habitat for larvae of the malaria transmitting mosquito Anopheles albimanus Wiedemann. Presence/absence of A. albimanus larvae and cyanobacterial mats was assessed in marshes located throughout northern Belize. Of the 21 marshes examined during the 1993 wet and 1994 dry seasons, cyanobacterial mats were found in 11 and A. albimanus larvae were detected in 9 of these 11 marshes. No A. albimanus larvae were found in marshes without cyanobacterial mats. Mosquito larvae were collected along two 1,000 m long transects in both the wet season (August 1993) and the dry season (March 1994) to delineate larval distribution in marshes with cyanobacterial mats. A. albimanus larval densities in cyanobacterial mats were relatively high in both seasons: 2.8 and 2.3 larvae per dip in the wet and dry seasons, respectively, in Chan Chen marsh; and 0.8 and 1.02 larvae per dip in Buena Vista marsh. Numbers of larvae per dip did not significantly change with increasing distance from houses/pastures or margins of the marsh. A field experiment showed a strong preference of ovipositing A. albimanus for cyanobacterial mats. Higher temperatures and higher CO2 emissions from cyanobacterial mats are possible ovipositional cues.     

Biological control of mosquitoes by the larvicidal activity of Bacillus thuringiensis var. israelensis delta endotoxin

Bacillus thuringiensis var. israelensis (B.t.i.) is a promising, safe toxic agent for control of mosquitoes, but the rapid disappearance of its toxicity makes its use in practice economically unattractive. The lack of evidence for B.t.i. multiplication in water also makes the natural ecology of B.t.i. puzzling. The observation that mosquito larvae readily cannibalize carcasses of B.t.i.-killed larvae, and that the carcasses become toxic to scavenging larvae provides a possible solution to this puzzle. Several experimental techniques have been developed to study these phenomena (e.g., quantitative determination of spore numbers despite aggregation, protocols for following toxicity development, etc.). Results suggest a cycle involving larval poisoning and death due to delta-endotoxin of ca. 1,000 spores, germination, vegetative growth and sporulation (with toxin production) of B.t.i. after multiplication to several million in the carcass. Implications of these results for the ecology of B.t.i., and for practical applications in mosquito control, are discussed.     

Efficacy of Czechoslovak and Soviet Bacillus thuringiensis (serotype H-14) formulations against mosquito larvae

Laboratory and field comparisons were made with two wettable powder formulations of Bacillus thuringiensis serotype H-14 (B. t. H-14) prepared in Czechoslovakia ("Moskitur") and the USSR ("Baktokulicid"). Expressed in the international Aedes aegypti toxic units (TU X mg-1) the potency of these two test formulations was greater than that of the Institute Pasteur Standard IPS-78 (= 1,000 TU X mg-1), i.e. Moskitur had a potency of about 1,500 TU X mg-1 and the Soviet Baktokulicid 2,000 TU X mg-1. The Baktokulicid and Moskitur LC 90 values for laboratory-reared Aedes aegypti larvae were, respectively, 0.11 and 0.16 mg X l-1. The range of LC 90 values for the Czechoslovak wild-caught mosquito species of the genera Aedes and Culex was 0.14-0.31 mg X liter-1 with Moskitur, 0.11-0.41 mg X l-1 with Baktokulicid, and 0.16-0.48 mg X l-1 with IPS-78. The susceptibility of laboratory Anopheles stephensi larvae was close to that of Aedes aegypti, larvae of An. messeae required many times as much Baktokulicid (1.6 mg X l-1) and Moskitur (more than 6.4 mg X l-1) for 90% mortality as did other mosquito species. The aim of outdoor assays was to establish the minimum Moskitur and Baktokulicid rates giving a 100% control of mosquito larvae. For Ae. cantans breeding habitat in flood plain forest areas these rates ranged between 0.1-0.5 mg X l-1 (0.2-1.0 kg X ha-1), for Ae. vexans control on artificially irrigated meadows between 0.8-2.0 mg X l-1 (1.2-3.0 kg X ha-1). Consistently with laboratory bioassays, Baktokulicid gave 100% control of An. messeae 4th instar larvae at a dose as high as 3.2 mg X l-1, Moskitur gave 23.1% kill at 6.4 mg X l-1. The effect of Moskitur and Baktokulicid formulations was immediate, larvae that hatched 7-14 days posttreatment survived. The efficacy of B. t. H-14 outdoor treatments tended to markedly decrease with the larval densities exceeding 100 larvae per 1 dm2. Species of nontarget aquatic organisms, including the Diptera Chaoborus crystallinus, Mychlonyx sp. and Dixidae, were not noticeably affected by treatments with B. t. H-14 formulations used.     

Influence of Stream Profile and Abiotic Factors on the Performance and Residual Dosages of Two Commercial Formulations of Bacillus thuringiensis subsp. israelensis During a 2-Year Experiment

Recently, results of a 3-year study showed the importance of abiotic factors such as water temperature, stream discharge and the hyporheic zone on the behaviour, performance and loss of the residual dosages (amount of the injected dosage left at each station) of two commercial liquid formulations of Bacillus thuringiensis subsp. israelensis ( Bti ), Teknar HP-D and Vectobac 1200L. Experiments were performed in the same stream and under environmental conditions that allowed comparisons of results between formulations. To improve our understanding of the influence of abiotic factors on the behaviour and the performance of these formulations, a 2-year experiment using the same products was conducted in another river characterized by a much different profile, higher discharges and colder temperatures. A field procedure based on a system of gutters located on the bank of the river already used in the previous 3-year experiment was utilized. Black fly larval mortalities were recorded along the river at different distances (stations) to evaluate the behaviour and the performance of the products while water samples taken at the stations were tested in the laboratory against mosquito neonate larvae to evaluate the residual dosages of Bti at each station. Results showed that higher residual dosages of the Vectobac 1200L were recovered compared to Teknar HP-D along the river. Although higher dosages were recovered, higher mortality was observed only for the Vectobac 1200 L in high discharge conditions. As seen before, the hyporheic zone (interstitial water between the streambed and groundwater) produced a major loss of the dosages in the first meters of the river. But because of the river profile, the hyporheic zone had a lesser effect on the loss of the dosages further in the river resulting in very long carries for both Teknar HP-D and Vectobac 1200L.     

The possibilities for control of two‐spotted spider mite tetranychus urticae on field‐grown strawberries in the UK by predatory mites

Numerous field trials have been undertaken in order to obtain a deeper understanding of the behavior (persistence, dispersion, etc.) of Bacillus thuringiensis serovar. israelensis (B.t.i.) formulations when treating rivers or streams for blackfly control. After an extensive sampling of water and natural substrates (periphyton, sediments, moss), freezing is a useful procedure to prevent enzymatic deterioration or bacterial growth in samples before bioassays are to be performed. Using Aedes triseriatus neonate larvae, we quantified the effect on potency of freezing and thawing of B.t.i. suspensions at operational field concentrations. In addition, as samples varied in their content of natural substrates we tested the hypothesis that the presence of such suspended solids affected the mortality response of larvae. Our results showed that these parameters are of significant importance and should be accounted for when comparing bioassays performed on previously frozen or turbid samples.     

蚊幼虫感染苏云金杆菌以色列变种后病理的研究

本文用电子显微镜、蛋白质凝胶电泳和蛋白水解酶测定的方法,比较研究了三种蚊幼虫在感染苏云金杆菌以色列变种后中肠组织的病变,经苏云金杆菌以色列变种处理10分钟后,中肠细胞的细胞器即呈现病变,最明显的是线粒体呈现极度的电子致密状态,细胞质的粗糙内质网也开始瓦解,处理16小时后,细胞核膨胀,各种细胞器进一步瓦解,而围食膜仍然完好。此时细胞的盐溶性蛋白含量减少,图谱上明显缺少一条蛋白区带。另方面,感染10分钟后,中肠的蛋白水解酶活性便下降,不同蚊种的酶活性相差比较大,幼虫中肠的蛋白水解酶主要为胰蛋白酶。 根据结果分析,我们初步认为,苏云金杆菌以色列变种,对蚊幼虫的毒效是苏云金杆菌以色列变种的毒素对中肠细胞能量代谢和中肠蛋白酶活性产生抑制的结果。     

Characterization of aquatic mosquito habitat, natural enemies, and immature mosquitoes in the Artibonite Valley, Haiti

This paper characterizes water body types harboring immature mosquitoes in a low-lying area of Haiti and investigates the relationship between immature Anopheles albimanus abundance and aquatic predator presence. Larval An. albimanus were found in permanent and semi-permanent groundwater habitats including (in order of greatest abundance) hoof/footprints, ditches, rice fields, and ground pools. High levels of species co-occurrence were observed in habitats. Among water bodies positive for immature Anopheles, 42.9% also contained immature Culex species. Significant association between An. albimanus abundance and the absence of fish predators was detected. Results from the multivariate negative binomial regression suggest that the interactive effect of increasing distance from the Artibonite River and elevation are positively associated with the abundance of immature An. albimanus. The presence of fish predators was not associated with the abundance of An. albimanus larvae in habitats while controlling for habitat distance and elevation. The results of this study provide baseline entomological information to inform vector control programs in the country.     

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。     

Sustainable control of mosquito larvae in the field by the combined actions of the biological insecticide Bti and natural competitors

Integrated management of mosquitoes is becoming increasingly important, particularly in relation to avoiding recolonization of ponds after larvicide treatment. We conducted for the first time field experiments that involved exposing natural populations of the mosquito species Culex pipiens to: a) application of the biological insecticide Bacillus thuringiensis israelensis (Bti), b) the introduction of natural competitors (a crustacean community composed mainly of Daphnia spp.), or c) a combined treatment that involved both introduction of a crustacean community and the application of Bti. The treatment that involved only the introduction of crustaceans had no significant effect on mosquito larval populations, while treatment with Bti alone caused only a significant reduction in the abundance of mosquito larvae in the short‐term (within 3–10 days after treatment). In contrast, the combined treatment rapidly reduced the abundance of mosquito larvae, which remained low throughout the entire observation period of 28 days. Growth of the introduced crustacean communities was favored by the immediate reduction in the abundance of mosquito larvae following Bti administration, thus preventing recolonization of ponds by mosquito larvae at the late period (days 14–28 after treatment). Both competition and the temporal order of establishment of different species are hence important mechanisms for efficient and sustainable mosquito control.     

应用氯氰菊酯和B.t.i H-14混配杀虫剂现场防治城市蚊幼虫的效果评价

采用常量喷雾或注射器滴注方法观察氯氰菊酯、B .t.iH 1 4混配杀虫剂对城市中小型蚊幼虫孳生地现场防治蚊幼虫的效果。结果表明用 2 5mg L、5 0mg L混配杀虫剂分别处理蚊幼虫孳生地 ,1天后蚊幼虫下降率均为 1 0 0 %。容器指数由处理前的 5 3 5和 5 1 6下降至零的持效期分别为 1 4和 2 1天。2 5mg L混配杀虫剂在 2 1天内的毒杀持效与单独使用 5 0mg LB t iH 1 4、1 0mg L氯氰菊酯相当 ,而5 0mg L混配杀虫剂持效比单独使用 5 0mg LB .t.iH 1 4,1 0mg L氯氰菊酯延长 7天 ,表明混配杀虫剂在现场能有效防治蚊幼虫 ,减少化学杀虫剂的用量。     

Assessment of microencapsulated formulations for improved residual activity of Bacillus thuringiensis

Bacillus thuringiensis Berliner is a highly efficacious bioinsecticide used to control lepidopteran pests in the field. Unfortunately, it has limited residual activity on plants because sunlight inactivates spores and crystals and they can be washed off by rain. To minimize loss of activity, formulations must contain UV protectants, stickers, or both. We tested approximately 80 formulations and determined optimal combinations of ingredients and spray drying conditions for improving B. thuringiensis residual activity after simulated rain and simulated sunlight. B. thuringiensis stability, after simulated sunlight (xenon light/8 h) and rain (5 cm/50 min), was improved using formulations based on lignin, corn flours, or both, with up to 20% of the active ingredient, when compared with technical powder or Dipel 2x in laboratory assays. Two formulations, made with corn flours or lignin + pregelatinized corn flour (PCF), killed 51.6 and 75.3% of Ostrinia nubilalis (Hübner) neonates after rain, respectively, versus 27% for technical powder. When the insecticidal activity was tested after simulated sunlight, corn flour-based formulations killed 78.5% of test larvae, and the lignin + PCF formulation killed 70.4%, in contrast to technical powder which caused an average of 29% mortality. Formulations made with Dipel 2x rather than technical powder, caused 62.5% mortality (corn flour-based formulations), and 72.3% mortality (lignin + PCF), versus 53.4% for Dipel 2x after rain. When tested after simulated sunlight, formulations killed 95% of the larvae (average of both formulations) versus 82% for Dipel 2x. In a field test, formulations were applied to cabbage and insecticidal activity was determined against Trichoplusia ni (Hübner) neonates exposed to treated leaves. Insecticidal activity of the corn flour-based formulations was comparable to Dipel 2x for 4 d after treatment, but was significantly better than Dipel 2x 7 d after application. A lignin and PCF-based formulation showed significantly higher residual activity than Dipel 2x, 4 and 7 d after application.     

川楝素与青虫菌等农药混用对菜青虫增效作用的试验

川楝素分别与苏芸金杆菌(B.t. Var.galleriae)、青虫菌6号、雷公藤根粉乙醇抽提物以及化学农药乐斯本混用,对保护作物避免菜青虫(Pieris rapae L.)幼虫的取食为害有明显的增效作用,而且对幼虫的化蛹及蛹重都有明显的仰制作用,具有理论和实际意义.