Mortality of Immature Houseflies (Musca domestica L.) in Artificial Diet and Chicken Manure after Exposure to Encapsulated Entomopathogenic Nematodes (Rhabditida: Steinernematidae, Heterorhabditidae)

The entomopathogenic nematodes, Steinernema felitae (=bibionis) and Heterorhabditis megidis, were encapsulated in calcium alginate and their efficacy was tested against immature houseflies. Aliquots of capsules (15 ml) containing either 1 000 000, 500 000, 250 000 or 125 000 nematodes were added to 70-ml portions of grassmeal diet containing either eggs of first, second or third instar larvae. After 2 days, the treatment with 1 000 000 encapsulated S. feltiae (=bibionis) had killed 94% of housefly eggs and 90% of first instar larvae. By day 6, both of these mortalities had increased significantly (P 0.005) to 100%. By day 2, in the same medium, 1 000 000 encapsulated H. megidis had killed 71.4% of eggs and 90% of first instar larvae. This increased significantly (P 0.01) by day 6, to 99.2% and 100% respectively. Another experiment was carried out where immature houseflies were placed in chicken manure. The emergence of houseflies as adults was used to measure the effect of the encapsulated nematodes. Depending on the numbers of nematodes and the original stage of the housefly, the treatment with encapsulated S. feltiae resulted in 55-96% reduction in adult housefly emergence, whereas treatment with encapsulated H. megidis resulted in 35-98% reduction in emergence. Finally, when encapsulated nematodes were presented as a bait to adult houseflies, little infectivity was observed.     

Grower Acceptance of Entomopathogenic Nematodes: Case Studies on Three Continents

Projects to manage arthropod pests using entomopathogenic nematodes (EPNs) in Brazil, Korea and USA are reviewed to identify conditions and practices that affected the use of EPNs for pest management. A proliferation of covered agriculture in Korea, the growth in demand for high value, pesticide-free produce in Korea and Brazil, and the cost-effectiveness of EPNs created favorable conditions for the widespread adoption of EPN products in Brazilian guava orchards and Korean vegetable greenhouses. In Florida, EPNs imported from South America function successfully as classical biocontrol agents against invasive mole crickets attacking pasture and turf. However, the low value of pasture and the availability of cost-effective chemical insecticides in turf have depressed the demand for EPN products to control mole crickets. In Florida citrus orchards, a recent, dramatic increase in the use of chemical insecticides to control an arthropod vector of a devastating bacterial disease of citrus (huanglongbing) reduced the demand for EPN products to control Diaprepes root weevils. Nevertheless, a rich and diverse EPN fauna in the Florida peninsula provides significant control of subterranean stages of root weevils in some habitats, and is the focus of research to develop cultural practices that exploit the potential for increased pest management through EPN conservation.     

昆虫病原线虫共生细菌共生性的分子生物学研究进展

嗜线虫致病杆菌属Xenorhabdus和发光杆菌属Photorhabdus细菌隶属肠杆菌科Enterobacteriaceae,对多种害虫致病能力强,分别与斯氏属Steinernema和异小杆属Heterorhabditis昆虫病原线虫互惠共生。该两属共生细菌既存在对昆虫寄主的病原性,又存在与线虫寄主的共生性。共生细菌与其线虫寄主的共生性主要表现以下4方面：（1）细菌产生食物信号诱导滞育不取食的感染期线虫恢复;（2）细菌为线虫生长与繁殖提供营养;（3）细菌能于感染期线虫的肠道定殖与生长;（4）细菌产生杀线虫毒素杀死非共生线虫。本文综述了共生菌以上4方面的共生性及其相关的分子机制。     

Post-application of anti-desiccant agents improves efficacy of entomopathogenic nematodes in formulated host cadavers or aqueous suspension against diapausing codling moth larvae (Lepidoptera: Tortricidae)

Codling moth (CM), Cydia pomonella (L.) is the most serious pest of apple and other pome fruit worldwide. In temperate climates, diapausing cocooned larvae make up 100% of the population. Control of this stage would reduce or eliminate damage by first generation CM in late spring and early summer. Entomopathogenic nematodes (EPNs) are good candidates for control of CM in the cryptic habitats where the larvae overwinter. The two predominant limiting factors for EPNs are adequate moisture and temperatures below 15°C. Formulation that maintains moisture and enables survival of EPN infective juveniles (IJs) until they can infect overwintering larvae would significantly improve their utility for protection of apple, pear and walnut. In laboratory studies conducted in moist mulch (consisting of apple and conifer wood), Galleria mellonella (L.) larvae infected with Steinernema carpocapsae (Weiser), S. feltiae (Filipjev), or Heterorhabditis bacteriophora Poinar and coated with starch and clay, produced mean mortalities of 42, 88, and 24%, respectively in CM larvae. Mulched field plots treated with formulated S. carpocapsae- or S. feltiae-infected G. mellonella larvae, then followed by an application of wood flour foam as an anti-desiccant, resulted in 56 and 86% mortality, respectively. Comparative tests of aqueous suspensions of S. carpocapsae IJs applied to cardboard bands on apple tree trunks followed by water, fire retardant gel or foam resulted in 11, 35, and 85% respective mortalities. Identical tests with S. feltiae resulted in 20, 19, and 97% respective mortalities. Our research with cadaver formulations of EPNs in mulch and aqueous suspensions on tree trunks combined with anti-desiccant agents, demonstrated significant improvement in larvicidal activity for diapausing cocooned CM larvae.     

Vibrations as a novel signal for host location by parasitic nematodes

Nematodes are known to parasitise all major invertebrate groups in soils, and it has been assumed that their host finding relies on attraction to chemical cues. We studied movement of three species of insect-parasitic nematodes, Steinernema carpocapsae, Steinernema feltiae and Heterorhabditis megidis in response to chemical and vibrational cues. All species showed strong, significant taxes towards the vibrations. We also show that in soils, the utility of chemical cues as attractants is substantially reduced by the presence of organic matter.     

Selection responses and quantitative-genetic analysis of preadult performance on two host plants in the bean weevil, Acanthoscelides obtectus

The infectivity and biocontrol potential of entomopathogenic nematodes against two common urban tree leaf beetles (Altica quercetorum and Agelastica alni) pupating in the soil were examined under laboratory and semi‐field conditions. In the laboratory experiments, pre‐pupae and pupae of both insect species were shown to be highly susceptible to nematode infection when challenged in soil pre‐treated with the parasites’ infective juveniles. In general, Heterorhabditis megidis was more effective than Steinernema feltiae. However, significant differences were observed between individual isolates within the latter species. Nematodes developed and reproduced in cadavers of both insect species. A semi‐field experiment studying the biocontrol potential of selected nematode strains, conducted under the canopy of urban trees, confirmed the preliminary laboratory findings and revealed that H. megidis could eliminate most of the insects pupating in the soil, when applied at a relatively low dose of 10⁵ IJs m^?2. The potential of entomopathogenic nematodes as environmentally safe, effective, and economically viable agents for the biological control of tree leaf beetles in urban green areas is discussed.     

Effects of post-application irrigation and substrate moisture on the efficacy of entomopathogenic nematodes against western flower thrips, Frankliniella occidentalis

The efficacy of entomomatogenic nematodes (Steinernema bicornutum Tallosi, Peters and Ehlers and/or Heterorhabditis indica LN2 Poinar, Karunakar and David) against the soil‐dwelling life stages of western flower thrips Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) was assessed under different moisture conditions in a commercial plant‐growing substrate in laboratory experiments. In the first experiment, both nematode species were tested at substrate moisture ranges of 67, 78, 88, or 95% relative moisture content, that were maintained before applying the nematodes at 100 or 400 infective juveniles (IJs) cm^?2. In the second experiment, 10, 25, 50, 100, or 120 ml irrigation water, resulting in relative moisture contents of 72, 81, 90, 99%, or more than the saturation level of the substrate, respectively, was applied to the substrate. Heterorhabditis indica LN2 was applied either in 3 ml water and followed by irrigation, or by suspending the infective juveniles in the water amounts indicated above to apply the nematodes in higher volume. Results indicated that at the higher application rate, initial moisture content did not significantly affect the efficacy of H. indica LN2. On the other hand, increasing moisture content resulted in an improved efficacy of H. indica LN2 and S. bicornutum at lower and higher application rates, respectively. Similar thrips control levels of 44 and 60% at the lower and higher application rate of H. indica LN2, respectively, were obtained at 88% relative moisture content. In the second experiment, higher and statistically similar thrips mortality of 40 and 50% at lower and higher application rates of H. indica LN2, respectively, were obtained when the infective juveniles were applied in a high volume suspension of 100 ml, or when followed by irrigation with 25 ml water, resulting in both cases in 81% relative moisture content. Generally, efficacies of the nematodes for thrips control can be improved by using an appropriate moisture content and/or post‐application irrigation. Thus, the high nematode application rates required for successful F. occidentalis control can be partly attributed to substrate moisture content and/or post‐application irrigation.     

Factors influencing parasitism of adult Japanese beetles,Polillia japonica (Col.: Scarabaeidae) by entomopathogenic nematodes

Several factors that influence the activity of steinernematid and heterorhabditid nematodes against adult Japanese beetles were examined in the laboratory. The effect of nematode concentration on mortality of adult beetles was evaluated using a Petri plate bioassay. The adults were exposed to 1,000 to 10,000 infective stage juveniles (J3) ofSteinernema glaseri per 10 beetles with or without food for 24 hr after which they were held with food for an additional 6 days. The LC50s for males with and without food during exposure were 3,435 and 2,854 J3s/10 adults, respectively. The LC50s for mixtures of males and females with and without food were 5,228 and 1,762 J3s/10 adults respectively. Although mortality occurred during and shortly after exposure, significant additional mortality was observed 1–4 days following exposure. Exposure of males and females with food to 10,000 J3s/10 adults for 6, 12, 18 or 24 hr resulted in 47, 58, 72 and 77% mortality, respectively. Comparative activity ofS. glaseri, S. carpocapsae (All strain),S. feltiae (Biosys experimental cold adapted strain=bibionis),S. feltiae (Biosys experimental strain 27),Heterorhabditis bacteriophora, andHeterorhabditis sp. (Terceiran isolate) was evaluated against adult Japanese beetles using a 24 hr exposure to 8,000 J3s/10 adults. The most virulent species wereS. glaseri, S. feltiae (=bibionis), the Terceiran isolate ofHeterorhabditis andS. carpocapsae producing 55, 44, 36 and 34% mortality respectively. Our results indicate that adult Japanese beetles infected with entomopathogenic nematodes could serve as a mechanism for nematode dispersal.     

中国昆虫病原斯氏和异小杆线虫的研究概况(英语)

昆虫病原斯氏和导小杆线虫作为生物防治因子已受到世界各国的广泛重视,并得到了商品化的发展.自50年代,特别是7O年代末,我国从原捷克斯洛伐克、澳大利亚、美国等地引进了大批昆虫病原斯氏和异小杆线虫.同时也从土壤或自然寄主中分离出许多本国线虫种或品系,并对此类线虫进行了全面的研究,在昆虫病原线虫的种类调查和鉴定、田间大面积应用、安全性、共生细菌、大量繁殖等方面取得了可喜的进展.本文将综述这些方面的研究概况.     

Life Cycle and Reproductive Potential of the Nematode Heterorhabditis bacteriophora Strain HP88

Development of the entomopathogenic nematode Heterorhabditis bacteriophora strain HP88 was studied in vivo with larvae of the greater wax moth, Galleria mellonella, as host and in vitro. At 25 C in vivo, the duration of the life cycle from egg hatch to egg hatch was 96 hours. Juvenile development took 48 hours, with the duration of each juvenile stage ranging from 8 to 12 hours. Under crowded conditions, development proceeded to the infective juvenile (IJ) stage instead of the third juvenile stage (J3). Life-cycle duration and proportion of the various developmental stages in the population were similar in in vitro and in vivo cultures. When in vivo or in vitro development was initiated from the IJ stage, only hermaphrodites developed in the first generation and males appeared only in the second generation. The average (±SD) number of progeny per hermaphrodite was 243 ± 98. The ratio of males to hermaphrodites in the second generation was 1:9.4 ± 6.8.