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1.
BACKGROUND: Greenhouse whiteflies, Trialeurodes vaporariorum (Westwood), are notorious pests that, through the reduction of crop yields and excretion of honeydew, cause significant economic losses for sweet pepper (Capsicum annuum L.) growers. Chemical and biological controls are the two most common forms of whitefly management in greenhouses. Consequently, insecticide resistance and inadequate control have rejuvenated interest in alternative tactics. In the present study, whitefly responses to trap crops (eggplant and squash) and yellow sticky traps were compared in order to identify the most effective traps for dispersing and resident adults. RESULTS: Results indicated that yellow sticky traps were most effective at trapping adult whiteflies. Significantly more dispersing whiteflies were recorded on eggplant than on squash trap crops. None of the traps significantly reduced adult populations on the main crops (peppers) compared with the control. However, yellow sticky traps did significantly reduce oviposition on peppers. CONCLUSIONS: Adult whiteflies were most effectively trapped on yellow sticky traps followed by eggplant trap crops. Further study of whitefly trapping using visual cues may enhance trapping management. Specifically, research combining yellow sticky traps with other control strategies is recommended. Copyright © 2011 Society of Chemical Industry 相似文献
2.
不同颜色色板对梨园昆虫的诱集效应 总被引:2,自引:0,他引:2
为筛选对梨园害虫诱集效果较好的粘虫板,选用黄色、红色、绿色、紫色、蓝色、灰色、白色和黑色8种颜色的粘虫板对梨园内昆虫进行诱集。结果显示,黄色粘虫板的诱集效果最好,诱集害虫种类8科10种,对中国梨木虱和小绿叶蝉的诱集效果较好;其次为绿色粘虫板,诱集昆虫种类7科7种,对中国梨木虱和小绿叶蝉也表现出较好的诱集效果。半翅目昆虫的趋色性较强,诱集数量最多,适合选择色板诱集防治。黄板和绿板对梨园天敌有一定影响,在梨园使用时应适时适量选择性使用。本研究为利用粘虫板在梨园进行害虫防治提供了理论依据。 相似文献
3.
4.
Experiments on the development of a sticky trap monitoring system for the diamondback moth, Plutella xylostella (L.), were carried out in six cabbage fields (two in each of three villages) in North Sulawesi, Indonesia. This region is characterized by small, closely‐situated, fields. Yellow cardboard traps with a sticky upper surface were placed 10 cm below the crop canopy, four traps per field, and were maintained throughout the 1991 growing season. Larvae were sampled weekly in quadrats centred around each trap. One village where continuous cabbage growing occurred had higher P. xylostella populations than the other two villages, where growing is discontinuous. Although the relationship between trap catches and larval populations for individual fields was weak, the relationship between catches in all fields pooled and larval populations 2 weeks later was very strong, suggesting that a region‐wide predictive system would be feasible. An increase in larval numbers as distance from the traps increased further suggests that sticky traps may have potential for use in mass trapping. 相似文献
5.
Guofa Chen Qing‐He Zhang Yanjun Wang Guang‐Tian Liu Xiaoming Zhou Jingfu Niu Fredrik Schlyter 《Pest management science》2010,66(2):213-219
BACKGROUND: Field trapping experiments were carried out to evaluate effective trap characteristics for maximising Ips duplicatus (Sahlberg) catches in pheromone‐baited traps in China. RESULTS: Window‐slot and cross‐barrier traps had significantly higher catches than multiple‐funnel traps. The colour of window‐slot traps showed a significant effect on catches, with dark colours (black and red) being more effective than light colours, especially white and yellow. Window‐slot traps at a 1.5–2.0 m level caught more beetles than those at either ground level (0–0.5 m) or at 3.5–4.0 m. Ips duplicatus can be attracted to pheromone‐baited traps over a distance of > 100 m from the forest edge in an open grassy field. There was a strong diurnal pattern of flight activity, with catches on window‐slot traps occurring during the daytime with one broad peak at mid‐ to late afternoon. The seasonal flight activity of I. duplicatus as monitored by pheromone‐baited window‐slot traps during 2007–2008 indicated that three major flight peaks occurred in early June, late June–early July and late July respectively, suggesting the existence of a potential second generation. CONCLUSION: The optimal trap characteristics will improve the performance of pheromone‐baited traps as a critical monitoring or mass‐trapping tool to combat outbreaks of this pest species. Copyright © 2009 Society of Chemical Industry 相似文献
6.
Abstract Tests were made using coloured sticky traps to determine trap efficacy in catching adult Myndus crudus Van Duzee (Homoptera, Cixiidae) under field conditions. Blue traps caught more M. crudus adults than any of the other colour traps tested. Blue traps caught adults of both sexes during the day and night although significantly more adults were caught during the day. A sampling bias was shown in that blue traps caught significantly more males than expected from the field population. Blue sticky traps were more effective at sampling adult M. crudus populations than previous sampling techniques based on host plant attractiveness and should be considered for use in future sampling. 相似文献
7.
Abstract Biology, ecology and damage potential of the sorghum midge, Contarinia sorghicola Coquillet, were studied at Coimbatore, India. The life cycle of the midge was shorter in summer than winter: Johnson grass, Sorghum halepense and pearl millet, Pennisetum americanum served as alternate hosts for the sorghum midge. Seasonal incidence studies revealed that four peak infestations occurred in crops sown in April, June, August and October. Midge developmental stages were quite active all through the year with no diapause, Peak adult midge attraction to the light trap was recorded at 21.00 hours. However, adult midges were found to be quite active only in the daytime in the field. There was no relationship between adult midge catches from the light trap and the population recorded in the field. Morning relative humidity and wind velocity were negatively associated with the population of midge attracted to the light trap. An increased percentage of midge population was recorded in the light trap during the new moon and second quarter phases of moon. Sticky traps were not efficient in trapping adult midges. One pair of adult midge per earhead caused 16–9% grain damage. 相似文献
8.
K. Varikou V. Alexandrakis V. Gika A. Birouraki Ch. Marnelakis Chr. Sergentani 《Phytoparasitica》2013,41(1):105-111
Population density of adults of Bactrocera oleae (Gmelin) (Diptera: Tephritidae) was obtained from olive trees during a two-year study by means of two different methods, namely, knock down by an insecticide applied as a fog (‘sondage’) and trap captures (of yellow sticky panels and McPhail traps baited with ammonium). First it was concluded that yellow sticky panel traps give a poor representation of the olive fruit fly population density of the olive grove. Yellow panel trap captures were significantly lower than McPhail’s (September) and than the actual population of B. oleae as recorded in olive tree canopy (August of 2008). When only McPhail captures were compared to the olive fruit fly population in the tree canopy, B. oleae captures in McPhail traps represented only a small percentage of the population that was recorded in the olive tree canopy (July and August of 2009). It was estimated that traps captured only 0.5% of the flies present within a radius of 20 m in the studied field (which consists of approximately 25 trees). However, during autumn (September), low trap captures of B. oleae can occur even when the fly population in the field is near zero. 相似文献
9.
John C. Kilgo Mark Vukovich Kyle J. Cox Michael Larsen Thomas T. Mims James E. Garabedian 《Pest management science》2023,79(9):3033-3042
BACKGROUND
Trapping is commonly used as the primary management tool in attempts to reduce invasive wild pigs (Sus scrofa), but traditional trapping techniques are often ineffective. However, recently developed traps permit the capture of entire social groups (sounders) of wild pigs, and the strategy of whole-sounder removal may achieve more effective control. Our objective was to experimentally compare traditional control (TC; primarily traditional trapping, but including hunting with dogs, and opportunistic shooting) and whole-sounder removal (WSR) strategies by assessing density reduction and removal rate after 1 and 2 years of treatment.RESULTS
After 1 year of trapping, average wild pig density on WSR units declined 53% and remained stable after the second year, whereas on TC units, pig density did not differ after trapping, although it declined 33% and remained stable after the second year of trapping. The median removal rate (percentage of uniquely marked pigs present at the beginning of each year that were removed) was 42.5% for WSR units and 0.0% for TC units during 2018 and were 29.6% from WSR units and 5.3% from TC units during 2019.CONCLUSIONS
WSR removal was more effective at reducing wild pig density than TC, but factors such as previous exposure of this population to traditional traps and the lack of barriers to recolonization from surrounding areas may have reduced WSR efficacy. WSR can effectively reduce wild pig density to a greater extent than TC, but managers should recognize the additional time and expense necessary for implementation. Published 2023. This article is a U.S. Government work and is in the public domain in the USA. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. 相似文献10.
为减少实蝇粘虫板对天敌的诱杀作用,完善实蝇粘虫板在果园的使用方法,于2018年和2019年分别在湖南省农业科学院园艺研究所橘园、桃园、梨园悬挂实蝇粘虫板,调查其诱杀的橘小实蝇、其他害虫和天敌数量。结果表明,橘园、梨园和桃园共诱杀到15个种、4个科和9个类群,包括靶标害虫橘小实蝇、其他害虫和天敌。3种果园中粘虫板诱杀的昆虫种、科或类群数量有差异,其中梨园中诱杀的昆虫总数最多,为13 653头,其次是桃园,橘园中诱杀的昆虫总数最少。在橘园、梨园和桃园中,橘小实蝇的相对丰富度分别为5.90%、23.45%和21.73%,最早出现时间均为6月;在橘园中橘小实蝇诱杀量高峰期在8月下旬至10月上旬,下半年天敌诱杀量高峰期略滞后于橘小实蝇的诱杀量高峰期,在梨园和桃园中橘小实蝇诱杀量高峰期主要集中在7月中下旬至10月中旬,橘小实蝇诱杀量高峰期与天敌诱杀量高峰期无明显相关性;3种果园中粘虫板诱杀的主要天敌有瓢虫、食蚜蝇、草蛉、寄生蜂,桃园和梨园中诱杀的草蛉较多,橘园中诱杀的瓢虫和寄生蜂较多。应用实蝇粘虫板防控橘小实蝇时,梨园和桃园应从6月上旬开始悬挂,橘园应从8月上旬开始悬挂,先少量悬挂,根据诱杀橘小实蝇数量,再逐渐增加粘虫板。 相似文献
11.
W. R. Ingram 《国际虫害防治杂志》2013,59(2):118-137
Abstract Barbados once grew large amounts of Sea Island cotton but the accidental introduction of pink bollworm (Pectinophora gossypiella) in the 1920s, falling prices and rising costs led to the collapse of the industry. Falling sugar prices subsequently led to a revival of interest in the crop but pink bollworm still presented a problem and warranted investigation. The synthetic sex pheromone of pink bollworm, gossyplure, was shown to attract far more males than hexalure or virgin females. Sticky traps needed stirring daily and were only able to catch about 50 males a night. Water, with a drop of liquid detergent, proved to be a suitable trapping medium and was cheaper than liquid paraffin although not quite as effective. The best type of trap from materials readily available was one made from a plastic half gallon ice cream container with lid and holes cut around the upper sides. Traps without the attractant caught very few moths. Gossyplure adsorbed onto rubber caps was attractive to pink bollworm males for over 56 days but the half-life appeared to be about 28 days. Best catches were obtained in cotton when the traps were suspended just below the tops of the plants and, within fields, traps at the leeward end caught more than traps elsewhere. Peak catches of males occurred before midnight in a black light trap whereas pheromone traps caught no males before midnight but peaked at 03.00h. A close season during which no cotton is allowed to grow is a recognised means of reducing pink bollworm carryover between crops. This was practised in Barbados but island-wide pheromone trapping showed that moths were caught throughout the close season. This continuous trapping of moths indicated that pink bollworm must be breeding (short-cycle) in order to survive. Trapping and laboratory studies confirmed the presence of long-cycle pink bollworm which entered diapause towards the end of the cotton season as daylength increased. This diapause terminated with shortening days after the new season's rains commenced. The case for a four month close season is discussed. Pheromone trap catches were shown to be very closely correlated with boll damage. Catches of 8–9 moths in a night represented a 10% level of boll damage some ten days later and this is the trapping level at which cotton growers are advised to begin insecticidal treatment. Thorough residue destruction is the key to a good close season and a suitable method was needed for use under Barbadian conditions. The method finally chosen and proved on an estate scale was to cut down the standing cotton with a horizontal-rotary chain slasher, driving across the rows of cotton, the debris was then raked along the rows, stacked and burnt and finally the stumps were ploughed in, again across the rows. The parasite Perisierola nigrifemur is very common in pink bollworm larvae towards the end of the season but too late to be of economic value. Predation of diapausing larvae by the mite Pyemotes ventricosus is very common at the end of the cotton crop and during the close season. Insecticidal application in Sea Island cotton which usually grows very tall (> 1.75m) and rank is best achieved with hand-held, battery-operated, u.l.v. sprayers. Control of pink bollworm can be obtained with carbaryl S formulations applied through these sprayers with the addition of a little water and molasses. Synthetic pyrethroids in u.l.v. formulations are also expected to provide control. 相似文献
12.
茶尺蠖性信息素的田间使用技术及防治效果 总被引:1,自引:0,他引:1
为明确茶尺蠖Ectropis obliqua性信息素的田间使用技术,在田间设置茶尺蠖性信息素诱捕器的5、10和20 m挂放密度处理区及其对照区,并对不同处理区和对照区中诱捕器诱集的茶尺蠖成虫和幼虫数量以及同一挂放密度下距性信息素诱捕器不同距离的茶尺蠖幼虫数量进行调查,确定性信息素诱捕器的最佳挂放间距;在此基础上确定性信息素诱捕器对茶尺蠖的田间防治效果,并利用性信息素诱捕器对茶尺蠖成虫的田间动态进行监测。结果表明:在任何一个挂放密度下,处理区诱捕器诱集的茶尺蠖成虫数量均显著高于对照区诱捕器,但在不同挂放密度的小区之间单个诱捕器诱集的成虫数量差异不显著;当茶尺蠖幼虫重度发生(1 361.57头/m~2)时,10 m间隔挂放1套性信息素诱捕器可显著降低茶尺蠖幼虫的发生数量;当茶尺蠖幼虫轻度发生(38.40头/m~2)时,间距为20 m挂放一套性信息素诱捕器时,茶尺蠖的校正防治效果可达88.44%;茶尺蠖性信息素诱捕器在6月上旬、8月上旬、8月下旬至9月初、9月下旬分别有一个明显的诱捕高峰期,与田间茶尺蠖的发生高峰期基本一致。表明茶尺蠖性信息素诱捕器可作为大量诱捕和虫情监测的手段在茶园中应用。 相似文献
13.
V. Soroker D. Blumberg A. Haberman M. Hamburger-Rishard S. Reneh S. Talebaev L. Anshelevich A. R. Harari 《Phytoparasitica》2005,33(1):97-106
The red palm weevilRhynchophorus ferrugineus (Olivier) (RPW) is the most serious pest of date palms in the Middle East. Weevil infestation was first detected in Israel
in the summer of 1999 in date plantations in the Jordan Valley, on the west bank of the Jordan River and in the northern area
of the Dead Sea. For 2 years following the discovery of the pest, prophylactic insecticide chemical treatments as well as
adult weevil trapping were carried out over 450 ha of date palm plantations. Traps loaded with a commercial aggregation pheromone,
ferrugineol, supplemented with ethyl acetate and a fermenting mixture of dates and sugarcane molasses, were posted in high
trap density (approx. ten traps per ha) in order to monitor weevil infestation and reduce the RPW population by mass trapping.
A significant decrease in number of trapped beetles and infested trees was observed in 2001 and continued in the following
years. No infested trees have been found since 2002, indicating a decrease in RPW population. The sex ratio of trapped adults
during 3 years of study was significantly female-biased (∼2.5:1). Therefore, mass trapping might have played a significant
role in the suppression of RPW populations in date plantations.
http://www.phytoparasitica.org posting Dec. 19, 2004. 相似文献
14.
Fredrik Schlyter Qing-He Zhang Guang-Tian Liu Lan-Zhu Ji 《Integrated Pest Management Reviews》2001,6(3-4):185-196
The experimental testing of the hypothesis of population reduction by mass trapping with the establishment of treatment/control areas is a logistic problem on landscape scale. We suggest a possible test based on time-series analysis of tree-mortality data. Our example is helped by: an island effect, a 20-year tree-mortality record, and a very competitive synthetic aggregation pheromone. The successful development of synthetic pheromone (ipsdienol and E-myrcenol) dispensers, and the dose-response of wick-dispensers is briefly described. In the 2000 ha of spruce (Picea mongolica) forest reserve at Baiyinaobao, surrounded by grassland, 80 traps were employed for 3 years, catching 0.5–1.7 million beetles/year. In spite of intensive conventional management since 1982 (17 years), the long-term tree mortality had been oscillating around 600. During the first three years of mass trapping, tree mortality was down to 118, 100, and 88, respectively. Neither natural population cycles nor weather conditions could explain the 3-year mortality drop. Cycles did not drive the drop, as auto-correlation function (ACF) and partial ACF plots do not show any clear periodicity, only a weak 5-year cycle is visible. Weather did not explain the drop, as the 3 years of mass trapping had average rainfall and higher than average temperatures. Climate data show negative correlations of tree mortality and temperatures on year basis and a 20-year trend of increased monthly averages, especially for July temperature. The increased temperature (global warming) will increase stress on trees, but mass trapping may have counterbalanced this new threat to the forest. 相似文献
15.
The effects of the insecticide lambda-cyhalothrin (Karate) on non-target arthropods in winter wheat were studied throughout two successive seasons in 1998 and 1999. The study particularly focussed on the crop in the growing season after insecticide application (also winter wheat) for detection of potential long-term effects and for determination of the suitability of different sampling methods.The investigations were based on the assumption that arthropod immigration from surrounding areas is limited in large fields. For this reason a simple approach seemed to be feasible. Two plots of equal size (10 ha, adjusted to each other) were defined in a 100 ha field and designated control and treatment plots. Ten sampling points were established on each plot. The following monitoring methods were utilised: visual counting, sweep netting and pitfall trapping. In the first year of investigation, countings and catches were carried out 2 days prior to insecticide application and 2, 16, 30 and 44 days after application. In the next year, they were carried out 365 days and 384 days after insecticide application in the successive crop of winter wheat.At the time of the first sampling prior to insecticide application, the two plots showed significant differences with respect to arthropod density or activity, particularly in visual counting and to a minor degree to sweep netting and pitfall trapping. Lower densities or activities were observed in the plot reserved for treatment. Measures for mathematical equalisation of the results of population densities before pesticide treatment should be considered.After insecticide application, the densities or activities of non-target arthropods decreased, particularly in visual counting and sweep netting. After one year, these effects disappeared to a large extent. Several groups of arthropods reached even higher levels in the treated plot than in the untreated one. The pitfall traps revealed weak activity-decreasing effects in carabids and spiders in the treated plot, but the opposite tendency for staphylinids. Hence, it seems that the conditions in a large field are less homogeneous, and that smaller scale conditions can support processes of recovery in non-target populations. 相似文献
16.
The effects of the insecticide lambda-cyhalothrin (Karate) on non-target arthropods in winter wheat were studied throughout two successive seasons in 1998 and 1999. The study particularly focussed on the crop in the growing season after insecticide application (also winter wheat) for detection of potential long-term effects and for determination of the suitability of different sampling methods.The investigations were based on the assumption that arthropod immigration from surrounding areas is limited in large fields. For this reason a simple approach seemed to be feasible. Two plots of equal size (10 ha, adjusted to each other) were defined in a 100 ha field and designated control and treatment plots. Ten sampling points were established on each plot. The following monitoring methods were utilised: visual counting, sweep netting and pitfall trapping. In the first year of investigation, countings and catches were carried out 2 days prior to insecticide application and 2, 16, 30 and 44 days after application. In the next year, they were carried out 365 days and 384 days after insecticide application in the successive crop of winter wheat.At the time of the first sampling prior to insecticide application, the two plots showed significant differences with respect to arthropod density or activity, particularly in visual counting and to a minor degree to sweep netting and pitfall trapping. Lower densities or activities were observed in the plot reserved for treatment. Measures for mathematical equalisation of the results of population densities before pesticide treatment should be considered.After insecticide application, the densities or activities of non-target arthropods decreased, particularly in visual counting and sweep netting. After one year, these effects disappeared to a large extent. Several groups of arthropods reached even higher levels in the treated plot than in the untreated one. The pitfall traps revealed weak activity-decreasing effects in carabids and spiders in the treated plot, but the opposite tendency for staphylinids. Hence, it seems that the conditions in a large field are less homogeneous, and that smaller scale conditions can support processes of recovery in non-target populations. 相似文献
17.
The citrus thrips,Scirtothrips aurantii Faure (Thysanoptera: Thripidae), is a pest of mango in South Africa. The aim of the study was to monitor the different stages
ofS. aurantii in mango orchards throughout the year. Populations ofS. aurantii were monitored using different methods,i.e., yellow sticky traps, dispersal/emergence traps, counts on fruit and in flowers. Eggs and emergence holes on the new leaves
were recorded. The number of adults increased at the end of flowering (September) and remained at high levels until fruiting
(November). Low numbers were present from May to August. Much higher population levels were present during 1995/96 than during
the 1996/97 season. There was higher infestation present on the cultivar ‘Sensation’ than on ‘Zill’.S. aurantii was present on the fruit for only a short period (less than 10 weeks) during the season and the population was maintained
on flush that was present throughout the year. 相似文献
18.
V. Stejskal 《Anzeiger für Sch?dlingskunde》1998,71(1):17-21
The efficacy and species specifity of two commercial sticky traps (Ekolex-V and Trappit-Lo Line) were compared in field tests
in a multistorey restaurant complex in CZ. Traps were tested under high population density ofblatta orientalis L. (BO) andBlattella germanica (L.) (BG). We found species specific differences in trapping efficiency between the two traps. There was a high correlation
between visually estimated counts and actual catches of BG and BO in Trappit. The correlation in Ekolex catches was lower
(BG: r=0.86, BO: r=0.58). Nymph/adult ratio increased with increasing population density in both Trappit and Ekolex traps.
Although both types of traps reflected differences in population density, we found Trappit more efficient than Ekolex especially
forBlatta orientalis. Estimated Trappit/Ekolex ratio of BG catches decreased with increasing population density showing Trappit more sensitive.
Trapping sensitivity at low cockroach density was proposed as a standard criterion for evaluation of cockroach trap efficiency. 相似文献
19.
Carrot fly (Psila rosae) control in Switzerland appears not to have been a major problem during the years 1985–2000. However, reports on crop losses due to increased damage, and yield lots not complying with raised quality standards, have become more frequent in recent years. Carrot fly control has clearly become more difficult because the fly’s population dynamics have changed (3 generations instead of 2) and due to changes in the cropping system. Furthermore, some insecticides with high efficacy, such as soil insecticides, are no longer available. Seed treatments with various insecticides were tested as potential alternatives to no longer approved soil insecticides, but these were not efficient enough when infestation pressure was high. Spraying, mainly with pyrethroids against the flies landing on carrot leaves, proved to be successful in some plots if the flight of adult flies was monitored with sticky traps and the timing of the insecticide treatments was adequate. However, in other cases treatment efficacy was low, presumably due to less precise timing of the applications. In conclusion, current experience on supervised chemical control indicates that strategies can be adapted, but Swiss agricultural research stations are not yet able to provide the growers with validated recommendations. 相似文献
20.
The ecology of the purple scale Lepidosaphes beckii (Newman) (Hemiptera: Diaspididae) was studied on citrus, in the area of Kalamata (Messinia ‐ Peloponnese) from May 2009 to May 2011. Observations on infested citrus branches were conducted to study the phenology of the scale. Yellow sticky traps were hung in infested trees and examined to monitor the flights of male L. beckii as well as the flights of adults of parasitoids and predators of this pest. Lepidosaphes beckii mainly infested the leaves and fruits and to a lesser extent the shoots and stems. During the period of the study all developmental stages of L. beckii were found. Sticky transparent band traps were also placed on shoots and were examined to monitor the fluctuation in the population of crawlers. From the crawlers caught in the traps three population peaks were recorded in June, August and October. Natural enemies of the scale consisted of the parasitoids Aphytis lepidosaphes Compère and Encarsia sp. (Hymenoptera: Aphelinidae), which together parasitized up to 32% of L. beckii as well as the predators Chilocorus bipustulatus (L.) and Rhyzobius lophanthae Blaisdell (Coleoptera: Coccinellidae). 相似文献