登革热的传播模式、蚊媒及防控

在自然界存在两种登革热传播模式:人-伊蚊-人循环,蚊媒是埃及伊蚊与白纹伊蚊。猴-伊蚊-猴循环,蚊媒是白纹伊蚊与白雪伊蚊群。我国学者首先于1975年从无输入性病例的我国西南边疆山林地区的白纹伊蚊体内分离到登革热病毒4型,白纹伊蚊承担两种传播模式的中介。本研究介绍了埃及伊蚊与白纹伊蚊的生态习性与全球及在中国的分布。认为在我国厦门地区迄今为止还未曾发现过埃及伊蚊的存在,也简介了沃尔巴克体新技术防控蚊媒研究的进展。     

蚊媒介在登革病毒感染中的研究进展

近年来,登革病毒感染引起人类疾病的发病率在全球范围呈逐年上升趋势,已成为世界上分布广、发病率高、危害较大的一种虫媒病毒性疾病。研究虫媒病毒与蚊媒介之间的关系,对预防传染病具有重要意义。本文就近年来这方面的研究进展作一综述。     

中国蚊传疾病及其媒介蚊类研究进展

蚊子通过吸食脊椎动物的血液获取产卵必须的营养从而繁殖后代。蚊子在吸食人血的过程中,可以传播多种严重的人类疾病,对人类健康危害极大。随着全球化的迅速发展以及全球性气候变化加剧,以登革病毒和寨卡病毒为代表的虫媒病毒分布也呈现全球化。我国地理跨度大,本土的病原和媒介丰富,并且随着我国人口增长、城市化的扩大、国际贸易频繁、国际旅游增多等因素,导致输入性的蚊传疾病也越来越多,带来的公共卫生问题也越来越受到重视。本文对我国重要的蚊传疾病（登革热、日本脑炎、疟疾、黄热病、西尼罗河热、寨卡热、基孔肯尼亚热、辛徳毕斯病等）及其媒介蚊类、分布与特性等进行系统介绍,以期为我国蚊及蚊传疾病的系统研究和综合防控提供理论基础。     

昆虫天敌抗药性研究进展

本文综述了国内外抗药性昆虫天敌的种类、抗性机制、抗性筛选、抗性遗传及抗性发展假说等方面的研究进展.     

天敌昆虫抗药性研究进展

天敌昆虫抗药性研究在协调害虫化学防治和生物防治中有着重要的理论和现实意义,其研究的最终目的在于更好地推进抗性天敌在害虫综合治理(IPM)中的应用。抗药性天敌昆虫具有潜在的巨大价值。鉴于此,本文系统地综述了天敌昆虫抗药性最新研究进展,包括杀虫剂对天敌昆虫的影响、天敌昆虫抗药性现状、抗药性机理和限制天敌昆虫抗药性发展因素等。文章最后还对抗药性天敌昆虫的应用前景进行了展望。     

白纹伊蚊和埃及伊蚊经卵传递登革病毒的研究

白纹伊蚊和埃及伊蚊通过吸食病毒液或叮吸有病毒血症的小鸡血后,能感染登革１－４型病毒,并能在蚊体内增殖,对感染雌蚊了１和子２代幼虫,雌性或雄性成虫４５５９只,分１０１批进行了病毒检测,白纹伊蚊子１代的批阳性率;登革１型为１０％（１／１０）２型为２２．２２％（２／９）３型为３３．３３％（４／１２）,４型为２８．９５％（１１／３８）登革１～４型的最低子代感染率依次主国０．２０％,０．７１％,０．７０％和     

蚊虫传播登革热病毒的媒介效能研究进展

<正> 登革热是由蚊虫传播的人类虫媒病毒性疾病。虽然在本世纪初人们已知登革热是由蚊虫传播,但直至1960年才从自然界捕获的蚊虫分离到病毒。近年对该病蚊虫媒介的研究有较大的进展,为探讨对该病传播与防制提供科学依据,现将有关该病蚊虫媒介及自然传播等近10     

昆虫抗药性分子基础的研究进展

昆虫抗药性分子基础的研究进展涂纳新，陈红梅，林国芳，陈巧云（中国科学院上海昆虫研究所上海２０００２５）昆虫抗药性是昆虫在不利的环境条件下求得生存的一种进化现象。抗药性的现象反映了昆虫基因的突变性进化。半个多世纪以来，昆虫抗药性已成为害虫防治中甚为严重...     

昆虫的抗药性

随着杀虫剂的使用,越来越多的昆虫对杀虫剂产生了抗性。昆虫的抗药性已经对人类产生了严重的影响。从定义、发展简况、遗传起源、机理、检测方法及治理几个方面加以介绍,对昆虫的抗药性进行了简单的探讨。     

Field evaluation of a lethal ovitrap against dengue vectors in Brazil

Field evaluation of a "lethal ovitrap" (LO) to control dengue vector Aedes mosquitoes (Diptera: Culicidae), was undertaken in two Brazilian municipalities, Areia Branca and Nilopolis, in the State of Rio de Janeiro. The LO is designed to kill Aedes via an insecticide-treated ovistrip (impregnated with deltamethrin). In each municipality, the intervention was applied to a group of 30 houses (10 LOs/house) and compared to 30 houses without LOs in the same neighbourhood. Five LOs were put outside and five LOs inside each treated house. Three methods of monitoring Aedes density were employed: (i) percentage of containers positive for larvae and/or pupae; (ii) total pupae/house; (iii) total adult females/house collected by aspirator indoors. Weekly mosquito surveys began during the month before LO placement, by sampling from different groups of 10 houses/week for 3 weeks pre-intervention (i.e. 30 houses/month) and for 3 months post-intervention in both treated and untreated areas. Prior to LO placement at the end of February 2001, Aedes aegypti (L) densities were similar among houses scheduled for LO treatment and comparison (untreated control) at each municipality. Very few Ae. albopictus (Skuse) were found and this species was excluded from the assessment. Post-intervention densities of Ae. aegypti were significantly reduced for most comparators (P < 0.01), as shown by fewer positive containers (4-5 vs. 10-18) and pupae/house (0.3-0.7 vs. 8-10) at LO-treated vs. untreated houses, 3 months post-treatment at both municipalities. Numbers of adult Ae. aegypti females indoors were consistently reduced in LO-treated houses at Areia Branca (3.6 vs. 6.8/house 3 months post-intervention) but not at Niloplis (approximately 3/house, attributed to immigration). These results demonstrate sustained impact of LOs on dengue vector population densities in housing conditions of Brazilian municipalities.     

Lessons of Aedes aegypti control in Thailand

Abstract. The incidence of dengue haemorrhagic fever (DHF) in Thailand has increased cyclically since the first recognized outbreak in 1958. Without an effective vaccine against dengue, and considering the clinical difficulty of treating DHF cases, vector control is needed to prevent dengue transmission. Since the establishment of the WHO Aedes Research Unit in 1964, continued since 1973 as the WHO Collaborating Centre at the Department of Medical Research in Bangkok, much operational research has been carried out in Thailand on the bionomics and control of dengue vectors: Aedes aegypti and Ae.albopictus. This review shows that, as in most other countries, dengue vector control programmes in Thailand make little use of the procedures arising from research, nor have they reduced the upward trend of dengue or prevented DHF outbreaks. Implications of the reluctance to use results of operational research on vector control are considered and remedial suggestions made.     

Pyrethroid resistance in Aedes aegypti and Aedes albopictus from Port‐au‐Prince,Haiti

In Port‐au‐Prince, Haiti, the status of insecticide resistance has not recently been evaluated for Aedes aegypti (L) and Aedes albopictus (Skuse) populations. No prophylactics exist for dengue, so prevention is only through vector control methods. An earthquake occurred in Haiti on January 12, 2010, with a magnitude of 7.0 Mw that devastated the area. Dengue became a major concern for the humanitarian relief workers that entered the country. Bottle bioassays were conducted in the field on adult mosquitoes reared from larvae collected from the grounds of the U.S. Embassy and from an adjacent neighborhood in eastern Port‐au‐Prince, Haiti. At the CDC, Fort Collins, CO, bioassays, molecular, and biochemical assays were performed on mosquitoes reared from field‐collected eggs. A small percentage of the population was able to survive the diagnostic dose in bioassays run in Haiti. Mosquitoes tested at the CDC demonstrated no phenotypic resistance. A variety of factors could be responsible for the discrepancies between the field and lab data, but temperature and larval nutrition are probably most important. Knowledge of localized resistance and underlying mechanisms helps in making rational decisions in selection of appropriate and effective insecticides in the event of a dengue outbreak.     

Geographic and ecological distribution of the dengue and chikungunya virus vectors Aedes aegypti and Aedes albopictus in three major Cameroonian towns

Aedes albopictus (Diptera: Culicidae) was first reported in Central Africa in 2000, together with the indigenous mosquito species Aedes aegypti (Diptera: Culicidae). Because Ae. albopictus can also transmit arboviruses, its introduction is a public health concern. We undertook a comparative study in three Cameroonian towns (Sahelian domain: Garoua; equatorial domain: Douala and Yaoundé) in order to document infestation by the two species and their ecological preferences. High and variable levels of pre‐imaginal Ae. aegypti and Ae. albopictus infestation were detected. Only Ae. aegypti was encountered in Garoua, whereas both species were found in Douala and Yaoundé, albeit with significant differences in their relative prevalence. Peridomestic water containers were the most strongly colonized and productive larval habitats for both species. No major differences in types of larval habitat were found, but Ae. albopictus preferentially bred in containers containing plant debris or surrounded by vegetation, whereas Ae. aegypti tended to breed in containers located in environments with a high density of buildings. These findings may have important implications for vector control strategies.     

烟粉虱抗药性的研究进展

烟粉虱是一种世界性的重要害虫,目前已对有机磷、拟除虫菊酯和氨基甲酸酯等许多常规杀虫剂产生高水平抗性,在一些地区烟粉虱对昆虫生长调节剂和烟碱类杀虫剂的抗性也是十分普遍.文中综述了世界范围内烟粉虱的抗药性现状、抗药性机理、以及抗药性与生物型的关系,并介绍了美国和以色列较为成功的烟粉虱抗药性治理计划.     

Prevalence of dengue fever in Saudi Arabia: Jeddah as a case study

Dengue fever is widespread in tropical and subtropical regions, including Saudi Arabia. Aedes aegypti (Diptera: Culicidae) transmits dengue and many other diseases, including chikungunya and Zika. This study provides an overview of dengue fever in Saudi Arabia since the first case was recorded in the early 1990s. In addition, it focuses on the epidemiological situation in Jeddah as a case study to study the spatial distribution of dengue cases using Geographic Information Systems (GIS) techniques over 5 years, from 2019 to 2023. The first recorded case in Saudi Arabia was in October 1993; however, daily data indicates that 2023 is a major epidemic year. The number of infections has reached 4099 so far during the first half of the year, which indicates a significant increase compared to previous years. GIS analysis has unveiled the locations of high infection rates across multiple municipalities, commonly called hotspots, and identified areas where dengue cases remain relatively low. The Inverse Distance Weighted (IDW) tool was used to determine the severity of infection in different areas of Jeddah. The study concluded that factors such as temperature, rainfall, and septic tanks in areas that lack a proper sanitation network are the most contributing factors to the spread of disease vectors and, thus, dengue. Winter rainfall creates conducive breeding environments for dengue mosquito vectors, increasing transmission rates. On the other hand, summer heat accelerates the mosquito life cycle and enhances viral replication, heightening the risk of dengue transmission.     

Pathogenicity of entomopathogenic fungus,Metarhizium anisopliae MET-GRA4 isolate on dengue vectors,Aedes albopictus and Aedes aegypti mosquito larvae (Diptera: Culicidae)

Considering the rapid transmission of the dengue virus, substantial efforts need to be conducted to ward-off the epidemics of dengue viruses. The control effort is depending on chemical insecticides and had aroused undesirable conflicts of insecticide resistance. Here, we study the entomopathogenic fungus, Metarhizium anisopliae as a promising new biological control agent for vector control. The pathogenicity effects of Metarhizium anisopliae against field and laboratory strains of Aedes albopictus and Aedes aegypti larvae were tested using the larvicidal bioassay technique. The results demonstrate that the treatments using M. anisopliae isolate MET-GRA4 were highly effective and able to kill 100% of both Ae. albopictus and Ae. aegypti mosquito larvae at a conidia concentration of 1 × 10?/ml within 7 days of the treatment period. The fungus displayed high larvicidal activity against laboratory and field strain of Ae. aegypti larvae with LC₅₀ values (9.6 × 10³/ml, 1.3 × 10³/ml) and LC₉₅ values (1.2 × 10?/ml, 5.5 × 10⁵/ml) respectively. For Ae. albopictus, LC₅₀ values for laboratory and field strains were (1.7 × 10⁴/ml, 2.7 × 10⁴/ml) and the LC₉₅ values were (2.1 × 10?/ml, 7.0 × 10⁵/ml) respectively. Interestingly, the susceptibility of field strain towards M. anisopliae was higher as compared to the laboratory strain Aedes larvae. In which, the causative agents of all the dead larvae were verified by the virulence of M. anisopliae and caused morphological deformities on larval body. The findings from this study identify this isolate could be an effective potential biocontrol agent for vector mosquitoes in Malaysia.     

Epidemiology and vector efficiency during a dengue fever outbreak in Cixi,Zhejiang Province,China

An emigrant worker returning from Southeast Asia triggered the outbreak of a DF epidemic in Zhejiang province, China, in October, 2004. Eighty‐three cases, mainly young and middle‐aged people between 20 and 50 (78.3%), were reported in the area of Cixi. There were no obvious occupational patterns. The majority of cases were female, with a sex ratio of 1:1.86 (m:f). The dengue virus (DENV) strains from the epidemic area were isolated and identified as DENV‐1, which belongs to Asian strain 1. According to the epidemiological investigation, the incidence of DF had no relationship to temperature, humidity, or precipitation, and the Breteau index of larvae showed a clear relationship only with the House Index and Container Index. Recent dengue problems in the town have been associated with the complex social factors and hygienic conditions for endemic villagers and immigrant workers. Some hygienic measures should be taken by the local government to reduce the risk of mosquito‐borne disease. These measures should aim to eliminate the breeding sites of the vector Aedes albopictus in indoor and outdoor containers filled with rainwater and thus reducing the risk of DF transmission.