北京和湖南烟粉虱生物型及其抗药性监测

烟粉虱是蔬菜等园艺作物上为害严重、最难以防治的害虫之一,生产上防治该虫主要还是依靠化学药剂。本研究鉴定了北京、湖南地区设施蔬菜上烟粉虱的生物型,并监测了其对6种不同杀虫剂的抗药性。结果表明,北京、湖南地区蔬菜烟粉虱生物型分别是Q型和B型。两地烟粉虱对阿维菌素尚处于敏感状态;对烯啶虫胺及其他烟碱类杀虫剂噻虫嗪和吡虫啉的抗药性达中抗到高抗水平,湖南地区抗性水平比北京地区更高,抗性倍数最高达到71.58倍;传统杀虫剂毒死蜱和联苯菊酯对湖南、北京两地烟粉虱的毒杀活性差。     

Biotype and status of insecticide resistance of whitefly Bemisia tabaci Gennadius (Hemiptera: Aleyrodidae) in Alhassa oasis,Eastern Province of Saudi Arabia.

The tobacco whitefly, Bemisia tabaci, is one of the major insects infesting vegetable plants. This pest is well known in Alhassa oasis, Saudi Arabia; which is historically agricultural land cultivated with date palm trees and different vegetables. A molecular key based on the sequence of the mitochondrial cytochrome oxidase gene CO1 was used for the identification of strains of the tobacco whitefly Bemisia tabaci collected from farms located in four areas of the Alhassa oasis; Northern, Southern, Eastern and Western. Only one biotype (B‐biotype) of B. tabaci was reported in the oasis. Resistance of B. tabaci was tested against eight insecticides, the results showed moderate to low levels of resistance to the tested insecticides. However, the resistance to neonicotinoid insecticides was low and established at 1.3 fold to both Imidacloprid and Acetamiprid. In addition, medium levels of resistance were detected to the insect growth regulator Pyriproxyfen (30 fold), and the pyrethroid Deltamethrin (30 fold), Bifenthrin (24 fold) and Cypermethrin (13 fold). A medium level of resistance was also detected to the carbamate insecticide Carbosulfan and was 40 fold of the laboratory strains. A low level of resistance to the organophosphorus insecticide was detected to Phenthoate (11 fold). However, these results reflect that the farmers were less dependent on the use of insecticides to control B. tabaci in the oasis and they may be implementing other environmentally sound techniques to keep the pest below the damage threshold.     

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.     

烟粉虱田间种群的抗药性

采用成虫浸叶生测法分别测定了福建省福州、漳州、龙岩、三明、南平、宁德等地烟粉虱田间种群对13种杀虫剂的抗性.结果表明,福建省6个烟粉虱田间种群对氯氟氰菊酯、甲氰菊酯、氯氰菊酯、溴氰菊酯、乙酰甲胺磷、毒死蜱产生了高水平抗性,抗性倍数分别达838.38～2460.52、244.64～834.29、116.02～266.35、81.75～124.18、425.18～875.56和54.53～78.43倍,对乐果产生了中等水平抗性,抗性倍数达14.16～17.66倍,对敌敌畏产生了中等偏低水平的抗性,抗性倍数达6.23～11.25倍,对灭多威的抗性水平较低,抗性倍数仅为4.07～5.66倍.漳州种群已对烟碱类杀虫剂产生了中等水平抗性,对吡虫啉、啶虫脒和噻虫嗪的抗性倍数分别达23.08、10.32和24.60倍,而其它地区烟粉虱种群对吡虫啉、啶虫脒和噻虫嗪的抗性水平较低,甚至不明显,抗性倍数分别仅为1.31～3.28、1.82～7.23和1.39～5.45倍.福建省各地区烟粉虱种群对阿维菌素尚未产生明显的抗药性.     

Insecticide resistance in Bemisia tabaci from Cyprus

Abstract A comprehensive study on the Bemisia tabaci (biotype B) resistance to neonicotinoid insecticides imidacloprid, acetamiprid and thiamethoxam, and pyrethroid bifenthrin was conducted in Cyprus. The resistance level to eight field‐collected B. tabaci populations was investigated. The activities of enzymes involved in metabolic detoxification and the frequencies of pyrethroid and organophosphates target site resistance mutations were determined. Moderate to high levels of resistance were detected for imidacloprid (resistance factor [RF] 77–392) and thiamethoxam (RF 50–164) while low resistance levels were observed for acetamiprid (RF 7–12). Uniform responses by the Cypriot whiteflies could be observed against all neonicotinoid insecticides. No cross‐resistance between the neonicotinoids was detected as well as no association with the activity of the P450 microsomal oxidases. Only imidacloprid resistance correlated with carboxylesterase activity. Low to extremely high resistance was observed for insecticide bifenthrin (RF 49–1 243) which was associated with the frequency of the resistant allele in the sodium channel gene but not with the activity of the detoxification enzymes. Finally, the F331W mutation in the acetylcholinesterase enzyme ace1 gene was fixed in all B. tabaci populations from Cyprus.     

Genetic identification of members of the Bemisia tabaci cryptic species complex from South Africa reveals native and introduced haplotypes

The whitefly Bemisia tabaci cryptic species complex contains some important agricultural pest and virus vectors. Members of the complex have become serious pests in South Africa (SA) because of their feeding habit and their ability to transmit begomovirus species. Despite their economic importance, studies on the biology and distribution of B. tabaci in SA are limited. To this end, a survey was made to investigate the diversity and distribution of B. tabaci cryptic species in eight geographical locations (provinces) in SA, between 2002 and 2009, using the mitochondrial cytochrome oxidase I (mtCOI) sequences. Phylogenetic analysis revealed the presence of members from two endemic sub‐Saharan Africa (SSAF) subclades coexisting with two introduced putative species. The SSAF‐1 subclade includes cassava host‐adapted B. tabaci populations, whereas the whiteflies collected from cassava and non‐cassava hosts formed a distinct subclade, referred to as SSAF‐5, and represent a new subclade among previously recognized southern Africa clades. Two introduced cryptic species, belonging to the Mediterranean and Middle East–Asia minor 1 clades, were identified and include the B and Q types. The B type showed the widest distribution, being present in five of the eight provinces explored in SA, infesting several host plants and predominating over the indigenous haplotypes. This is the first report of the occurrence of the exotic Q type in SA alongside the more widely distributed B type. Furthermore, mtCOI PCR‐RFLP was developed for the SA context to allow rapid discrimination between the B, Q and SSAF putative species. The capacity to manage pests and disease effectively relies on knowledge of the identity of the agents causing the damage. Therefore, this study contributes to the understanding of South African B. tabaci species diversity, information needed for the development of knowledge‐based disease management practices.     

Evidence for adaptive divergence of thermal responses among Bemisia tabaci populations from tropical Colombia following a recent invasion

There is an increasing evidence that populations of ectotherms can diverge genetically in response to different climatic conditions, both within their native range and (in the case of invasive species) in their new range. Here, we test for such divergence in invasive whitefly Bemisia tabaci populations in tropical Colombia, by considering heritable variation within and between populations in survival and fecundity under temperature stress, and by comparing population differences with patterns established from putatively neutral microsatellite markers. We detected significant differences among populations linked to mean temperature (for survival) and temperature variation (for fecundity) in local environments. A Q_ST ? F_ST analysis indicated that phenotypic divergence was often larger than neutral expectations (Q_ST > F_ST). Particularly, for survival after a sublethal heat shock, this divergence remained linked to the local mean temperature after controlling for neutral divergence. These findings point to rapid adaptation in invasive whitefly likely to contribute to its success as a pest species. Ongoing evolutionary divergence also provides challenges in predicting the likely impact of Bemisia in invaded regions.     

At least two indigenous species of the Bemisia tabaci complex are present in Brazil

Bemisia tabaci is one of the most important global agricultural insect pests, being a vector of emerging plant viruses such as begomoviruses and criniviruses that cause serious problems in many countries. Although knowledge of the genetic diversity of B. tabaci populations is important for controlling this pest and understanding viral epidemics, limited information is available on this pest in Brazil. A survey was conducted in different locations of São Paulo and Mato Grosso states, and the phylogenetic relationships of B. tabaci individuals from 43 populations sampled from different hosts were analysed based on partial mitochondrial cytochrome oxidase 1 gene (mtCOI) sequences. According to the recently proposed classification of the B. tabaci complex, which employs the 3.5% mtCOI sequence divergence threshold for species demarcation, most of the specimens collected were found to belong to the Middle East‐Asia Minor 1 species, which includes the invasive populations of the commonly known B biotype, within the Africa/Middle East/Asia Minor high‐level group. Three specimens collected from Solanun gilo and Ipomoea sp. were grouped together and could be classified in the New World species that includes the commonly known A biotype. However, six specimens collected from Euphorbia heterophylla, Xanthium cavanillesii and Glycine maxima could not be classified into any of the 28 previously proposed species, although according to the 11% mtCOI sequence divergence threshold, they belong to the New World high‐level group. These specimens were classified into a new recently proposed species named New World 2 that includes populations from Argentina. Middle East‐Asia Minor 1, New World and New World 2 were differentiated by RFLP analysis of the mtCOI gene using TaqI enzyme. Taq I analysis in silico also differentiates these from Mediterranean species, thus making this method a convenient tool to determine population dynamics, especially critical for monitoring the presence of this exotic pest in Brazil.     

B和Q型烟粉虱种群竞争与抗药性的关系

在室内用棉花植株饲养情况下,对采自浙江杭州的烟粉虱Bemisia tabaci(Gennadius)B型和Q型混合种群的生物型组成以及抗药性水平进行了多代的监测。在室内饲养的F0代,两种生物型比例相当;在F10代,Q型已经完全被B型所取代。与F0代相比,F10代烟粉虱种群对吡虫啉、阿维菌素和氟虫腈的抗性水平明显下降,而对α-氯氰聚酯的抗性保持稳定。该研究表明:在没有杀虫剂选择压力的室内条件下,B型比Q型更具生存优势。然而在烟碱类杀虫剂广泛使用的田间条件下,烟粉虱Q型因比B型对烟碱类杀虫剂具有更强的抗性而获得竞争优势。     

利用RAPD-PCR方法鉴定我国烟粉虱的生物型

收集了国内北京、山东、广东和海南等14个省市23个地区的蔬菜、园林花卉和杂草上的23个烟粉虱Bemisia tabaci (Gennadius)种群,根据报道合成了一个随机引物H₁₆,运用RAPD-PCR技术对所收集的烟粉虱种群进行了生物型鉴定。结果表明在23个烟粉虱种群中,有17个种群同属于危害严重的“B生物型”,这些种群主要分布在交通便利的城市或沿海地区,而非B生物型则主要分布在交通不便的山区或内陆。对烟粉虱B生物型的分布与寄主植物和环境条件进行了初步的探讨。     

烟粉虱对拟除虫菊酯杀虫剂的抗性机理

通过增效剂生物测定、生化分析以及钠离子通道基因ⅡS4-6 cDNA片段的RT-PCR扩增,探讨了烟粉虱Bemisia tabaci（Gennadius）对拟除虫菊酯杀虫剂的抗性机理。结果表明：对于采自田间的6个烟粉虱抗性品系,磷酸三苯酯（TPP）和胡椒基丁醚（PBO）对氯氰菊酯、溴氰菊酯、氯氟氰菊酯和甲氰菊酯均有显著的增效作用,而DEM对4种拟除虫菊酯杀虫剂均无明显的增效作用。烟粉虱抗性品系的α-NA羧酸酯酶和β-NA羧酸酯酶活性分别是敏感品系的2.16～2.65倍和1.22～1.41倍,抗性品系的谷胱甘肽S转移酶活性与敏感品系没有差异,表明羧酸酯酶和多功能氧化酶在烟粉虱对拟除虫菊酯类杀虫剂的抗性中具有重要的作用,而谷胱甘肽S转移酶与抗性无关。通过RT-PCR克隆了6个烟粉虱田间抗性品系的钠离子通道结构域ⅡS4-6 cDNA片段的序列（420 bp）,发现与敏感品系相比,有2个位点发生突变,分别为L925I突变和I917V突变,L925I突变在所有6个烟粉虱田间抗性种群中均有发生,该位点突变已被证实与拟除虫菊酯类杀虫剂密切相关,表明神经不敏感性可能是烟粉虱对拟除虫菊酯产生抗性的另一个重要因子。     

Esterase activity in whiteflies (Bemisia tabaci) in Israel in relation to insecticide resistance

A cotton-field population of the whitefly Bemisia tabaci (Genn.) was 3–5 times more resistant to an organophosphorous insecticide than two control populations. Esterase activity levels in individuals from the resistant population were considerable lower than in control individuals. The distribution of activity values of large numbers of adults from the cotton field was strongly skewed to the right, while the control populations had symmetrical distributions. This may reflect selection against individuals with high EST activity. Control populations are almost fixed for a fast esterase allozyme, which preferentially cleaves -Naphthyl Acetate. In field populations the alternative slow allozyme, which prefers the -form of the substrate, is dominant. Low EST activity may be used as a marker for resistant individuals in Israeli B. tabaci.

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Résumé La population de l'aleurode, B. tabaci Genn., d'un champ de coton s'est montrée 3 à 5 fois plus résistante aux organophosphorés que 2 populations témoins. Le niveau d'activité des estérases était considérablement plus faible chez les individus de la population résistante que chez les individus des populations témoins. La distribution des activités estérasiques de nombreux adultes du champ de conton étaient biaisée vers la droite, alors qu'elle était symétrique pour les populations témoins, ce qui révèle une sélection à l'encontre des individus ayant une forte activité estérasique. Cette hypothèse est étayée par l'affinité pour le substrat et des preuves électrophorétiques. Une faible activité estérasique peut être utilisée comme marqueur des individus résistants de B. tabaci en Israël.

     

福建省烟粉虱田间种群抗药性发展及其影响因素

采用成虫浸叶生测法对福建省不同地区烟粉虱田间种群的抗药性发展进行监测.结果表明： 福建各地烟粉虱田间种群对氯氟氰菊酯、甲氰菊酯、毒死蜱仍保持较高水平抗性,对灭多威的抗性水平较低,对阿维菌素未产生明显的抗药性;烟粉虱田间种群对烟碱类杀虫剂的抗性发展极为迅速,其中漳州种群对吡虫啉、噻虫嗪已由2005年的中等水平抗性（抗性倍数分别为23和25倍）发展为2009年的高水平抗性（抗性倍数分别为103和228倍）,其他地区种群对吡虫啉、噻虫嗪也由2005年的低水平抗性（抗性倍数分别为1.5～3.3倍和1.7～5.5倍）发展为2009年的中等水平抗性（抗性倍数分别为23～33倍和29～49倍）.采用mtDNA CO I分子标记技术对福建省不同地区和寄主植物上采集的8个烟粉虱种群的生物型进行鉴定发现,采自漳州变叶木上的烟粉虱种群为本地土著种(未知生物型),其他7个采自大田蔬菜作物的烟粉虱种群均为B型.寄主植物和温度对烟粉虱种群的药剂敏感性影响有限,吡虫啉等烟碱类杀虫剂高强度使用是B型烟粉虱田间种群对该类型药剂迅速形成抗性的重要原因.     

Effects of Tomato chlorosis virus on the performance of its key vector,Bemisia tabaci,in China

Tomato chlorosis virus (ToCV), which is a newly emerged and rapidly spreading plant virus in China, has seriously reduced tomato production and quality over the past several years. In this study, the effect of ToCV on the demography of the whitefly, Bemisia tabaci biotype Q (Hemiptera: Aleyrodidae), fed on infected and healthy tomato plants was evaluated using the age‐stage, two‐sex life table. When reared on ToCV‐infected tomato plants, the fecundity, length of oviposition period and female adult longevity of B. tabaci biotype Q decreased significantly, while the pre‐adult duration significantly increased compared to controls reared on healthy tomatoes. Consequently, the intrinsic rate of increase (r) and finite of increase (λ) of B. tabaci biotype Q on ToCV‐infected tomato plants significantly decreased compared to those on healthy tomatoes. Population projection predicted that a population of B. tabaci biotype Q fed on ToCV‐infected tomatoes increases slower than on healthy plants. These findings demonstrated that ToCV infection decreased the performance of B. tabaci biotype Q on tomato plants.     

A multiple PCR‐LDR assay for identification of two invasive cryptic species of whiteflies Bemisia tabaci

The MEAM1 and MED species of the cryptic species complex Bemisia tabaci are important invasive pests that cause tremendous crop losses worldwide. A rapid and highly reliable molecular technique is necessary to identify these species because they are morphologically indistinguishable. Therefore, a multiple polymerase chain reaction coupled with a ligase detection reaction (PCR‐LDR) that was based on polymorphisms in the mitochondrial cytochrome oxidase I (mtCOI) gene of B. tabaci was developed to distinguish the two cryptic species. An assessment of the method indicated that PCR‐LDR provided high specificity and sensitivity in discriminating MEAM1 (SHB) and MED (SHQ) whiteflies. In field tests, PCR‐LDR genotyping was performed in one 96‐well plate to identify 93 individuals collected from 8 districts in the suburbs of Shanghai. Complete concordance was observed between PCR‐LDR and sequencing methods. The method was used to confirm that MEAM1 and MED were found in two districts, but only the MED was found in the other six districts. PCR‐LDR, which is a transplantable platform, provides an alternative method for species identification of B. tabaci at low cost.     

B型烟粉虱田间种群对毒死蜱和敌敌畏抗性的生化机制

通过增效剂生物测定和生化分析,探讨了采自福建省的B型烟粉虱Bemisia tabaci 6个田间种群对毒死蜱和敌敌畏抗性的生化机制。结果表明：与敏感品系SUD-S相比,6个田间种群对毒死蜱和敌敌畏分别具有54.53～78.43倍和6.23～11.25倍的抗性。TPP、PBO和DEM对毒死蜱的增效比分别为3.61～24.94倍、1.14～1.76倍和1.04倍,对敌敌畏的增效比分别为1.67～2.64倍、1.33～1.65倍和1.09倍,表明羧酸酯酶的解毒代谢在烟粉虱对毒死蜱的抗性中起着重要作用。烟粉虱抗性种群乙酰胆碱酯酶的K_m值是敏感品系的1.83～4.0倍,V _max值是敏感品系的0.34～0.62倍; 敏感品系乙酰胆碱酯酶的活性在底物浓度大于1.0 mmol/L时受抑制,抗性种群乙酰胆碱酯酶的活性在底物浓度大于16 mmol/L时受抑制;抗性种群乙酰胆碱酯酶对敌敌畏和毒死蜱的敏感度分别比敏感品系低119.92～161.33倍和10.11～14.24倍,表明烟粉虱田间抗性种群乙酰胆碱酯酶可能已发生了变构,由变构引起的乙酰胆碱酯酶不敏感是烟粉虱田间种群对毒死蜱和敌敌畏产生抗性的重要原因。结果提示,乙酰胆碱酯酶不敏感性和羧酸酯酶的解毒代谢在烟粉虱对毒死蜱的抗性中均起着重要作用,而乙酰胆碱酯酶不敏感性在对敌敌畏的抗性中起重要的作用,多功能氧化酶和谷胱甘肽S转移酶在烟粉虱对毒死蜱和敌敌畏抗性中所起的作用不大。     

A new record for Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) species complex of Turkey

In this study, species complex of Turkish Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) populations was determined by PCR‐based DNA analysis. According to phylogenetic analyses, the B. tabaci samples have been identified within three generic groups. A major part of the samples belonged to two invasive species, either Middle East–Asia Minor 1 (MEAM1) or Mediterranean (MED). In addition to these two invasive species, several samples collected from greenhouses and cotton fields have been found to be related to Middle East–Asia Minor 2 (MEAM2), which is the first record of Turkish B. tabaci species complex.     

Abundance of Bemisia tabaci Gennadius (Hemiptera: Aleyrodidae) and its parasitoids on vegetables and cassava plants in Burkina Faso (West Africa)

The whitefly Bemisia tabaci is a pest of many agricultural and ornamental crops worldwide and particularly in Africa. It is a complex of cryptic species, which is extremely polyphagous with hundreds of host plants identified around the world. Previous surveys in western Africa indicated the presence of two biotypes of the invasive MED species (MED‐Q1 and MED‐Q3) living in sympatry with the African species SSA and ASL. This situation constitutes one of the rare cases of local coexistence of various genetic entities within the B. tabaci complex. In order to study the dynamics of the distribution and abundance of genetic entities within this community and to identify potential factors that could contribute to coexistence, we sampled B. tabaci populations in Burkina Faso in 2015 and 2016 on various plants, and also their parasitoids. All four genetic entities were still recorded, indicating no exclusion of local species by the MED species. While B. tabaci individuals were found on 55 plant species belonging to eighteen (18) families showing the high polyphagy of this pest, some species/biotypes exhibited higher specificity. Two parasitoid species (Eretmocerus mundus and Encarsia vandrieschei) were also recorded with E. mundus being predominant in most localities and on most plants. Our data indicated that whitefly abundance, diversity, and rate of parasitism varied according to areas, plants, and years, but that parasitism rate was globally highly correlated with whitefly abundance suggesting density dependence. Our results also suggest dynamic variation in the local diversity of B. tabaci species/biotypes from 1 year to the other, specifically with MED‐Q1 and ASL species. This work provides relevant information on the nature of plant–B. tabaci‐parasitoid interactions in West Africa and identifies that coexistence might be stabilized by niche differentiation for some genetic entities. However, MED‐Q1 and ASL show extensive niche overlap, which could ultimately lead to competitive exclusion.