小菜蛾对阿维菌素的抗性遗传方式 和相对适合度研究

就小菜蛾Plutella xylostella对阿维菌素的抗性遗传方式和抗性品系的相对适合度进行了研究。室内选育的阿维菌素抗性品系与同源的敏感品系杂交、F₁代自交、F₁代与亲本回交,结果表明：杂交后的显性度（D）分别为-0.64和-0.52,说明小菜蛾对阿维菌素的抗性是常染色体、不完全隐性遗传;χ²检验证实,可能是多基因控制的抗性遗传。杂交F₁代乙酰胆碱酯酶（AChE）、羧酸酯酶（CarE）和谷胱甘肽转移酶（GST）活性比抗性亲本有所降低,F2代及回交后代三种酶的活性继续降低。种群适合度研究表明,抗性品系相对于敏感品系有0.84的适合度。     

不同抗性水平棉铃虫地理种群的基因交流对抗性演化的影响

采自我国长江流域棉区的棉铃虫Helicoverpa armigera(Hubner)四川简阳种群、湖北武穴种群、湖南衡阳种群、江苏南京种群和浙江杭州种群对辛硫磷、三氟氯氰菊酯和硫丹的抗性水平分别为8.05～38.80、2.86～290.00和5.87～19.83倍。抗性较高的简阳种群和较低的杭州种群正、反交F₁代对上述3种农药的抗性为13.16和16.69倍、10.43和19.00倍及12.42和10.21倍,抗性遗传的显性系数为-0.2220、-0.2147和0.0700,表明对辛硫磷、三氟氯氰菊酯抗性呈不完全隐性方式遗传,而硫丹抗性则为半隐性遗传。P1自交F2代对辛硫磷、三氟氯氰菊酯和硫丹的抗性水平分别为17.66、7.57和9.03倍,F₁代对杭州种群回交F₂代的抗性倍数分别为8.79、3.Oo和6.61。其结果,高抗区和低抗区棉铃虫种群的基因流动将导致对三种农药抗性水平明显下降。     

棉铃虫对溴氰菊酯的抗性遗传及其生化机理

用经室内诱导的抗溴氰菊酯棉铃虫Helicoverpa armigera(Hubner)种群与室内饲养多年的敏感种群进行杂交,研究了棉铃虫对溴氰菊酯的抗性遗传规律。结果表明：杂交后的显性度(D)分别为0.34和0.35,F₁与亲本回交的期望值与实际值在比值是1 ∶1时差异显著,回交平台在35%～45%,棉铃虫对溴氰菊酯的抗性可能是一个以上主基因的不完全显性遗传。生化分析表明,抗性种群的。-乙酸萘酯酶活力与敏感种群的差异显著,这可能是棉铃虫对溴氰菊酯产生高抗药性的重要解毒酶之一。     

褐飞虱对噻嗪酮抗性的遗传分析

害虫的抗性遗传特性是影响其抗性发展的一个重要因子,也是制订抗性治理对策的重要依据。我们采用稻茎浸渍法测定了褐飞虱Nilaparvatalugens (Stal)抗性和敏感亲本、正反交（F₁、F₁₂、F'₂）及回交（BC）后代3龄若虫对噻嗪酮的剂量反应数据,研究了褐飞虱对噻嗪酮的抗性遗传特性。结果表明: 正反交后代的显性度分别为-0.3153（F₁）和-0.376 3（F'₁）,表明抗性遗传为常染色体的不完全隐性;将自交及回交后代的剂量反应数据进行单个主基因假设的卡方(χ²)检验,其卡方值分别为42.11（F₂）、5.44 （F'₂）及93.57（BC）,均大于χ^２0.05= 15.51(df=8),表明其抗性是多基因控制的。还讨论了褐飞虱对噻嗪酮的抗性治理策略。     

尼氏钝绥螨抗亚胺硫磷品系的筛选及遗传分析

尼氏钝绥螨Amblyseius nicholsi Ehara et Lee是桔全爪螨Panonychus citri(McGregor)的有效天敌之一.为了筛选抗有机磷农药品系, 经实验室内用亚胺硫磷33次处理后, 抗性提高18.9倍, LC₅₀从最初的52.5ppm提高到995ppm, 为大田常用浓度的两倍.S(敏感型)与R(抗性型)的LD-P线近于平行, 表明两者已成为纯系.正交与反交之F₁代雌性个体的LD—P线介于S与R之间略偏向R方, F₁显性度(D)大于0而小于1, 说明抗性为半显性.F₁(杂合子)与敏感亲本的回交结果, 其LD—P线在50%.死亡率处出现一平坡, SR(杂合子)与SS(敏感个体)的分配比例接近于1:1的理论值.以上结果说明尼氏钝绥螨对亚胺硫磷的抗性为半显性的单基因所控制.正、反交F₁代雄性个体的抗性检测结果表明, F₁代的雄性个体具有其遗传性来自母系的特征.尼氏钝绥螨抗亚胺硫磷品系对辛硫磷、水胺硫磷、乐果、敌敌畏、敌百虫等有机磷农药具有一定的交互抗性, 抗性分别提高28.5、8.5、5.4、3.8和2.9倍.     

我国新疆和湖南棉铃虫种群的遗传学研究

采自湖南衡阳(HY)和新疆哈密(HM)的棉铃虫Helicoverpa armigera(Hubner)种群被室内杂交和回交,杂交F₁代和回交F₂代雌成虫的产卵量、卵孵化率和产卵时间等繁殖力参数均无明显的变化。在22℃下,HM、HY、HM♀×HY♂、HY♀×HM♂和(HY♀×HM♂)×HY♂后代蛹滞育的临界光周期分别为13h 35 min,11 h,11 h 45 min,11 h 43min和11 h9min。在一15℃下,HM、HY、HM♀×HY♂、HY♀×HM♂、HY♀×(HY♀×HM♂)♂和(HY♀×HM♂)♀×HM♂后代滞育蛹的致死中时间(LT”)分别是159.7h、34.27h、100.65 h、116.75h、90.78h和135.58h,亲本F₁代显性度D(HM♀×HY♂)和D(HY♀XHM♂)分别为0.3998和0.5926。遗传分析表明棉铃虫滞育蛹的抗寒性由多个不完全显性的基因控制。     

镶嵌式防治对抗性演化影响的论证

为了评估镶嵌式防冶对抗性演化的影响,我们以淡色库蚊(Culex pipiens pallens)作为模型昆虫,用抗马拉硫磷(单因子)品系(RM)和抗氰戊菊酯(多因子)品系(RF)构成抗性个体频率均为0.1的一个“什成群体”(M品系),然后在F₁代分成三个亚品系。Rmf亚品系用马拉硫磷和氰戊菊酯作镶嵌式模拟处理,并与单用马拉硫磷(Rm)和氰戊菊酯(Rf)逐代处理的亚品系作比较。处理10代后,Rm和Rmf对马拉硫磷的抗性分别是M晶系的266.4和6.1倍,而Rf和Rmf在处理5代后,对氰戊菊酯;山抗性均已达243.3倍。漠拟结果表明：(1)以杀虫饥理不同的杀虫剂进行镶嵌式防冶,在一定的条件下能延缓抗性的发展;(2)对单因子遗传,内马拉硫磷特别有效,而对多因子遗传的氰戊菊酯效果不佳。此外,还讨论了抗性治理的策略。     

淡色库蚊红眼(r)突变的遗传

在淡色库蚊(Culex pipiens pallens Coq.)中,分离出红眼(r)突变型。其眼睛的颜色,从幼虫,蛹到成虫表现了完全地外显和一致。正常黑眼(+)和红眼(r)杂交,不论正交或反交,F₁(子一代)个体全部为黑眼(+)(表1③④)。F₁的个体互交,F₂(子二代)则按黑眼(+):红眼(r)=3∶1分离(表1⑤⑥及表2的正交和反交项)。正交与反交的F₁个体,分别与红眼(r)本的雌、雄个体回交,其黑眼(+)与红眼(r)都按1∶1进行分离(表1⑦⑧⑨及表2回交栏三项)。实验证明,黑眼(+)对红眼(r)为显性,而红眼(r)则为隐性。它们完全符合一对孟德尔显、隐性关系基因的遗传规律。从F₂分离出来的红眼(r)个体,不管是来自F₁的互交,还是正交与反交的F₁雄蚊个体与红眼(r)亲本雌蚊个体的回交,它们的表现是:凡正交,红眼(r)个体都是雄的(表1⑤⑧);凡反交,红眼(r)个体都是雌的(表1⑥⑦)。唯有正交与反交的F₁雌蚊个体,当与亲本红眼(r)雄蚊个体回交时,其F₂的红眼(r)个体雌、雄都有,且红眼(r)雌:红眼(r)雄呈1∶1的比例(表1⑨),这主要是由红眼(r)雄蚊具有两类配子所遗成。上述现象说明,红限?是一种性连锁的突变。但由于出现一定比例的交换(表1⑤⑥⑦⑧),因此是属于不完全的性连锁。     

烟剂对储粮害虫控制的应用研究

针对仓库上部害虫难于消灭的问题,本项目组研制了速灭威、残杀威、氯氰菊酯和敌百虫农药的烟剂,测定了4种烟剂对储粮害虫谷蠹、玉米象的杀虫活性。结果表明：烟剂点燃后产生大量白色烟云,均匀分散。烟剂的燃点大于180℃,当助剂中燃料(统糠)和氧化剂(硝酸铵)的质量比为3∶〖KG-*2〗1时,配制的烟剂燃烧稳定无明火。5%速灭威-敌百虫、25%残杀威-氯氰菊酯在用量为5 g/m3时对玉米象及其抗性品系(磷化氢抗性,下同)、谷蠹及其抗性品系30 min的校正死亡率均在90%以上;粮仓应用5%速灭威-敌百虫、2.5%残杀威-氯氰菊酯烟剂用量在60 g/m3时密闭72 h对玉米象及其抗性品系、谷蠹及其抗性品系校正死亡率均在90%以上,用量为45 g/m3时对玉米象及其抗性品系校正死亡率均在90%以上。该烟剂储存稳定,安全可靠,具有良好的应用前景。     

淡色库蚊对敌百虫抗性的研究——水解酶同敌百虫抗性关系

本文利用离体水解酶测定和聚丙烯酰胺圆盘电泳技术研究了淡色库蚊(Culex pipiens pallensCop.)对敌百虫抗性和水解酶的关系。实验结果表明:(1)抗性品系的羧酸酯酶活力远比敏感的大,并随着对敌百虫抗性水平的升降而增减。(2)酯酶同功酶谱表明,抗性品系有一染色强度很深的特征性羧酸酯酶带E₅,该带在抗性和敏感品系的杂交子代F₁中也发现,但强度不如抗性品系,这同F₁代的抗性水平下降相平行。(3)无论胆碱酯酶或是磷酸酯酶活力,在二品系中未见到明显差异。抗性和敏感品系的胆碱酯酶对敌百虫和敌敌畏的敏感度相似。     

Genetics of resistance to phosphine in Rhyzopertha dominica (Coleoptera: Bostrichidae)

The inheritance of resistance to phosphine was studied in two strains of the lesser grain borer, Rhyzopertha dominica (F.), labeled 'Weak-R' and 'Strong-R'. These strains were purified versions of field-selected populations collected in Queensland, Australia. Weak-R and Strong-R were, respectively, 23.4 times (20-h exposure) and 600 times (48-h exposure) resistant to phosphine compared with a reference susceptible strain (S-strain). Each -R strain was crossed with the S-strain and the response to phosphine was measured in their respective F1, F2, and F1-backcross (F1-BC) progenies. Data from testing of reciprocal F1 progeny indicated that resistance in Weak-R was autosomal and incompletely recessive with a degree of dominance -0.96. Modified chi-square analysis and contingency analysis of the observed response to phosphine of F1-BC and F2 progenies rejected the hypothesis of single gene inheritance of resistance. Analysis of the response of the F1, F2, and F1-BC progeny from the Strong-R x S-strain cross also rejected the null hypothesis for single gene resistance. Resistance in the Strong-R strain was autosomal and incompletely recessive with a degree of dominance of -0.64. The Weak-R and Strong-R strains were then crossed. Analysis ofthe F1 and F2 progenies of this reciprocal cross revealed that the strong resistance phenotype was coded by a combination of the genes already present in the Weak-R genotype plus an extra major, incompletely recessive gene. There was also evidence of a minor dominant gene present in approximately 5% of Strong-R individuals.     

Phosphine resistance in Tribolium castaneum and Rhyzopertha dominica from stored wheat in Oklahoma

Phosphine gas, or hydrogen phosphide (PH3), is the most common insecticide applied to durable stored products worldwide and is routinely used in the United States for treatment of bulk-stored cereal grains and other durable stored products. Research from the late 1980s revealed low frequencies of resistance to various residual grain protectant insecticides and to phosphine in grain insect species collected in Oklahoma. The present work, which used the same previously established discriminating dose bioassays for phosphine toxicity as in the earlier study, evaluated adults of nine different populations of red flour beetle, Tribolium castaneum (Herbst), and five populations of lesser grain borer, Rhyzopertha dominica (F.) collected from different geographic locations in Oklahoma. One additional population for each species was a laboratory susceptible strain. Discriminating dose assays determined eight out of the nine T. castaneum populations, and all five populations of R. dominica, contained phosphine-resistant individuals, and highest resistance frequencies were 94 and 98%, respectively. Dose-response bioassays and logit analyses determined that LC99 values were approximately 3 ppm for susceptible and 377 ppm for resistant T. castaneum, and approximately 2 ppm for susceptible and 3,430 ppm for resistant R. dominica. The most resistant T. castaneum population was 119-fold more resistant than the susceptible strain and the most resistant R. dominica population was over 1,500-fold more resistant. Results suggest a substantial increase in phosphine resistance in these major stored-wheat pests in the past 21 yr, and these levels of resistance to phosphine approach those reported for other stored-grain pest species in other countries.     

Inheritance of resistance to the Cry1Ab Bacillus thuringiensis toxin in Ostrinia nubilalis (Lepidoptera: Crambidae)

Laboratory selection with Cry1Ab, the predominant Bacillus thuringiensis (Bt) toxin in transgenic corn, Zea mays L., produced >1000-fold resistance in two laboratory strains of European corn borer, Ostrinia nubilalis (Hübner). We tested the offspring of various crosses to determine the mode of inheritance of resistance to Cry1Ab. Patterns of inheritance of resistance were similar in the two resistant strains. The progeny of reciprocal F1 crosses (resistant male x susceptible female and vice versa) responded alike in bioassays, indicating autosomal inheritance. The median lethal concentrations (LC50 values) of F1 were intermediate between the resistant and susceptible parents, indicating approximately additive inheritance. However, the dominance of resistance increased as the concentration of Cry1Ab decreased. Analysis of progeny from backcrosses (F1 x susceptible strain) suggests that resistance was controlled by more than one locus. In particular, the fit of observed to expected mortality improved as the number of putative loci increased from 1 to 10. The polygenic nature of resistance in these two laboratory strains suggests that major genes for resistance to Cry1Ab were not common in the founding populations of O. nubilalis. A low initial frequency of major genes for Cry1Ab resistance might be an important factor in delaying evolution of resistance to Bt corn in this pest.     

Postharvest resistance in hard spring and winter wheat varieties of the northern Great Plains to the lesser grain borer (Coleoptera: Bostrichidae)

Wheat (Triticum aestivum L.) varietal resistance to the lesser grain borer, Rhyzopertha dominica (F), was evaluated in hard spring and winter wheat produced 1997, 1998 (Bozeman, Montana). We tested the hypothesis that six Montana-grown spring wheat varieties, 'Ernest', 'Scholar', 'Hi-Line', 'McNeal', 'Newana', and 'Amidon', were equally and strongly resistant to R. dominica at low moisture contents (9-10%). Mortality/Feeding damage occurred in all varieties. In most assays, Ernest had significantly greater feeding damage from R. dominica than other varieties, usually not significantly different from the susceptible control. Mean adult mortality was significantly greater in McNeal (93%) and Hi-Line (92%) than in Ernest (34%) and Montana-grown, soft white spring wheat (Penawawa), the susceptible control (36%). In 9 wk, twice as many adult progeny were produced on Ernest than on McNeal, Hi-Line, or Scholar. We also compared three Montana-grown winter wheat varieties for resistance to R. dominica attack at low moisture contents (9-10%). Significantly more mortality after 6 wk was associated with all winter wheat varieties than the susceptible control. In 'Nuwest', 'Rocky', and 'Vanguard', significantly fewer progeny were produced than in the susceptible control; these varieties appeared more resistant. 'Tiber' and 'Neeley', in contrast, appeared more susceptible than other winter wheat varieties evaluated. Susceptibility decreased significantly with a 1.2% decrease in moisture content. Percentage of total protein was positively correlated with percentage of sound kernels and negatively with total progeny (r2 = -0.69). Kernel hardness was positively correlated with percentage of sound kernels, but negatively correlated with total progeny (r2 = -0.87) and dry weight loss.     

西花蓟马对多杀菌素的抗性汰选和遗传方式

在室内进行了西花蓟马Frankliniella occidentalis(Pergande)种群对多杀菌素的抗性筛选和抗性遗传方式分析。经过2年多的汰选,抗性水平相比较初始种群提高了30倍,与同时测定的敏感品系相比抗性达到80.8倍。抗性遗传方式分析结果表明,正、反交后代显性度分别为0.51和0.43,二者差异不显著,说明西花蓟马对多杀菌素的抗性为常染色体、不完全显性遗传;剂量对数死亡机率值曲线分析结果显示回交后代在死亡率50%处,自交后代在死亡率25%和75%处未出现明显平坡,回交和自交后代实测值卡方检验进一步证实抗性为多基因控制。     

Inheritance and Characterization of Strong Resistance to Phosphine in Sitophilus oryzae (L.)

Sitophilus oryzae (Linnaeus) is a major pest of stored grain across Southeast Asia and is of increasing concern in other regions due to the advent of strong resistance to phosphine, the fumigant used to protect stored grain from pest insects. We investigated the inheritance of genes controlling resistance to phosphine in a strongly resistant S. oryzae strain (NNSO7525) collected in Australia and find that the trait is autosomally inherited and incompletely recessive with a degree of dominance of -0.66. The strongly resistant strain has an LC50 52 times greater than a susceptible reference strain (LS2) and 9 times greater than a weakly resistant strain (QSO335). Analysis of F2 and backcross progeny indicates that two or more genes are responsible for strong resistance, and that one of these genes, designated So_rph1, not only contributes to strong resistance, but is also responsible for the weak resistance phenotype of strain QSO335. These results demonstrate that the genetic mechanism of phosphine resistance in S. oryzae is similar to that of other stored product insect pests. A unique observation is that a subset of the progeny of an F1 backcross generation are more strongly resistant to phosphine than the parental strongly resistant strain, which may be caused by multiple alleles of one of the resistance genes.     

Genetics of pink bollworm resistance to Bacillus thuringiensis toxin Cry1Ac

Laboratory selection increased resistance of pink bollworm (Pectinophora gossypiella) to the Bacillus thuringiensis toxin Cry1Ac. Three selections with Cry1Ac in artificial diet increased resistance from a low level to >100-fold relative to a susceptible strain. We used artificial diet bioassays to test F1 hybrid progeny from reciprocal crosses between resistant and susceptible strains. The similarity between F1 progeny from the two reciprocal crosses indicates autosomal inheritance of resistance. The dominance of resistance to Cry1Ac depended on the concentration. Resistance was codominant at a low concentration of Cry1Ac, partially recessive at an intermediate concentration, and completely recessive at a high concentration. Comparison of the artificial diet results with previously reported results from greenhouse bioassays shows that the high concentration of Cry1Ac in bolls of transgenic cotton is essential for achieving functionally recessive inheritance of resistance.     

Inheritance of resistance to flumethrin in the Mexican Aldama strain of the cattle tick Boophilus microplus (Acari: Ixodidae)

The objective of this study was to evaluate the inheritance mode of resistance to flumethrin in the Mexican Aldama Boophilus microplus strain. Two Mexican strains were used, the Chiapas susceptible (SS), and the Aldama flumethrin-resistant from Tamaulipas. Six steers weighing ca. 250 kg were randomly assigned for each of six crosses: the susceptible (SS), resistant (RR), and the F1 (RS, SR) reciprocal crosses and F2 (RS x RS and SR x SR). The reciprocal crosses were made to evaluate maternal and sex linkage effects. Bioassays tested resistant and susceptible larvae along with their hybrid F1 and F2 progeny against a series of concentrations of flumethrin (0, 0.0075, 0.00150, 0.00300, 0.00600 and 0.01200 microg/g). To test the single-gene hypothesis of resistance, a nonparametric line-cross test proposed by Collins was used. The bioassay data were subjected to probit analysis and the resistance factor and effective dominance obtained. Results of this study indicated that inheritance for flumethrin resistance in the Aldama strain was autosomal and controlled for more than one gene. The F1 and F2 larvae had similar lower resistant factor (RF 2.8-4.5) while the resistant Aldama strain was 21-fold higher (RF 81.8) than the mean of the F1 and F2. The extent of flumethrin resistance in the Aldama B. microplus strain depended upon the concentration of the pesticide used. Resistance was almost dominant at the lowest dose while almost completely recessive at the highest dose. Maternal effects were shown for egg-mass. These results shown here indicate more than one gene basis of flumethrin resistance in B. microplus ticks are present. Therefore it is necessary to locate and understand the major loci for elucidate the mechanism of resistance and improve the ability to track and delay the evolution of resistance.     

The rph2 gene is responsible for high level resistance to phosphine in independent field strains of Rhyzopertha dominica

The lesser grain borer Rhyzopertha dominica (F.) is one of the most destructive insect pests of stored grain. This pest has been controlled successfully by fumigation with phosphine for the last several decades, though strong resistance to phosphine in many countries has raised concern about the long term usefulness of this control method. Previous genetic analysis of strongly resistant (SR) R. dominica from three widely geographically dispersed regions of Australia, Queensland (SR(QLD)), New South Wales (SR(NSW)) and South Australia (SR(SA)), revealed a resistance allele in the rph1 gene in all three strains. The present study confirms that the rph1 gene contributes to resistance in a fourth strongly resistant strain, SR2(QLD), also from Queensland. The previously described rph2 gene, which interacts synergistically with rph1 gene, confers strong resistance on SR(QLD) and SR(NSW). We now provide strong circumstantial evidence that weak alleles of rph2, together with rph1, contribute to the strong resistance phenotypes of SR(SA) and SR2(QLD). To test the notion that rph1 and rph2 are solely responsible for the strong resistance phenotype of all resistant R. dominica, we created a strain derived by hybridising the four strongly resistant lines. Following repeated selection for survival at extreme rates of phosphine exposure, we found only slightly enhanced resistance. This suggests that a single sequence of genetic changes was responsible for the development of resistance in these insects.     

Genetic basis of resistances to chlorfenapyr and etoxazole in the two-spotted spider mite (Acari: Tetranychidae)

We studied the genetic basis of resistance to two new acaricides, chlorfenapyr and etoxazole, which have different chemical structures and modes of action in the two-spotted spider mite, Tetranychus urticae Koch. The resistance ratios calculated from the LC50s of resistant and susceptible strains were 483 for chlorfenapyr and >100,000 for etoxazole. Mortality caused by the two acaricides in F1 progeny from reciprocal crosses between the resistant and susceptible strains indicated that the modes of inheritance of resistance to chlorfenapyr and etoxazole were completely dominant and completely recessive, respectively. Mortality in F2 progeny indicated that for both acaricides, the resistance was under monogenic control. Repeated backcross experiments indicated a linkage relationship among the two acaricide resistances and malate dehydrogenase, although phosphoglucoisomerase was not linked with them. The recombination ratio between the resistances was 14.8%. From this result, we suggest that heavy spraying of the two acaricides will lead to apparent cross-resistance as a consequence of crossing over; the two resistance genes are so close to each other that it would be difficult to segregate them once they came together on the same chromosome.