小菜蛾对杀虫双和杀螟丹抗性的现实遗传力

利用室内选育119代的小菜蛾Plutella xylostella抗性品系,分析了小菜蛾对杀虫双和杀螟丹抗药性的现实遗传力,并对遗传力和杀虫剂的杀死率对抗性发展速率的影响进行了预测,结果表明,室内继代药剂选择119代后,小菜蛾对杀虫双和杀螟丹抗性的遗传力很低（h^2=0.03)。因此,小菜蛾对这两种药剂产生更高水平抗性的潜力不大,在选择的前半段（F30）,杀虫双和杀螟丹的抗性遗传力（分别为0.14t 0.11)高于选择后半段（F80)的遗传力（均为0.05),选择前、后半段的选择差数没有明显差别。即使在室内选择条件下,假如斜率=2.0(δp=0.5),h^2=0.05,群体中70%个体致死时要获得10倍的抗性,约需34代,田间条件下,由于等位基因频率的变化、环境变异等因素的影响,抗性增长10倍则需要更长的时间,因此田间条件下小菜蛾在短期内不易对杀虫双和杀螟丹产生高水平抗性。     

二化螟对杀螟硫磷产生抗性的机理

本文就二化螟Ckilo suppressalis Walker对杀螟硫磷抗性发生的机理进行了较为全面的研究。活体增效作用研究表明,脱叶磷(DEF)和氧化胡椒基丁醚(PBO)对抗性种群可分别增效1.3和34.8倍。这表明了多功能氧化酶(MFO)活性增强,而似乎与水解酶的活性无关。对寓体解毒酶的进一步研究表明,抗性和敏感种群的非特异性酯酶活力无明显差异,但羧酸酮酶(CarE,加入10^-4mol/L的毒扁豆碱)和MFO的活力在抗性种群中有所增高。R种群幼虫CarE活力分别是s的2.42和2.92倍(以a-和β-乙酸萘酯为底物);R种群幼虫MFO的O-脱甲基作用的活力为s幼虫的1.43倍(以对硝基茴香醚为底物);R幼虫乙酰胆碱酯酶(AChE)对乙酰胆碱的活力是s的1.3倍,两者相差不大。但从米氏常数K_m)和最大反应速度(V_max)看,R幼虫是s幼虫的1.9和1.6倍;以对氧磷为抑制剂的R幼虫150是s幼虫的2倍。这些表明了R和s的AChE是不同的。研究结果还表明,二化螟对杀螟硫磷抗性的机理至少包括：(1)CarE活性的增高;(2)MFO的O-脱甲基活力的增高和(3)AChE敏感性的降低等。     

二化螟对杀螟硫磷产生抗性的机理

本文就二化螟Ckilo suppressalis Walker对杀螟硫磷抗性发生的机理进行了较为全面的研究。活体增效作用研究表明,脱叶磷(DEF)和氧化胡椒基丁醚(PBO)对抗性种群可分别增效1.3和34.8倍。这表明了多功能氧化酶(MFO)活性增强,而似乎与水解酶的活性无关。对寓体解毒酶的进一步研究表明,抗性和敏感种群的非特异性酯酶活力无明显差异,但羧酸酮酶(CarE,加入10^-4mol/L的毒扁豆碱)和MFO的活力在抗性种群中有所增高。R种群幼虫CarE活力分别是s的2.42和2.92倍(以a-和β-乙酸萘酯为底物);R种群幼虫MFO的O-脱甲基作用的活力为s幼虫的1.43倍(以对硝基茴香醚为底物);R幼虫乙酰胆碱酯酶(AChE)对乙酰胆碱的活力是s的1.3倍,两者相差不大。但从米氏常数K_m)和最大反应速度(V_max)看,R幼虫是s幼虫的1.9和1.6倍;以对氧磷为抑制剂的R幼虫150是s幼虫的2倍。这些表明了R和s的AChE是不同的。研究结果还表明,二化螟对杀螟硫磷抗性的机理至少包括：(1)CarE活性的增高;(2)MFO的O-脱甲基活力的增高和(3)AChE敏感性的降低等。     

小菜蛾对定虫隆抗性种群的选育及交互抗性研究

用昆虫生长调节剂(insect growth regulator,简称IGR)定虫隆(chlorfluazuron)对源自深圳田间的小菜蛾(SZ-S)Plutella xylostella(L.)在室内进行抗性种群选育,经过8代饲养和6次药剂汰选,获得抗性种群(CH-R),与相对敏感种群Sz—S比较,抗性指数(R1)为23.78倍。CH-R种群在去除选择压力条件下饲养5代,抗性逐渐下降。抗性汰选前后分别测定了10种药剂的剂量—死亡毒力回归线,发现CH—R抗性种群对三氟氯氰菊酯、氯氰菊酯、辛硫磷、喹硫磷、灭多威、磺胺脲类衍生物—杀螨隆、微生物杀虫剂Bt和齐墩螨素无明显交互抗性,抗性倍数为0.4-1.7;对两种沙蚕毒素类杀虫剂杀螟丹和杀虫丹的敏感性却有所上升,有负交互抗性趋势。活体增效剂试验表明,增效醚(PBO)和三苯基磷酸酯(TPP)对定虫隆均有一定的增效活性,PBO的增效比最高为29倍,能够完全抑制对定虫隆的抗性,说明多功能氧化酶可能是主导抗性机制之一。     

杀虫双和杀螟丹选育对小菜蛾抗药性的形成及其抗性机制

用杀虫双和杀螟丹在实验室以点滴法处理小菜蛾Plutella xylostella L.四龄幼虫,以连续继代药剂淘汰选育其抗药性。至35代,药剂汰选的小菜蛾对杀虫双和杀螟丹的抗药性较选育前正常品系分别提高了51倍和25倍。其抗药性的形成发展均呈S形,可认为已成为抗性品系。以有机磷、氨基甲酸酯、拟除虫菊酯及有机氮等11种杀虫剂测试抗杀虫双小菜蛾品系和抗杀螟丹小菜蛾品系对常用药剂的敏感度结果表明：对杀虫双、杀螟丹和杀虫环之间有较严重的正交互抗性;对敌敌艮、马拉硫磷和杀螟松有轻微交互抗性产生;对溴氰菊酯、氯氰菊酯、氯菊酯和灭多威、久效威等药剂更加敏感,呈负交互抗性。用聚丙烯酰胺凝胶电泳(PAGE)法测定表明,抗药性产生与特异性酯酶的形成有一定关系。用比色法和酸度法测定,抗性品系的乙酰胆碱酯酶(AchE)活性降低,羧酸酯酶(CarE)活性无差异。加增效剂Pb和SV₁：于四龄幼虫表皮,对抗杀虫双小菜蛾晶系分别有6.28及1.45倍的增效作用;对抗杀螟丹小菜蛾品系分别有4.85及1.39倍的增效作用,可见多功能氧化酶(MFO)为小菜蛾抗杀虫双和抗杀螟丹的重要因子。     

用溴氰菊酯选育抗敌百虫淡色库蚊的研究

将室内选育成功的抗敌百虫淡色库蚊Culex pipiens pallens Coq.品系(RD)分为二个分系,一个不再用敌百虫处理,称之为RD衰退品系(RD_139-x),34代后对敌百虫的敏感度增加了10倍,对溴氰菊酯的敏感度无显著变化.另一分系改用溴氰菊酯选育,命名为Rde品系,53代后对溴氰菊酯抗性达200倍左右,对敌百虫敏感度上升约10倍,对DDT的交互抗性高达118倍,对马拉硫磷、杀螟硫磷的敏感度与敏感品系(SEN,上海昆虫所保存)比较也有上升,呈负交互抗性现象.用高剂量溴氰菊酯处理幼虫、也证明Rde在20分钟内麻痹率比敏感品系低,可见抗性机制主要是抗击倒因子(Kdr).但增效醚(Pb)对溴氰菊酯明显增效,可见mfo酶也起重要作用,推测抗性为多因子遗传.     

桔小实蝇对多杀霉素的抗药性风险评估

桔小实蝇Bactrocera doralis (Hendel)是华南地区果蔬重要害虫,近年来危害严重,对农业造成巨大的经济损失.本研究采用阈性状分析方法,对桔小实蝇敏感品系对多杀霉素抗性进行选育,计算了桔小实蝇对多杀霉素的抗性现实遗传力,评估了抗药性产生的风险.结果表明:经过16代选育,桔小实蝇对多杀霉素抗性增加了7.05倍(LC50从0.60 mg/L增加到4.23 mg/L),现实遗传力为0.1774.结果显示桔小实蝇对多杀霉素抗性发展较慢.     

朱砂叶螨对三种杀螨剂的抗性选育与抗性风险评估

为评价朱砂叶螨Tetranychus cinnabarinus对3种杀螨剂的抗性风险,在实验室抗性品系选育基础上,应用数量遗传学中的域性状分析法,研究了朱砂叶螨北碚种群对甲氰菊酯、阿维菌素和哒螨灵3种杀螨剂的抗性现实遗传力,并对3种药剂在不同杀死率下抗性发展的速率进行了预测。结果表明：分别单一连续汰选16代后,朱砂叶螨对甲氰菊酯、阿维菌素的抗性倍数分别达26.54和4.51倍,对哒螨灵表现为敏感性降低（抗性倍数为1.16倍）;朱砂叶螨对甲氰菊酯、阿维菌素和哒螨灵的抗性现实遗传力分别为0.2472,0.1519和0.0160。在室内选择条件下,杀死率为50%～90%时,要获得10倍抗性,甲氰菊酯仅需要13～6代,阿维菌素需要约21～10代;哒螨灵需要约197～89代;在田间选择,三种药剂都将需要更长的时间。抗性筛选16代结果表明,抗性风险较高的是菊酯类的甲氰菊酯,其次是生物源农药阿维菌素,杂环类的哒螨灵抗性风险较小。试验结果可为朱砂叶螨抗性治理提供参考。     

转Cry1Ab和Cry1Ac融合基因型抗虫水稻对田间二化螟和大螟种群发生动态的影响

以Bt水稻华恢1号(Cry1Ac和CryAb融合基因;简称HH1)及其对照亲本明恢63(简称MH63)稻田靶标害虫二化螟Chilosuppressalis和次靶标害虫大螟Sesamia inferens为研究对象,研究了转基因抗虫水稻大田螟虫发生规律及其靶标和次靶标害虫致害力差异。结果表明,Bt水稻及其对照亲本上二化螟或大螟的卵块数量差异不显著,同时,对照亲本上二化螟与大螟的落卵量差异不显著,但Bt水稻上二化螟的落卵量显著大于大螟。与对照亲本相比,Bt水稻上二化螟幼虫发生量显著降低,降幅高达84.9%—100%,但大螟发生量差异不显著;此外,对照亲本上二化螟幼虫发生量显著高于大螟,但Bt水稻上两者差异不显著。同时,Bt水稻上二化螟导致的枯心/白穗率和受害丛率都显著低于其在对照亲本上的致害程度,降幅分别为30.8%—98.3%和11.4%—96.6%,而大螟差异不显著。可见,Bt水稻对靶标害虫二化螟具有较高抗性,而对次靶标害虫大螟的抗性不明显。另一方面,Bt水稻和对照亲本上二化螟导致的枯心/白穗率和受害从率都显著高于大螟。可见,二化螟仍是当前非转基因水稻上的主要害虫,而Bt水稻对二化螟幼虫发生的显著抑制作用以及对大螟幼虫发生的不显著影响,使得其大面积商业化种植下靶标害虫二化螟和次靶标害虫大螟间的竞争替代成为可能。     

棉蚜对吡虫啉的抗性选育和现实遗传力分析

【目的】为了评估棉蚜Aphis gossypii Glover对吡虫啉的抗性风险,在室内进行了棉蚜对吡虫啉(imidacloprid)的抗性选育和抗性现实遗传力分析。【方法】采用单头反选育法和群体汰选法,分别得到了棉蚜对吡虫啉敏感品系(LC₅₀为0.176 mg/L)和抗性品系(LC₅₀为14.657 mg/L)。采用阈性状分析方法,获得棉蚜对吡虫啉的抗性现实遗传力（h²）。【结果】相对于田间原始种群(LC₅₀为0.346 mg/L),吡虫啉敏感棉蚜品系对吡虫啉的LC50减少了2倍;获得的吡虫啉抗性棉蚜品系,经过40代的选育,得到抗性倍数为室内敏感品系的83.27倍的抗性品系。棉蚜对吡虫啉的抗性现实遗传力(h2)为0.1478。进一步预测其抗性发展速度,基于80%~90%的选择压力,预计抗性增长100倍时,吡虫啉可使用30.2~38.1代。【结论】这些研究说明棉蚜对吡虫啉存在抗性风险。     

云南省致乏库蚊对四种杀虫剂的敏感性调查

云南省分别在１９７８—１９８１ 年和１９９２—１９９４ 年间开展了致乏库蚊对杀虫剂的敏感性调查。根据剂量死亡率回归线和区分剂量线相交点所处的位置, 判定１９７８ —１９８１ 年的抗性等级（ＬＣ５０ 测定） , 再与同一监测点１９９２—１９９４ 年抗性级（区分剂量法） 比较, 评估其敏感性。结果云南大部份地区致乏库蚊对ＤＤＴ、杀螟硫磷和敌百虫, 由敏感（Ｓ） 或初步抗性（Ｍ） 发展为初步抗性或抗性（Ｒ）, 原来的Ｒ种群仍保持不变; 但对马拉硫磷仍象１０ 多年前一样敏感。     

Genetics of resistance to the pink stem borer (Sesamia nonagrioides) in maize (Zea mays)

Our knowledge of the genetics of resistance to the pink stem borer ( Sesamia nonagrioides ) in maize ( Zea mays ) is restricted to a few crosses among maize inbreds. The objectives of this study were to enlarge our understanding of the genetics of traits related to damage by pink stem borer and yield under infestation and to use generation means analyses to compare per se and testcross performance for detecting epistatic effects. All generations, either per se or crossed to testers, were evaluated in a 10 × 10 triple lattice design under artificial infestation with S. nonagrioides in 2005 and 2006. Most traits fit an additive–dominance model; but evidence for epistasis for resistance and yield under infestation was shown. Epistasis, in general, did not appear to play an important role in the inheritance of yield under pink stem borer infestation. However, the epistasis contribution to maize yield performance could be important in some outstanding crosses such as EP42 × A637. Testcross generation means revealed epistatic effects undetected by the generation means analysis, but neither method was able to eliminate dominance effects that could prevail over epistatic effects.     

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。     

Rice (<i>Oryza sativa</i> L.) Breeding among Hassawi Landrace and Egyptian Genotypes for Stem Borer (<i>Chilo agamemnon</i> Bles.) Resistance and Related Quantitative Traits

Rice stem borer (Chilo agamemnon Bles.) is a primary insect pest of rice and is a major limiting factor to rice production. Breeding for insect-resistant crop varieties has been an economic way of integrated pest management (IPM) as it offers a viable and ecologically acceptable approach. This study was aimed to evaluate rice genotypes for their resistance against rice stem borer. Seven parental genotypes with twenty one F1 crosses were evaluated for genotypic variation in field experiments. Analysis of variance revealed significant differences for the studied traits in almost all crosses and parents. In addition, the mean squares of parents versus their crosses were signifi- cant for stem borer resistance and other associated traits. Moreover, both general combining ability (GCA) and specific combining ability (SCA) variances were highly significant for all characters studied in the F1 generation. Based on GCA, 4 genotypes (Sakha101, Gz6903-3-4-2-1, Gz9577-4-1-1 and Hassawi) exhibited highly significant negative values for stem borer resistance (–0.53, –1.06, –0.18 and –0.49, respectively) indicating they are the best combiners for stem borer resistance. Based on SCA analysis, nine cross combinations showed highly significant negative effects for stem borer resistance. Similarly, the cross Giza178 Hassawi was the best combination with significantly highest value for early maturity. In addition, seven crosses showed highly significant negative SCA for plant height trait. On the other hand, for panicle length, number of primary branches/panicle, panicle weight and 1000-grain weight, seven, four, eight and six crosses showed highly significant positive SCA, respectively. The result further revealed that the non-additive dominance genetic variance was higher than the additive variance for all evaluated traits indicating that non-additive genetic variances have a role in their inheritance. The broad-sense heritability estimates were high for all the studied traits. The stem borer resistance was significantly correlated with panicle weight and 1000-grain weight, which also showed a highly significant correlation with grain yield/plant. Thus these traits can be effectively employed in a breeding program to confer resistance against stem borer infestation in rice. It was further supported by biplot analysis, which clustered these potentially important traits into two quadrants showing their importance in any future breeding program to control stem borer infestation. This study has contributed valuable information for evaluation of genetic diversity in the local rice germplasm and its utilization in futuristic rice genetic improvement programs.     

Modeling the development of resistance by stalk-boring lepidopteran insects (Crambidae) in areas with transgenic corn and frequent insecticide use

We simulated the population dynamics and population genetics of two bivoltine species of corn borers, the European corn borer, Ostrinia nubilalis (Hübner), and the southwestern corn borer, Diatraea grandiosella Dyar, in a hypothetical region of irrigated transgenic and nontransgenic corn where insecticide was applied only to the nontransgenic refuge crop. Over the 100-yr time horizon, resistance developed quickly in both species and to both transgenic corn and the insecticide when the allele for resistance to the respective toxin was dominant. When the allele for transgenic resistance was not dominant and the refuge location was constant over the time horizon, spraying the refuge to control southwestern corn borer had no effect on how quickly resistance to the transgenic corn developed. In contrast, the European corn borer developed resistance to transgenic corn much sooner when the refuge was sprayed once per year, and the time to 3% resistance allele frequency decreased as efficacy of the insecticide increased. Only when the refuge was treated less than once every 5 yr (10 generations) did the frequency of application decline enough to permit resistance management for the European corn borer to approximate the effectiveness of an unsprayed refuge. A consistently sprayed refuge <40% of the corn acreage was an inadequate resistance management strategy for the European corn borer even when a low efficacy insecticide (70% mortality) was used. When assumptions about European corn borer adult behavior were changed and the adults behaved similarly to adult southwestern corn borer, the development of resistance to the transgenic crop was slowed significantly.     

Identification and Evaluation of Insect and Disease Resistance in Transgenic <i>Cry1Ab13-1</i> and <i>NPR1</i> Maize

PCR detection, quantitative real-time PCR (q-RTPCR), outdoor insect resistance, and disease resistance identification were carried out for the detection of genetic stability and disease resistance through generations (T₂, T₃, and T₄) in transgenic maize germplasms (S3002 and 349) containing the bivalent genes (insect resistance gene Cry1Ab13-1 and disease resistance gene NPR1) and their corresponding wild type. Results indicated that the target genes Cry1Ab13-1 and NPR1 were successfully transferred into both germplasms through tested generations; q-PCR confirmed the expression of Cry1Ab13-1 and NPR1 genes in roots, stems, and leaves of tested maize plants. In addition, S3002 and 349 bivalent gene-transformed lines exhibited resistance to large leaf spots and corn borer in the field evaluation compared to the wild type. Our study confirmed that Cry1Ab13-1 and NPR1 bivalent genes enhanced the resistance against maize borer and large leaf spot disease and can stably inherit. These findings could be exploited for improving other cultivated maize varieties.     

Mechanisms and genetic diversity for host plant resistance to spotted stem borer,Chilo partellus in sorghum,Sorghum bicolor

Levels of resistance to spotted stem borer, Chilo partellus, in the germplasm are low to moderate and therefore we evaluated 25 sorghum genotypes for resistance to stem borer to identify lines with diverse mechanisms of resistance to this insect. Leaf glossiness was significantly and negatively associated with low deadheart formation. Dwarf genotypes with fewer nodes showed more deadheart formation. Antixenosis and/or antibiosis for leaf feeding, and reduced deadheart formation, tunnelling, and number of exit holes resulted in lower losses owing to C. partellus damage. Axillary tillers compensated for loss in grain yield owing to borer infestation as a result of deadheart formation, but their synchrony for maturity with the main plant is quite important. Path coefficient analysis revealed that direct effects of stem tunnelling on loss in grain yield were greater than leaf feeding and deadhearts. However, leaf feeding via stem tunnelling showed maximum indirect effects on loss in grain yield. Estimates for broad‐sense heritability and genetic advance suggested that it is possible to improve for grain yield under stem borer infestation. Heritability estimates for grain yield were usually higher than for stem borer damage parameters. Multi‐trait cluster analysis placed the test genotypes into four and five clusters in rainy and post‐rainy seasons, respectively. The genotypes placed in different groups, and showing resistance to leaf feeding, deadheart formation, stem tunnelling, and/or compensation in grain yield can be used for sorghum improvement.     

Enhanced resistance to two stem borers in an aromatic rice containing a synthetic cryIA(b) gene

Rice cultivars of isozyme group V include high-quality, aromatic rices that are difficult to improve by traditional methods because of the loss of quality characters upon sexual hybridization. Their low-tillering plant type predisposes them to economic loss from attack by stem borers, a group of insects to which they are susceptible. We report here the enhancement of stem borer resistance in cv. Tarom Molaii through transformation by microprojectile bombardment. Embryogenic calli derived from mature seeds were bombarded with gold particles coated with plasmid pCIB4421, carrying a synthetic truncated toxin gene based on the cryIA(b) gene from Bacillus thuringiensis, and plasmid pHygII, carrying the hygromycin phosphotransferase (hpt) selectable marker gene. Inclusion of 50 mg/l hygromycin B in culture media from bombardment through to rooting of plantlets eliminated escapes. The procedure generated three independent hpt transformants of which two also contained the cryIA(b) gene. One such line (No. 827) produced truncated (67 kDa) CryIA(b) protein equivalent to about 0.1% of total soluble protein. The cryIA(b) gene was controlled by the promoter of the maize C₄ PEP carboxylase gene and was expressed in leaf blades but was not expressed to a detectable level in dehulled mature grain. Line 827 contained about 3 copies of the cryIA(b) gene which segregated as a single dominant Mendelian locus in the second (T₁) and third (T₂) generations and co-segregated with enhanced resistance to first-instar larvae of striped stem borer (Chilo suppressalis) and yellow stem borer (Scirpophaga incertulas). T₂ line 827-6 homozygous for the cryIA(b) gene showed no dead hearts or whiteheads after infestation with stem borers, whereas T₂ line 827-25 lacking the gene averaged 7 dead hearts per plant and 2.25 whiteheads per plant. These results establish that transformation of high-quality rices of group V is a feasible alternative to sexual hybridization.