不同释放密度和高度对稻螟赤眼蜂防控两种水稻螟虫效果的影响

稻螟赤眼蜂Trichogramma japonicum Ashmead是二化螟Chilo suppressalis(Walker)和稻纵卷叶螟Cnaphalocrocis medinalis(Guenée)的优势卵寄生蜂。为优化稻螟赤眼蜂田间释放技术,作者分别在安徽、福建和贵州进行了稻螟赤眼蜂不同释放高度和密度对防控两种水稻螟虫效果影响的田间试验。结果表明,对于防控稻纵卷叶螟,释放量一定时,赤眼蜂在稻株顶部以上5 cm高度、8点/0.07 hm 2释放密度的防治效果优于其他释放密度和高度的处理。而对于防控二化螟,不同释放高度对赤眼蜂防治效果差异不显著。     

8种杀虫剂对稻纵卷叶螟的田间药效试验简报

8种杀虫剂对稻纵卷叶螟的田间药效试验表明：20 d后,1.8%阿维菌素乳油对稻纵卷叶螟的防治效果达90.52%,20%三唑磷的防治效果为40.12%,18%杀虫双的防治效果为67.77%;阿维菌素乳油比杀虫双和三唑磷防效分别提高22.75和50.4个百分点,且防效时间长、经济省力、无药害现象发生,在水稻上使用安全.     

稻螟赤眼蜂对二化螟和台湾稻螟的控制潜能评价

为了明确稻螟赤眼蜂种群增长力与水稻螟虫种群增长力之间的关系和评价稻螟赤眼蜂的控害能力,通过生命表方法,组建了二化螟和台湾稻螟在水稻上的实
验种群生命表,以及稻螟赤眼蜂在二化螟卵和台湾稻螟卵上的生殖力表,测定了稻螟赤眼蜂对两种螟虫卵的寄生能力.结果表明：二化螟和台湾稻螟的世代历期（T）分别为56.40 d和47.80 d,内禀增长率（r_m）分别为0.0489和0.072.稻螟赤眼蜂在二化螟卵和台湾稻螟卵上的平均T分别为9.75 d和9.78 d,r_m分别为0.3161和0.3154.通过比较分析稻螟赤眼蜂与两种螟虫的实验种群生命表参数,可知稻螟赤眼蜂能够有效控制两种水稻螟虫,赤眼蜂种群增长力相对于螟虫种群是超前而不是跟随关系.     

二化螟与稻纵卷叶螟幼虫取食诱导的水稻挥发物比较

前期研究结果表明,二化螟和稻纵卷叶螟幼虫为害所诱导的水稻挥发物能对二化螟绒茧蜂Apanteles chilonis Munakata、二化螟Chilo suppressalis(Walker)和稻纵卷叶螟Cnaphalocrocis medinalis(Guene)雌成虫的行为产生影响,并且两者的影响效应存在明显差异,但至今仍不清楚2种害虫危害后水稻挥发物的变化情况。利用动态吸附法对健康水稻苗、二化螟或稻纵卷叶螟幼虫为害苗的挥发物进行捕集与鉴定。在3种处理水稻苗中,共捕集到28种挥发物组分,包括萜类化合物、烷烃类化合物、酮类、醇类、水杨酸甲酯和一些未知化合物。二化螟和稻纵卷叶螟为害均能导致水稻挥发物总量和大多挥发物组分释放量的上升;同时,二化螟幼虫危害能诱导水稻新释放2-heptanonol,(E)-linalooloxide和2种未知挥发物组分,稻纵卷叶螟为害则可诱导水稻产生2-heptanonol,(E)-linalooloxide,MeSA和β-caryophyllene4种新化合物。2种虫害稻株间的比较表明,β-caryophyllene和MeSA是稻纵卷叶螟危害水稻后诱导产生的特有挥发物组分,并且linalool,α-copaene,(+)-cedrol,n-heptadecane和n-nonadecane在二化螟为害苗与稻纵卷叶螟为害苗之间差异显著。这一结果也许可以解释2种害虫诱导水稻挥发物对天敌和害虫行为影响不同的原因。     

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。     

陕南稻纵卷叶螟发生规律及防治研究

稻纵卷叶螟属迁飞性害虫。该虫在陕南稻区可完成3个世代。第一、二、三代2～3龄幼虫盛发期分别为6月下旬至7月上旬、7月下旬至8月上旬、8月底至9月上旬。常年以第二代危害较重,此时为防治关键时期;但在5～6月份雨量≥400mm以上的年份,第一代也要及时防治。防治药剂为25％杀虫双水剂,每亩0.2～0.25kg防治两次,防治效果在90％以上。     

稻纵卷叶螟幼虫在卷叶内的栖居特性

稻纵卷叶螟Cnaphalocrocismedinalis,幼虫在卷叶内栖居特性田间调查研究表明,盛孵期后3d,1～2龄幼虫新卷叶有虫率为100%,旧卷叶有虫率为0～2857%,平均为1225%;盛孵期后5d,1～3龄幼虫新卷叶有虫率为50%～9286%,平均为6902%,旧卷叶有虫率为0～32%,平均为1128%。因此,稻纵卷叶螟1～3龄幼虫在田间主要栖居于新、旧卷叶内,田间药效评价时应以新、旧卷叶内幼虫量为依据计算防治效果。     

锐劲特防治水稻二化螟的效果及技术

锐劲特对水稻三化螟有显著的防治效果。每 ６６６．７ｍ_２用锐劲特 ３０ｍＬ,防治适期较宽,最佳防治时间在１～２龄幼虫高峰期。使用不同防治方法都能有效控制二化螟为害。锐劲特对稻象甲成虫有很好的兼治效果。     

杀虫剂不同处理对二化螟为害、防治效果及水稻产量的影响

近年来,二化螟发生出现各代均偏重或大发生的新特点。为探索杀虫剂防治二化螟的新策略,采用田间小区试验在早晚稻田中分别研究5%氟虫腈加25%灭.水胺的不同施药时期和次数对二化螟幼虫的为害和防治效果及对水稻产量的影响。在试验地,二化螟第1和第2代发生在早稻田,第3和第4代发生在晚稻田。试验结果表明,在第1和第3代二化螟幼虫孵化高峰施药1次、隔10d再施药1次对早稻田和晚稻田的幼虫防效显著,分别达到了92.4%和92.6%。在早、晚稻田分别发生的第1和第3代2龄幼虫高峰期施药1次、同时在次代孵化高峰期再施药1次,均可显著降低虫伤株率和白穗株率,提高保穗效果,并显著提高单位面积上的水稻产量(3.98%~4.20%)。因此,对第1至第4代二化螟幼虫均进行1次药剂防治是二化螟各代均大发生的新形势下的防治策略。     

Agrobacterium tumefaciens－mediated transformation of rice with the spider insecticidal gene conferring resistance to leaffolder and striped stem borer

Immature embryos of rice varieties "Xiushuill" and "Chunjiang 11" precultured for 4d were infected and transformed by Agrobacterium tumefaciens strain EHA101/pExT7 (containing the spider insecticidal gene). The resistant calli were transferred onto the differentiation medium and plants were regenerated. The transformation frequency reached 56% approximately 72% measured as numbers of Geneticin (G418)-resistant calli produced and 36% approximately 60% measured as numbers of transgenic plants regenerated, respectively. PCR and Southern blot analysis of transgenic plants confirmed that the T-DNA had been integrated into the rice genome. Insect bioassays using T1 transgenic plants indicated that the mortality of the leaffolder (Cnaphalocrasis medinalis) after 7d of leaf feeding reached 38% approximately 61% and the corrected mortality of the striped stem borer (Chilo suppressalis) after 7d of leaf feeding reached 16% approximately 75%. The insect bioassay results demonstrated that the transgenic plants expressing the spider insecticidal protein conferred enhanced resistance to these pests.     

二化螟人工饲料研究初报

在温度为(29±1)℃,相对湿度为80%~90%的条件下,分别以3种人工饲料和天然饲料(新鲜水稻茎杆)对二化螟Chilo suppressalisWalker进行连续继代饲养。结果表明,3种人工饲料饲养的二化螟幼虫的生长历期、化蛹率、蛹重、蛹期及羽化率等均与天然饲料的基本接近,而且这3种人工饲料配制简便、成本较低,也不易霉变,是3种较为理想的人工饲料。通过第2代和第3代的继代繁殖表明,3种人工饲料和天然饲料饲养的二化螟的发育情况都稍有下降,但3种人工饲料与天然饲料间不存在显著差异。     

Genetic analysis of leaffolder resistance in rice

A double haploid(DH)population,which consists of 120 lines derived from anther culture of a typical indica and japonica hybrid 'CJ06'/'TN1',was used to investigate the genetic basis for rice leaffolder resistance.Using a constructed molecular linkage map,five QTLs for rolled leaves were detected on chromosomes 1,2,3,4,and 8.The positive alleles from CJ06 on chromosomes 3,4,and 8 in-creased the resistance to rice leaffolder,and the alleles from TN1 on chromosomes 1 and 2 also enhanced resistance to leaffolde...     

一种采集稻纵卷叶螟卵的高效简便新方法

研究了稻纵卷叶螟Cnaphalocrocis medinalis Guenee的"烧杯+湿纱布"卵收集方法,并与"塑料袋收集法"和"塑料杯收集法"进行了比较。结果表明,"烧杯+湿纱布"卵收集法能显著地延长了稻纵卷叶螟成蛾的寿命、提高单雌产卵量和卵孵化率。采用此法收集稻纵卷叶螟的卵更高效和简便。     

二化螟人工饲料关键因子的优化及其优化配方的饲养效果

采用5因子4水平正交试验,将作者在以前筛选出的二化螟Chilosuppressalis(Walker)人工饲料的5个关键因子进行了进一步的优化,并得出了二化螟人工饲料的优化配方,其成分如下:稻茎粉18.75g、大豆粉15.00g、麦芽粉15.00g、稻糠粉6.25g、茭白茎粉7.50g、干酪素10.00g、酵母粉18.75g、纤维素7.50g、蔗糖15.00g、葡萄糖7.50g、维生素C7.50g、复合维生素B3.00g、胆固醇0.375g、氯化胆碱0.25g、Beck氏盐2.50g、山梨酸1.35g、琼脂13.49g和自来水809.25g。通过连续3代继代饲养试验,比较了该优化配方和二化螟天然饲料水稻茎的饲养效果。结果表明,在一些关键指标上(如存活率、化蛹率和羽化率等),所优化的二化螟人工饲料配方的饲养效果明显的好于其天然饲料水稻茎的;而在许多其它的指标上(如蛹期、成虫期、产卵量、卵期和孵化率等),该优化配方对二化螟的饲养效果与水稻茎的相当;但该配方饲养的二化螟在第3代时幼虫历期明显的比水稻茎的有所延长。     

Genetic analysis of leaffolder resistance in rice

A double haploid(DH)population,which consists of 120 lines derived from anther culture of a typical indica and japonica hybrid'CJ06'/'TN1',was used to investigate the genetic basis for rice leaffolder resistance.Using a constructed molecular linkage map,five QTLs for rolled leaves were detected on chromosomes 1,2,3,4,and 8.The positive alleles from C J06 on chromosomes 3,4,and 8 in-creased the resistance to dee leaffolder,and the alleles from TN1 on chromosomes 1 and 2 also enhanced resistance to leaffolder.The interactions between QTLs were identified and tested,and four conditional interactions were acquired for resistance to rice leaffolder.These loci were located on chromosomes 2,9,10,and 11,respectively.QTL pyramiding indicated that the positive alleles affect resis-tance to leaffolder.The prospective application of this data in rice breeding was also discussed.     

二化螟成虫雄性先羽化现象

二化螟Chilos uppressalis(Walker)是水稻一种重要的鳞翅目害虫,作者在室内人工饲养的过程中注意到二化螟的雄虫羽化较雌虫早,因此对二化螟的雄性先熟现象进行了初步的研究,结果发现雌雄二化螟从初孵幼虫到成虫羽化阶段的历期平均长度存在显著差异,雄虫的历期为38.8d,而雌虫的历期为40.6d,即雄虫较雌虫要早1.8d羽化。本文对雄性先熟现象的生物学意义进行了简要讨论,同时,就利用性诱方法对二化螟进行监测和防治进行了讨论。     

Induction of serotonin accumulation by feeding of rice striped stem borer in rice leaves

Tryptophan (Trp)-related secondary metabolism has been implicated in the defense against pathogen infection and insect feeding in various gramineous species. Recently, we also reported that rice plant accumulated serotonin and tryptamine as well as their amide compounds coupled with phenolic acids in response to the infection by fungal pathogen. These compounds were likely to play an important role in the formation of physical barrier to the invading pathogens. To extend our study to elucidate the defensive role of Trp-derived secondary metabolism in gramineous plants, we examined in this study whether it is activated in response to herbivore attack as well. Third leaves of rice plant were fed on by third instar larvae of rice striped stem borer for 24 h or 48 h. The analysis of four Trp-derived metabolites including tryptamine, serotonin feruloyltryptamine (FerTry) and p-coumaroylserotonin (CouSer) by liquid chromatography coupled with tandem mass spectrometry revealed that their contents clearly increased in response to the larvae feeding. The respective amounts of tryptamine, serotonin, FerTry and CouSer in the larvae-fed leaves were 12-, 3.5-, 33- and 140-fold larger than those in control leaves 48 h after the start of feeding.Key words: rice, Oryza sativa, Gramineae, serotonin, secondary metabolism, rice striped stem borer, Chilo suppressalisPlants defend themselves from environmental stresses by utilizing secondary metabolism. One of major biological stresses that plants have to cope with is attack by herbivorous insects. In the interactions with herbivorous insects, various secondary metabolites that are derived from tryptophan (Trp) pathway have been shown to play defensive roles in plants including gramineous species. For example, benzoxazinone glucosides in wheat (Triticum aestivum), rye (Secale sereale) and maize (Zea mays) express toxic and antifeeding effects on herbivorous insects.^1,2 Benzoxazinones are biosynthesized from indole-3-glycerol phosphate, an intermediate of Trp synthesis.^3,4 Another example of those compounds is gramine in barley (Hordeum vulgare). Gramine is a Trp-rerived indole amine,⁵ and has been received attention in the resistance mainly against aphids on the basis of its toxicity and deterrence.⁶We recently found that Trp-derived secondary metabolism is also involved in defense responses of rice (Oryza sativa) leaves to infection by brown spot fungus (Bipolaris oryzae).⁷ The infection of the fungus activates Trp biosynthesis and accumulation of serotonin and of smaller amounts of tryptamine, feruloyltryptamine (FerTry) and p-coumaroylserotonin (CouSer). In addition, the enhancement of serotonin peroxidase activity and incorporation of serotonin in the cell walls were detected. Thus, it is very likely that that serotonin-derived materials deposit in cell walls after oxidative polymerization to constitute a part of physical defense system of rice, which may be reminiscent of the wound sloughing in animals. These findings prompted us to investigate whether Trp-related secondary metabolism is also involved in the defense of rice plant against the attack by insects, as in the cases of other gramineous plants mentioned above. While the response of plants to pathogenic infection is generally different from that to insect herbivory, Trp-derived secondary metabolites have occasionally been implicated in both responses.^8–10 Here, we report the results of our study to examine the effects of herbivory by rice striped stem borer (Chilo suppressalis) on the Trp derived secondary metabolism in rice leaves.Rice (cv. Nipponbare) leaves were incubated with larvae of C. suppressalis in a feeding tube assembled according to Oikawa et al.,⁸ Aerial parts of two 12-day-old rice seedlings were excised, and their cutting ends were immersed in distilled water in a vial. Three third instar larvae of C. suppressalis were put on the leaves, and the leaves with larvae were covered by a plastic tube. For comparison, the control leaves were wounded by razor blade at the start of the incubation. After incubation for 24 h or 48 h with 16/8 h LD cycle at 28°C, the leaves were extracted with 10 volumes of 80% methanol, and analyzed by liquid chromatography coupled with tandem mass spectrometry in multiple reaction monitoring mode.As shown in Figure 1, the contents of tryptamine and serotonin increased along with time in the larvae-fed leaves. The respective contents of tryptamine and serotonin in the leaves were 12- and 3.5-fold larger than those in control leaves 48 h after the start of feeding. The accumulation of FerTry and CouSer was also observed after larvae feeding with the contents being 33- and 140-fold larger than those in control leaves, respectively. Their contents, however, were approximately 10-fold smaller than the corresponding amines.Open in a separate windowFigure 1Accumulation of Trp derived metabolites in the leaves attacked by rice striped stem borer. Chemical structures of analyzed compounds (A). The contents of tryptamine (B), serotonin (B), FerTry (C) and CouSer (D) were determined by LC-MS/MS analysis. The third leaves of 12-d-old rice seedlings were fed on by rice striped stem borer (brack bars) or wounded by razor blade as control (white bars). After incubation, the leaves were extracted by 80% methanol. The contents of metabolites at time 0 are represented as gray bars.In the interaction of rice plant with B. oryzae, serotonin was shown to be incorporated into cell walls as a part of physical defense system.⁷ In an analogous way, modification of cell walls by serotonin might function in sealing the sites injured by insect feeding to protect the leaves from desiccation, and opportunistic and insect-mediated infection by microorganisms. Indeed, at the cutting edge of the leaves, the formation of brown materials was observed. In addition, since serotonin is a neurotransmitter of insects and tryptamine has been indicated to be a neuroactive substance, their accumulation might directly affect behavior and physiology of some insects. High concentrations of tryptamine have been shown to express anti-oviposition activity toward Bemisia tabaci¹¹ and anti-feeding activities toward Malacosoma disstria and Manduca sexta.¹²The low levels of serotonin, tryptamine and their amides in the control leaves suggest that these compounds are induced in response to some components produced during the interaction between the plant and the herbivore. In this relation, it has been shown that elicitors are present in the saliva of some herbivous insects, which induce volatile emission from the plant to attracts their natural enemies.^13,14 Induction of Trp-derived secondary metabolites by the herbivore attack may likely be a result of recognition of some insect-derived molecules by rice leaves, similarly to the induction of volatile emission.The induced accumulation of indole amines and their hydroxycinnamic acid amides in the rice leaves attacked by C. suppressalis suggests that a common signaling pathway might be involved in the responses to pathogen infection and insect feeding. However, the composition of induced compounds was different between the responses to the two biological stresses. The content of tryptamine in the larvae-fed leaves was comparable to that reported in the B. oryzae-infected leaves, whereas the amount of serotonin (approximately 35 nmol/gFW) was much smaller than that in the infected leaves (approximately 250 nmol/gFW). This characteristic was similar to the response of rice leaves to methyl jasmonate (MeJA), which also induced accumulation of these Trp-derived secondary metabolites.⁷ The strong activation of the conversion of tryptamine to serotonin may require infection-specific signals.The serotonin accumulation in rice appears to be similar to the accumulation of gramine in barley in several aspects. Gramine accumulation has been demonstrated to be induced by either infection by pathogens⁹ or infestation by the aphid Schizaphis graminum.¹⁰ In addition, the gene encoding N-methyltransferase that catalyzes the final reaction in the gramine biosynthetic pathway is upregulated by MeJA, suggesting gramine synthesis is at least partly under the control of jasmonate signaling pathway.^15,16 The inducible serotonin production may be an archetypal form of the biosynthesis of more complicated indole amine in barley.