冷藏米蛾卵对子代螟黄赤眼蜂质量的影响

螟黄赤眼蜂Trichogramma chilonis Ishii在华南地区被广泛应用于甘蔗螟虫的生物防治,米蛾Corcyra cephalonica (Stainton)卵是工厂化繁育螟黄赤眼蜂的主要替代寄主,常常需要冷藏以满足生产的需要。本文通过分析子代雌蜂的平均寿命、寄生量、存活率和生命表等参数的变化,评价了在4℃条件下冷藏紫外杀胚米蛾卵对子代赤眼蜂质量的影响。结果表明,螟黄赤眼蜂几乎不能寄生冷藏60 d的米蛾卵。总体来说,随米蛾卵冷藏时间的延长,F1代单雌蜂的平均寿命与寄生量呈下降趋势,不过在储存期30 d时,寄生量出现了一个反常高峰。在储存期15 d时,F2代羽化率与雌性比例最高,净增值率（R0）、内禀增长率（rm）和周限增长率（λ）均有不同程度的下降,而世代平均周期（Tc）和种群倍增时间（T2）则相应延长。因此,冷藏米蛾卵导致子代螟黄赤眼蜂的质量下降,经紫外杀胚处理的米蛾卵在4℃条件下冷藏时间超过45 d后在生产中需要审慎处理。     

以米蛾卵为寄主繁殖玉米螟赤眼蜂的质量控制技术

以米蛾卵为寄主繁殖玉米螟赤眼蜂的质量控制技术包括:米蛾卵的清理和优选,优质种蜂的准备,接蜂过程的条件调控,生产用蜂的收集、清理和质量检测.     

冷藏对米蛾卵液中游离氨基酸变化的影响

赤眼蜂的工厂化繁育常使用米蛾卵作为中间寄主卵,为了满足赤眼蜂生产的需要,需对米蛾卵进行冷藏,但冷藏米蛾卵影响赤眼蜂的生长发育。利用核磁共振技术(NMR)测定了新鲜米蛾卵(U)、新鲜杀胚米蛾卵(CK)、杀胚米蛾卵在4℃条件下冷藏15 d(N15)、30 d(N30)、45 d(N45)和60 d(N60)后,米蛾卵卵液游离氨基酸种类和含量的变化。结果共鉴定到24种游离氨基酸及其衍生物,包括昆虫发育必需的10种氨基酸。U和CK之间的游离氨基酸组分没有显著差异,N15、N30和N45游离氨基酸总量随冷藏时间的延长而显著升高,N60中的氨基酸总量与N45比较没有显著增加。对24种游离氨基酸及其衍生物的含量进行主成分分析,结果表明丙氨酸、谷氨酰胺、鸟氨酸、天冬氨酸、组氨酸、赖氨酸、丝氨酸、焦谷氨酸等8种氨基酸的含量随冷藏时间的增加而有着显著的变化,其中,丙氨酸变化幅度最为明显,随着冷藏时间的增加,含量从0.1624 mmol/L增加到8.6192 mmol/L;组氨酸在N30、N45和N60处理之间显著下降,从0.7553 mmol/L降低到0.2495 mmol/L。因此,冷藏会导致米蛾卵内游离氨基酸含量发生一定变化,这可能是冷藏米蛾卵影响赤眼蜂生长发育的重要原因之一。     

冷藏米蛾卵对稻螟赤眼蜂和玉米螟赤眼蜂子代质量的影响

【目的】以稻螟赤眼蜂Trichogramma japonicum Ashmead和玉米螟赤眼蜂T.ostriniae为试验对象,研究低温冷藏米蛾卵对赤眼蜂子代质量的影响,为米蛾卵的合理利用,赤眼蜂的工厂化生产和应用提供理论依据。【方法】将米蛾卵在不同温度(1、4、7、10℃)下冷藏不同时间(3、5、7、10、15、20、25、30、40d),研究米蛾卵冷藏后作为寄主卵对两种赤眼蜂子代寄生卵量、F_2代羽化出蜂率和雌蜂率的影响,利用赤眼蜂子代寄生卵量、F_2代羽化出蜂率和雌蜂率三者乘积表示赤眼蜂子代质量(Q),根据赤眼蜂子代质量判断冷藏米蛾卵对子代质量的影响。【结果】米蛾卵冷藏温度和时间对赤眼蜂子代寄生卵量影响显著,但不同赤眼蜂种类和不同冷藏温度间表现不同。繁殖稻螟赤眼蜂时,米蛾卵在4℃下冷藏赤眼蜂寄生卵量下降最缓,米蛾卵冷藏20d内赤眼蜂寄生卵量与对照之间差异不显著,在其他温度下米蛾卵冷藏3 d稻螟赤眼蜂寄生卵量与对照之间差异达到显著水平;繁殖玉米螟赤眼蜂时,米蛾卵在4℃下冷藏赤眼蜂寄生卵量下降最缓,米蛾卵冷藏20d赤眼蜂寄生卵量与对照之间差异达到显著水平,1℃下冷藏赤眼蜂寄生卵量下降最快,米蛾卵冷藏5 d赤眼蜂寄生卵量与对照之间达到显著水平。米蛾卵冷藏对稻螟赤眼蜂和玉米螟赤眼蜂F_2代的羽化率和雌蜂率产生的不利影响相对较小,米蛾卵冷藏30 d赤眼蜂F_2代的羽化率仍在70%以上,雌蜂率仍在75%以上。【结论】米蛾卵冷藏超过一定的时间以后会对稻螟赤眼蜂和玉米螟赤眼蜂子代的寄生卵量,F_2代的羽化出蜂率和雌蜂率产生不利影响,从而降低子代稻螟赤眼蜂和玉米螟赤眼蜂的质量,但在适宜的温度下冷藏一定时间内对其子代质量影响不显著,其中4℃下冷藏米蛾卵繁殖的赤眼蜂子代质量最佳,冷藏30 d赤眼蜂子代质量降低不到50%。     

米蛾卵繁育的螟黄赤眼蜂的适宜冷贮温度和虫龄

为了全面评价冷贮对米蛾Corcyra cephalonica Stainton卵繁育螟黄赤眼蜂Trichogramma chilonis Ishii的影响, 本试验采用米蛾卵为寄主, 以冷贮温度（3和10℃）、 冷贮虫龄（以接蜂开始时间为起点, 接蜂后1, 2, 3, 4, 5, 6, 7, 8和9日龄）和冷贮时间（1, 2, 3和4周）为试验因子, 研究了冷贮对螟黄赤眼蜂活蛹率、 羽化率和畸形率的影响。结果表明： 3个因素均能单独或互作显著影响活蛹率、 羽化率和畸形率（P＜0.05）。综合各冷贮虫龄对低温的反应, 螟黄赤眼蜂对3℃较敏感, 此温度下1-3日龄的活蛹率和各虫龄的羽化率均显著下降（P＜0.05）, 不适宜长期冷贮; 10℃下各虫龄的活蛹率受冷贮时间的影响不显著, 1-3日龄的羽化率受冷贮时间的影响也不显著, 冷贮4周后仍有74%以上的羽化率, 10℃适宜冷贮。不同冷贮温度下冷贮适宜虫龄不同。在10℃下, 最适冷贮虫龄是3日龄的赤眼蜂, 此虫龄不同冷贮时间的活蛹率（74.09%～77.59%）和羽化率（74.26%～90.37%）均与对照无显著差异（P>0.05）, 但显著高于其他虫龄（P＜0.05）。此虫龄在10℃下冷贮1~3周, 畸形率在27%以内。结果表明米蛾卵内螟黄赤眼蜂不同冷贮温度下适宜冷贮虫龄不同。     

艾叶精油对玉米螟赤眼蜂的影响及两者对米蛾的联合作用

玉米螟赤眼蜂是生物防治中一种重要的天敌昆虫,为探明艾叶精油对玉米螟赤眼蜂的影响及两者对米蛾的联合防治效果,本文研究了艾叶精油熏蒸、触杀、驱避活性对玉米螟赤眼蜂的影响及艾叶精油和玉米螟赤眼蜂对米蛾的联合作用。结果表明,艾叶精油熏蒸和触杀处理对玉米螟赤眼蜂卵具有明显影响,寄生在米蛾卵上的玉米螟赤眼蜂卵经0.1、0.2、0.3、0.4、0.5、0.6μg/cm3艾叶精油熏蒸处理72h后玉米螟赤眼蜂的羽化率分别为56.67%、49.33%、44.00%、33.33%、26.00%和14.67%;寄生在米蛾卵上的玉米螟赤眼蜂卵经100、200、300、400、500、600mg/L艾叶精油触杀处理72h后玉米螟赤眼蜂的羽化率分别为54.00%、45.33%、38.00%、28.67%、18.00%和6.00%,均与对照组表现出显著性差异。艾叶精油驱避活性对玉米螟赤眼蜂成蜂也有明显的影响,300mg/L艾叶精油对玉米螟赤眼蜂的驱避率79.05%,随着时间间隔和距离间隔的增加,这种影响作用降低;联合应用艾叶精油与玉米螟赤眼蜂时先释放玉米螟赤眼蜂,24h后再滴加艾叶精油的防治效果最佳,米蛾的死亡率可高达96%。     

繁育寄主对稻螟赤眼蜂寄生行为及寄生能力的影响

【目的】繁育寄主影响赤眼蜂的生物学特性,为明确米蛾 Corcyra cephalonica (Stainton)卵繁育的稻螟赤眼蜂 Trichogramma japonicum Ashmead是否和二化螟Chilo suppressalis (Walker)卵繁育稻螟赤眼蜂在防治二化螟上有差别,及田间用米蛾卵作为稻螟赤眼蜂续代寄主的可行性,本实验观察了羽化自不同寄主的稻螟赤眼蜂的寄主选择和寄生行为,研究了两种繁育寄主对稻螟赤眼蜂寄生能力的影响,为田间防治水稻螟虫提供参考信息。【方法】室内利用选择试验观察了由米蛾卵和二化螟卵繁育出的稻螟赤眼蜂对两种寄主的选择趋性及在两种寄主上的寄生行为和寄生能力,统计了羽化子代蜂的寿命。【结果】由二化螟卵繁育的稻螟赤眼蜂表现出了对二化螟卵的选择偏好,而米蛾卵繁育的稻螟赤眼蜂在米蛾卵和二化螟卵间没有表现出寄主选择偏好。寄主搜寻时间不受繁育寄主及供试寄主的影响,卵表探测时间和穿刺及产卵时间不受繁育寄主的影响,但同一寄主繁育的稻螟赤眼蜂在米蛾卵上的卵表探测时间显著长于在二化螟卵上的卵表检测时间。除二化螟卵繁育蜂寄生二化螟卵时的寄生率（36.95%）和羽化率（45.68%）较低外,米蛾卵繁育蜂寄生米蛾卵或二化螟卵以及二化螟卵繁育蜂寄生米蛾卵等3组处理间的寄生率、羽化率均无显著差异,各处理组间子代蜂寿命也无显著差异。【结论】繁育寄主影响稻螟赤眼蜂的寄主选择和寄生能力,但不影响寄生蜂搜寻寄主的能力和寄生行为。     

米蛾对三种赤眼蜂的适合性及被寄生后卵内游离氨基酸含量的变化

寄生发生前寄生蜂的寄生行为及寄生发生后寄生蜂的生长发育情况能够反映出寄主对寄生蜂的适合性,而寄生蜂对寄主营养物质的吸收和利用是寄生蜂完成发育的生理基础。为了从寄生蜂利用寄主营养能力的角度探讨寄主对不同种赤眼蜂适合性变化的原因,本文观察了以米蛾Corcyra cephalonica Stainton卵为寄主时拟澳洲赤眼蜂Trichogramma confusumViggiani、松毛虫赤眼蜂T. dendrolimi Matsumura和玉米螟赤眼蜂T. ostriniae Pang et Chen的寄生行为及发育和存活情况,测定了被寄生米蛾卵内游离氨基酸的含量 。结果发现,玉米螟赤眼蜂的产卵时间为84.9 s,显著长于拟澳洲赤眼蜂和松毛虫赤眼蜂的产卵时间。拟澳洲赤眼蜂检测寄主所需时间为30.8 s,显著长于玉米螟赤眼蜂和松毛虫赤眼蜂所需时间,但从每寄主卵中羽化出的拟澳洲赤眼蜂数量显著高于松毛虫赤眼蜂及玉米螟赤眼蜂寄生的结果。3种赤眼蜂卵+幼虫的发育历期间不存在显著差异,但卵成虫的发育历期间存在显著差异。玉米螟赤眼蜂幼虫期和预蛹期的死亡率均显著高于拟澳洲赤眼蜂和松毛虫赤眼蜂相应虫期的死亡率。这些结果表明：米蛾卵对松毛虫赤眼蜂及拟澳洲赤眼蜂的适合性高于对玉米螟赤眼蜂的适合性。未被寄生的米蛾卵内游离氨基酸的总量在24～96 h时间段内从开始的2.194 mg/mL逐渐下降到1.565 mg/mL,而被寄生的米蛾卵内游离氨基酸总量均出现先升高后下降的现象。被松毛虫赤眼蜂和拟澳洲赤眼蜂寄生的米蛾卵内游离氨基酸总量在48 h达到最高值,分别为4.239 mg/mL和3.222 mg/mL,被玉米螟赤眼蜂寄生的米蛾在72 h达到最高值,为4 .323 mg/mL,显示同玉米螟赤眼蜂相比,松毛虫赤眼蜂和拟澳洲赤眼蜂能够更快地分解利用寄主营养。这些结果提示,3种赤眼蜂利用米蛾卵内营养物质能力的不同导致了米蛾卵对3种蜂适合性的不同。     

螟黄赤眼蜂的个体发育

螟黄赤眼蜂广泛应用于多种农林害虫的生物防治,常用米蛾卵进行规模化繁育。本文观察了螟黄赤眼蜂在米蛾卵中的个体发育过程。结果发现,在26℃±1℃的条件下,螟黄赤眼蜂从产卵到成虫的个体发育过程历时8 d,其中胚胎期26 h,幼虫期36 h,预蛹期48 h,蛹期84 h,在产卵后的192 h后成虫开始羽化。螟黄赤眼蜂卵为白色透明的棒状,随着胚胎发育时间的增加,其长径和短径逐渐变大,但两者之比逐渐减少;刚进入幼虫期的虫体长径与短径之比较大,虫体上下宽度基本相等,但体积随取食而快速增加;虫体出现梅花斑和米蛾卵卵壳颜色变黑是进入预蛹期的标志;蛹的头、胸和腹部明显分界,梅花斑消失,腹部二条黑带逐渐横贯整个腹背面,复眼随着时间的增加逐渐加深,最后为深红色。经过192 h的发育,螟黄赤眼蜂成虫羽化,咬破米蛾卵壳而出。     

冷藏温度及时间对稻螟赤眼蜂品质的影响

稻螟赤眼蜂Trichogramma japonicum Ashmead是水稻螟虫的重要卵寄生性天敌,对水稻螟虫的自然种群有着一定的控制作用。本文以稻螟赤眼蜂预蛹期作为冷藏时期,在0、3、6、10℃4个温度和0、5、10、15、20、25、30 d 7个冷藏时间条件下,以羽化率、雌蜂百分率、寄生米蛾卵数量、雌蜂寿命、种群趋势指数作为指标,调查了冷藏对稻螟赤眼蜂品质的影响。研究表明,在4个温度下,稻螟赤眼蜂各指标均随着冷藏时间的增加而降低。各冷藏温度中,以0℃最为敏感,冷藏至5 d时,羽化率(38.11%)和寄生米蛾卵数量(19.4粒)显著低于未冷藏处理;冷藏至15 d时,雌蜂寿命由3.1 d降至1.9 d,种群趋势指数由23.36下降至1.07。10℃下,稻螟赤眼蜂各指标下降最为缓慢,冷藏至10 d时,羽化率(85.35%)和寄生米蛾卵数量(24.3个)与冷藏0 d的差异不显著;冷藏至15 d时,雌蜂寿命(2.7 d)与冷藏0 d的差异也不显著,种群趋势指数为12.52。综合各指标,工厂化繁殖稻螟赤眼蜂时,其适宜冷藏温度为10℃,冷藏时间为10 d。     

Cold storage of Trichogramma ostriniae reared on Sitotroga cerealella eggs

Efficient storage of the biological controlagent Trichogramma ostriniae couldimprove current parasitoid production methodsby making the system more flexible andefficient. Initial studies compared emergencerates of T. ostriniae reared onSitotroga cerealella eggs held at 6 °C, 9 °C, 12 °C,15 °C, and 24 °C for up to 8 weeks after parasitism.At 15 °C, emergence occurred in <2 weeks.Emeregence was >80% for parasitized eggsstored at 9 °C and 12 °C for 4 and 6 weeksrespectively. Storage at 6 °C caused asignificant decline in emergence after 2 weeks. Subsequent trials focused on fitness of storedT. ostriniae. Percentage of emergedfemales parasitizing eggs, female longevity,and fecundity were quantified after storage.The percentage of females successfullyparasitizing O. nubilalis eggs wasgreatest for the 9 °C four-week treatment(100%). Compared to 24 °C controls, storage at12 °C for 6 weeks or at 9 °C for 8 weeks reduced thepercentage of females parasitizing. Longevityof females held in cold storage was generallyless than that of controls. Rates of parasitismby stored Trichogramma was generallysimilar to controls after 2 to 4 weeks' storageat 9 °C and 12 °C but declined with storage longerthan 4 weeks. Emergence of progeny of cold-storedfemales was lower than controls for alltreatments. The percentage of female progenyfrom cold stored females was comparable tocontrols up to 4 weeks of storage.     

拟澳洲赤眼蜂和短管赤眼蜂在米蛾多卵上的种间竞争

1引言 小菜蛾(Plutella xylostella)是十字花科蔬菜的一种重要害虫.20世纪70年代以来,化学杀虫剂的大量使用和抗性的产生.使小菜蛾成为南亚、东南亚和中国南方蔬菜生产中最为严重的害虫[8,22].因此,寻求安全有效的生物防治措施是防治小菜蛾的必要途径[23].赤眼蜂(Trichogramma)是一类多食性的卵寄生蜂,近百年来已被成功地用于防治为害多种作物及森林的害虫[21],但研究和利用赤眼蜂防治小菜蛾只有10来年的历史[12,23].     

拟澳洲赤眼蜂和短管赤眼蜂在米蛾卵上的种间竞争

By means of single and mixed inoculation, this paper studied the interspecific competition between T. confusum and T. pretiosum on the factitious eggs of Corcyra cephaloica under different parasitoid densities, host densities and inoculated spaces. The results showed that for both singly and mixed inoculated groups, the parasitism increased with parasitoid density but decreased with host density, whereas the percentage of female progeny dropped with parasitoid density but enhanced with host density. No significant effect was observed on adult emergence for all parasitoid and host density treatments. In mixed inoculated group, the proportion of T. pretiosum in the progeny decreased with parasitoid density but increased with host density, and was more than 50% in all treatments, indicating that T. pretiosum had a stronger competitive ability than T. confusum. In the spaces ranging from 4cm^3 to 102cm^3, the parasitism decreased gradually in both singly and mixed inoculated groups. The percentage of female progeny and adult emergence had no significant difference among different inoculated spaces. In mixed inoculated group, the proportion of T. pretiosum in the progeny was more than 50% in all treatments except space 102 cm3, but decreased with space, which suggested that T. confusum could improve their competitive ability through increasing their search areas and looking for more hosts.     

Comparison of artificial diets for rearing Corcyra cephalonica (Stainton, 1865) (Lep., Pyralidae) for Trichogramma mass production

The objective of this research was, based on biological studies, to determine and adequate diet for rearing Corcyra cephalonica (Stainton, 1865) in the laboratory so as to permit the rearing of this factitious host for Trichogramma mass production. The research was conducted at 25 +/- 1 degrees C, RH 60 +/- 10% and photophase of 14 hours. Six artificial diets were compared: a) whole wheat flour (48.5%), ground rice (48.5%) and sugar (3%); b) ground rice (97%) and sugar (3%); c) whole wheat flour (48.5%), rice flour (48.5%) an sugar (3%); d) whole wheat flour (97%) and yeast (3%); e) wheat germ (97%) and yeast (3%); f) rice bran (94%), sugar (3%) and yeast (3%); f) rice bran (94%), sugar (3%) and yeast (3%). All of the diets studied permitted the development of C. cephalonica although the diets with wheat germ and yeast and that consisting of rice bran, sugar and yeast proved to be the most adequate for rearing the moth. These diets reduced the total (egg-adult) cycle, shortened the egg laying period, and produced heavier adults. Studies on the fertility life tables showed that higher net reproduction rates (Ro) and finite ratio of increase (lambda) were obtained from adults reared on these diets.     

Conservation of Ephestia kuehniella eggs as hosts for Trichogramma ostriniae

Mass rearing of numerous biological control agents depends on large amounts of factitious hosts like Ephestia kuehniella eggs. Moreover, production of some parasitoids, such as Trichogramma, requires hosts of high quality. The objective of this study was to determine the optimal conservation method that allows E. kuehniella eggs to remain suitable for parasitism and development of Trichogramma ostriniae for the longest period of time. Fifteen sterilization–conservation treatments were compared: nine consisting of submersion of the eggs in liquid nitrogen as a conservation mode, two consisting of sterilization of the eggs with UV and four consisting of sterilization with freezing at ?15°C. Liquid nitrogen submersion of E. kuehniella eggs did not allow the production of T. ostriniae. The sterilization by exposition to UV light followed by conservation using vacuum packing and refrigeration at 4°C provided the longest conservation of E. kuehniella eggs for T. ostriniae rearing. It was the only treatment (75.4 ± 4.62%) for which the parasitism rate remained over 70% after 2 weeks.