非稻田生境中稻飞虱卵寄生蜂群落结构研究

研究发现稻田周围田埂、路边禾本科杂草上栖息着能寄生于稻飞虱卵的寄生蜂有缨小蜂科和赤眼蜂科两类,它们是非稻田生境中稻飞虱卵寄生蜂群落的重要成员.群落中,缨小蜂科数量较多,其四个属中,数量上Anagrus＞Gonatocerus＞Neurotes＞Mymar;赤眼蜂科数量较少,所占比率小于9%.非综防区化学农药的毒性和残效加重了生境中寄生蜂生存压力,造成群落中多个物种占有优势地位,而稻飞虱主要天敌-缨小蜂的优势被削弱,不如综防区群落中缨小蜂的优势地位突出.     

稻田稻飞虱卵寄生蜂群落的重建和维持

研究了综防区和非综防区稻田飞虱卵寄生蜂群落的重建和维持。结果表明：早稻生长期,稻虱缨小蜂Anagrus nilaparvatae 和拟稻虱缨小蜂 A. paranilaparvatae 在水稻移栽后第9天进入综防区稻田,在第13天进入非综防区稻田,同在第21天完成群落重建,重建速率分别是0.28种/天和0.21种/天。晚稻生长期,综防区和非综防区稻虱缨小蜂和拟稻虱缨小蜂均在水稻移植后第1天进田,至第21天完成群落重建,重建速率分别是0.12种/天和0.04种/天。维持阶段综防区群落较非综防区稳定。群落重建和维持受温度、种库中卵寄生蜂种类和数量、种库距稻田的远近、稻田中害虫种类和数量以及害虫防治策略的影响。     

稻田飞虱卵寄生蜂群落结构和动态的初步研究

报道了广东省四会市大沙镇稻田中褐飞虱Nilaparvata lugens卵期寄生蜂的结构和动态。该群落由缨小蜂科和赤眼蜂科的6个属、共19种卵寄生蜂组成。其中,稻虱缨小蜂Anagrus nilaparvatae、长管稻虱缨小蜂A. longitubulosus和拟稻虱缨小蜂A. paranilaparvatae是群落中的优势种群,它们对控制褐飞虱种群卵期的存活率起主要作用。6个属在群落中的优势地位相对稳定,但不同物种包括优势种类在群落中的地位并不稳定。早、晚稻前期,群落的寄生蜂数量与稻田褐飞虱数量正相关;中期,寄生蜂数量在一定的范围内波动;后期,其数量先上升,然后急剧下降。水稻生长前、中和后期,寄生蜂对褐飞虱卵的平均寄生率分别约为76%,70%和50%。     

综防区和非综区稻田生境中褐飞虱卵寄生蜂群落的比较

褐飞虱 ( Nilaparvatlugens)是一类水稻主要害虫。由于稻飞虱对抗虫水稻品种的适应 ,以及化学农药的毒副作用 ,其间歇性大发生的局面仍没有改变 ,因此 ,以保护利用自然天敌为主的生物防治方法日益受到重视。褐飞虱的天敌种类很多 [1～ 4 ] ,对褐飞虱的控制作用不是由某一种或几种完成的 ,而是褐飞虱天敌群落共同作用的结果 ,因而有必要在群落水平上研究褐飞虱天敌 ,了解天敌群落的结构和动态 ,从而使天敌对褐飞虱的控制作用更好地发挥。本文对综防区和非综防区稻田生境中稻飞虱卵寄生蜂群落的结构和动态进行了比较研究。1　材料与方法1 .1…     

不同生境源的稻飞虱卵寄生蜂对寄主的选择和寄生特眭

稻飞虱重要卵寄生蜂缨小蜂Anagrus flaveolus、A optabilis和寡索赤眼蜂Oligosita aesopi、O.Naias均能在稻田和稻田周围的非稻田生境中生存。而.Ftaveolus为优势种。不同生境来源的卵寄生蜂有着不同的寄生和选择特性。缨小蜂A.Flaveolus能在飞虱科内转换寄主,但需1～2代的适应期。寄主卵对寡索赤眼蜂O.Aesopi的寄生有较大的影响,用褐飞虱和黑尾叶蝉诱集的O.Aesopi呼;不能交叉寄生。稻田内诱集的寄生蜂选择稻飞虱,而杂草地中诱集的缨小蜂则对飞虱T.Pusanus有一定的选择性。非稻田生境对保护稻飞虱卵寄生蜂有很大的作用,但对其寄生特性有较大的影响。     

大豆、玉米与水稻配置对稻田寄生蜂的影响

本文研究了稻田生境和非稻田生境间寄生性天敌的迁移扩散规律及其对水稻主要害虫的控制作用.结果表明,寄生蜂从大豆生境扩散到稻田生境的数量显著高于其从玉米生境扩散到稻田生境,而田埂种植玉米的寄生蜂扩散数量与不种植玉米相比无显著性差异.田埂配置大豆的有机稻田内二化螟Chilo suppressalis、三化螟Tryporyza incertulas、稻纵卷叶螟Cnaphalocrocis medinalis cnienee和褐飞虱Nilaparvata lugens的卵寄生率分别为17.8％,20.3％,10.2％和12.4％,与未配置大豆的对照相比分别增加了4.3％,7.5％,2.1％,和3.4％;它们的幼虫寄生率分别为14.7％,31.7％,21.3％,7.3％,与对照相比分别增加了5.3％,9.8％,5.7％和2.8％.而田埂配置玉米的有机稻田的二化螟,三化螟,稻纵卷叶螟和褐飞虱的卵寄生率分别为10.3％,14.4％,8.6％和9.3％;与未配置玉米的对照相比分别降低了3.2％,增加1.6％,0.5％和0.3％;它们的幼虫寄生率分别为10.3％,19.4％,17.5％和2.6％,与对照相比分别增加了0.9％,降低了2.5％,增加了1.9％和降低了1.9％.研究结果可为通过建立合理的水稻邻作模式进行害虫生物防治提供重要科学依据.     

稻田及其毗邻杂草地寄生蜂群落结构与特征

通过在稻田及其毗邻杂草地的系统调查、采集和室内标本鉴定,获知稻田中有67种寄生蜂,隶属16科;毗邻杂草地中有96种寄生蜂,隶属19科。稻田生境中的寄生蜂物种数占稻田天敌总物种数的45．89％,杂草生境中的寄生蜂物种数占杂草地天敌总物种数的46．60％。对稻田及其毗邻杂草地寄生蜂群落的各种属性指标进行比较研究,结果表明：杂草地寄生蜂群落的丰富度、多样性、优势集中度指数均比稻田高,而均匀性指数值比稻田低。对杂草生境和稻田生境寄生蜂群落的优势种动态比较可知,寄生蜂优势种在水稻的不同生育期是不相同的,在稻田生境中,优势种稻虱缨小蜂(Anagrus sp．)出现在水稻生育前期和中后期,等腹黑卵蜂(Telenomus dignus)出现在水稻生育后期,稻苞虫黑卵蜂(Telenomus sp．)在水稻生育前中期及后期出现。然而在杂草地中,作为优势种,稻虱缨小蜂出现在水稻生育前期和中期,等腹黑卵蜂出现在水稻生育前中期和后期,稻苞虫黑卵蜂在水稻整个生育期均有出现。两种锤角细蜂(Monelata sp．1和Acropiesta sp．2)是稻田的重要优势种,但不是杂草地的优势种;相反,稻蝽小黑卵蜂(Telenomus gifuensis)是杂草地的重要优势种,但不是稻田的优势种。由此可见,杂草地生境是稻田寄生蜂的种库之一,对稻田节肢动物群落的重建和种群保存有重要影响,因而适当保留田埂杂草和稻田周围的杂草地,减少对天敌的损害,提高天敌对害虫的自然控制作用,是水稻害虫持续控制的途径之一。     

茭白害虫长绿飞虱与稻田缨小蜂关系的研究

茭白害虫长绿飞虱 Saccharosydne procerus是稻虱缨小蜂Anagrus nilaparvatae 在稻田外的主要寄主之一。茭白田可为稻田提供大量的稻虱缨小蜂,从而提高对稻田稻飞虱的控制能力。从褐飞虱和长绿飞虱卵中羽化的稻虱缨小蜂均明显地选择寄生褐飞虱卵,对长绿飞虱卵的寄生率也较高。长绿飞虱在水稻上不能完成其生活史。因此,稻田和茭白田的合理布局可有效地提高稻田缨小蜂的数量,从而提高该寄生蜂对有关害虫的生防效益。     

华南双季稻区早稻收割和晚稻移栽对褐飞虱种群动态的影响

为了阐明华南双季稻区早稻收割和晚稻移栽对褐飞虱种群动态的影响,2011年在韶关市采用田间调查与卵巢解剖的方法研究了双季早稻、双季晚稻、田埂杂草上褐飞虱的种群动态及虫源性质。结果表明:早稻收割后,早稻上大量的褐飞虱1～2龄若虫被淘汰,3龄以上若虫及成虫不断转移扩散致使附近晚稻秧田和杂草上褐飞虱虫量突增;晚稻移栽之后,杂草及晚稻秧田的褐飞虱又向新插秧的晚稻进行转移,但成为有效虫源的虫量较少,因此,早稻收割和晚稻移栽对褐飞虱种群动态造成了极为不利的影响,晚稻秧田和田埂杂草可作为褐飞虱转移过程中的流动栖息场所,在褐飞虱虫量转移中起着一定的作用。     

稻田节肢动物群落的多样性及对褐飞虱的控制功能

对江苏江浦及安徽安庆两地五种类型稻田的节肢动物群落生物多样性研究表明,以对褐飞虱Nilaparvata lugens具有抗性的粳稻田多样性指数最高。稻田蜘蛛亚群落与褐飞虱种群数量变化间存在明显的相关性,11年中64%的年份表现为显著相关。利用天敌功能指数EF=（E+P）^E/P、数值反应的方法研究了稻田蜘蛛功能团与褐飞虱种群间的生存、繁殖和数量关系,结果表明,初始EF值与褐飞虱对水稻的危害率及褐飞虱种群的未来最大饱和容量K值间呈显著相关。本文讨论了利用初始EF值来预测天敌对害虫的功能作用及生物防治与化学防治协调的可能性。     

Seasonal patterns of egg parasitism and natural biological control of rice brown planthopper in Indonesia

1 Egg mortality is known to be an important factor in brown planthopper (BPH) (Nilaparvata lugens) population dynamics in tropical Asia, but few quantitative data are available on the role of egg parasitoids. 2 Field studies are reported at two sites in Java, Indonesia, over a period of 4 years in both wet and dry seasons, where no chemical pesticides were used. Rice plants previously infested in the laboratory with BPH eggs were exposed to natural parasitism and predation in experimental fields for periods of 5 days. 3 Egg batches were dissected from both experimental and control plants after field exposure at seven fortnightly intervals through the rice growing season and BPH nymphs and adult parasitoids were allowed to emerge. 4 Parasitism by species of Oligosita (Hymenopera, Trichogrammatidae) and Anagrus (Hym., Mymaridae) varied between 18% and 61% in dry, and from 1% to 65% in wet, seasons. There was generally a trend from low to higher rates through wet seasons, contrasting with more uniform higher levels through dry seasons. 5 Reduction in BPH survival as a result of egg parasitism varied between 29% and 91%. Generally parasitism was density independent. 6 It is suggested that lower initial levels of parasitism in dry seasons may be due to the longer fallow period between dry and wet, than between wet and dry, resulting in lower local populations of appropriate natural enemies. 7 Unlike previous studies in Asia, little evidence was found for egg predation as an important mortality factor. 8 The conservation of egg parasitoids should form part of any rice pest management programmes in tropical Asia.     

水稻品种和施肥时间对单季稻田中白背飞虱卵被寄生率的影响

为明确水稻品种和施肥时间对白背飞虱Sogatella furcifera (Horvath)卵被稻飞虱缨小蜂Anagrus spp.寄生率的影响,采用产卵苗诱集法和田间双因子设计进行实验研究。与秀水11水稻品种相比,协优413品种上的白背飞虱卵块位置较高且卵块较大。诱集实验表明白背飞虱卵的被寄生率显著受用于诱集的产卵水稻品种的影响, 在协优413上所产卵的被寄生率（24%）显著高于秀水11上的相应值（12%）,而不受由田间品种和氮肥施用时间组合而形成的诱集苗所置放的栖境条件的影响。田间种植的水稻品种对其稻株上的白背飞虱卵被寄生率的影响大于施肥时间, 在卵高峰期,这种影响更为显著, 协优413上的被寄生率（17%）显著高于秀水11上的相应值（9%）。田间寄生率和诱集寄生率二者的反正弦平方根转换值间存在着极显著的直线相关。这些结果表明,水稻品种是加强白背飞虱自然生物防治的重要因子。     

Field response of aboveground non-target arthropod community to transgenic Bt-Cry1Ab rice plant residues in postharvest seasons

Risk assessments of ecological effects of transgenic rice expressing lepidoptera-Cry proteins from Bacillus thuringiensis (Bt) on non-target arthropods have primarily focused on rice plants during cropping season, whereas few studies have investigated the effects in postharvest periods. Harvested rice fallow fields provide a critical over-wintering habitat for arthropods in the Chinese rice ecosystems, particularly in the southern region of the country. During 2006-08, two independent field trials were conducted in Chongqing, China to investigate the effects of transgenic Cry1Ab rice residues on non-target arthropod communities. In each trial, pitfall traps were used to sample arthropods in field plots planted with one non-Bt variety and two Bt rice lines expressing the Cry1Ab protein. Aboveground arthropods in the trial plots during the postharvest season were abundant, while community densities varied significantly between the two trials. A total of 52,386 individual insects and spiders, representing 93 families, was captured in the two trials. Predominant arthropods sampled were detritivores, which accounted for 91.9% of the total captures. Other arthropods sampled included predators (4.2%), herbivores (3.2%), and parasitoids (0.7%). In general, there were no significant differences among non-Bt and Bt rice plots in all arthropod community-specific parameters for both trials, suggesting no adverse impact of the Bt rice plant residues on the aboveground non-target arthropod communities during the postharvest season. The results of this study provide additional evidence that Bt rice is safe to non-target arthropod communities in the Chinese rice ecosystems.     

麦田昆虫群落的结构与时序动态

采用目测法和网捕法 ,通过对小麦整个生长季节内昆虫群落的系统调查 ,共查得昆虫11目 2 3科 36种 ,其中捕食性昆虫有 4目 5科 12种、寄生性昆虫有 2目 3科 4种、植食性昆虫有 5目 12科 15种、粪食性等其他类昆虫有 1目 3科 5种。在捕食性天敌昆虫中 ,瓢虫的种类和数量最多 ,其次为草蛉和食蚜蝇 ;在寄生性天敌昆虫中 ,蚜茧蜂为优势种 ,其次为寄蝇 ;在植食性昆虫中 ,麦长管蚜为绝对的优势种 ,其次为赤须盲蝽、灰飞虱和麦蓟马。天敌昆虫对害虫具有明显的跟随现象 ,不能有效地控制麦长管蚜的发生与危害。依据昆虫群落的组成与结构 ,结合小麦生育期 ,采用最优分割法将麦田昆虫群落动态划分为 5个阶段 ,并指出不同阶段昆虫群落特点及相应的害虫防治策略。     

Experimental field studies on predation and egg parasitism of rice brown planthopper in Indonesia

• 1 Egg parasitism and general predation are known to be important mortality factors in the population dynamics of rice brown planthopper (BPH) Nilaparvata lugens in tropical Asia, but previous studies have not attempted to quantify and compare them.
• 2 Field experiments in Java, Indonesia, are reported for 1993 and 1994. Plants previously infested with BPH eggs were put out in field cage‐enclosures, which, by means of different size mesh gauze covering, allowed either: (1) free access to all natural enemies, (2) access only to egg parasitoids, or (3) no access to any natural enemies.
• 3 After one BPH generation (30 days), numbers of adults and gravid females were counted for each treatment. In addition, plants were dissected to determine the numbers of eggs laid.
• 4 An additional treatment in which all natural enemies were excluded, but lycosid spiders were added, was used in 1994 experiments in an attempt to assess the effects of predators in the absence of egg parasitoids.
• 5 Numbers of BPH adults and eggs laid were highest when natural enemies were excluded and lowest when they had free access. Mortality due to egg parasitoids in the absence of predators was intermediate and significantly different to the two other treatments.
• 6 The effects of added predators in the absence of egg parasitoids gave variable results, but again clearly demonstrated the significance of egg parasitism in overall BPH mortality.
• 7 The conservation of BPH egg parasitoids should form an important element of any rice pest management programme in tropical Asia.

     

Host plants alter their volatiles to help a solitary egg parasitoid distinguish habitats with parasitized hosts from those without

When attacked by herbivores, plants emit volatiles to attract parasitoids and predators of herbivores. However, our understanding of the effect of plant volatiles on the subsequent behaviour of conspecific parasitoids when herbivores on plants are parasitized is limited. In this study, rice plants were infested with gravid females of the brown planthopper (BPH) Nilaparvata lugens for 24 hr followed by another 24 hr in which the BPH eggs on plants were permitted to be parasitized by their egg parasitoid, Anagrus nilaparvatae; volatiles from rice plants that underwent such treatment were less attractive to subsequent conspecific parasitoids compared to the volatiles from plants infested with gravid BPH females alone. Chemical analysis revealed that levels of JA and JA-Ile as well as of four volatile compounds—linalool, MeSA, α-zingiberene and an unknown compound—from plants infested with BPH and parasitized by wasps were significantly higher than levels of these compounds from BPH-infested plants. Laboratory and field bioassays revealed that one of the four increased chemicals—α-zingiberene—reduced the plant's attractiveness to the parasitoid. These results suggest that host plants can fine-tune their volatiles to help egg parasitoids distinguish host habitats with parasitized hosts from those without.