褐稻虱再猖獗原因的探讨

近十几年来,褐稻虱(Nilaparvata lugens)(Stál),大量杀虫剂用于褐稻虱的防治,用药不当往往造成褐稻虱的再猖獗,严重影响产量。本文报道了:(1)浙江稻田天敌的控制作用:缨小蜂对褐稻虱卵的寄生率约22％;褐稻虱的成、若虫被螯蜂、线虫等的寄生率在1984年为29.4％,在1983年为15.2％。黑肩绿盲蝽的功能反应为: N_a=N/(8.294+0.058N) (2)杀虫剂对害虫——天敌(蜘蛛)的影响,介绍了简单的杀虫剂内禀选择性测定方法: a)在室内,内禀选择性指数 P=天敌的L_(D50)/害虫的L_(D50)-1 b)在田间,某些杀虫剂对褐稻虱一蜘蛛的杀伤试验。 (3)某些杀虫剂对褐稻虱生育力的影响。 本文认为引起褐稻虱再猖獗的因素是复杂的,但是从害虫一天敌系统在种群动态,生态学上可分二类:一类是杀虫剂促进菜种害虫的种群增加:如刺激生育力,另一类是破坏了天敌的自然控制作用如使用大量杀伤天敌的药剂、不适当的施药方式和施药时间等。     

抗性水稻品种对褐飞虱和白背飞虱种群参数的影响

在半自然状态下 ,用生命表方法初步比较了褐飞虱Nilaparvatalugens和白背飞虱Sogatellafurcif era在 4个抗褐飞虱水稻品种ASD7,IR3 6,JX89和Mudgo上的种群参数。初步的结果表明 ,白背飞虱在 4个抗褐飞虱水稻品种上具有较高的繁殖率 ,较短的发育时间和较大的种群增长。对褐飞虱各种群参数影响最大的是JX89,对白背飞虱影响最大的是Mudgo。与感性品种TN1比较 ,这些抗褐飞虱的水稻品种对 2种稻飞虱均具有不同程度的抗性。这些结果说明 ,抗褐飞虱水稻品种对白背飞虱同样具有一定的抗性 ,但白背飞虱对这种抗性具有较强的适应性 ,如果在一个地区长期推广抗褐飞虱的水稻品种 ,势必会导致白背飞虱的大发生     

灰飞虱与褐飞虱种内和种间密度效应比较

在人工气候室内比较研究了灰飞虱和褐飞虱在汕优63和秀水11上的种内和种间密度效应对其主要生物学参数的影响,结果表明两种稻飞虱均存在显著的种内竞争,主要表现为随着密度增加,若虫发育历期延长、若虫羽化率下降、雌成虫寿命缩短、每雌产卵量下降。种内密度效应与稻飞虱种类和寄主品种有显著互作关系,灰飞虱种内竞争较褐飞虱明显,二者在适宜寄主上种内竞争更为明显。同时,两种稻飞虱存在着显著的种间密度效应,主要表现为异种存在时的促进作用,即异种共存时若虫历期缩短、若虫羽化率提高、雌虫寿命延长、每雌产卵量增加。种间密度效应也与稻飞虱种类和寄主品种有显著互作关系,两种共存对灰飞虱的有利作用显著大于对褐飞虱的有利作用,在欠适宜寄主上种间互利效应更为明显。最后,本文对稻飞虱种内和种间密度效应的机制和进化意义进行了讨论。     

Experiences in educating rice farmers to understand biological control

Traditionally, rice farmers in Asia were thought to be unable to comprehend biological control because it was too esoteric. This perception was exacerbated by vested interest that prefers to maintain monopoly of information. Hence, between 1950 to 1990, the preferred method of extending technical information to farmers was to package them in “simplistic” messages. For example, prophylactic chemical control was a common approach of many extension systems in Asian economies during that period despite evidence from ecological studies to the contrary. In fact, the dogma that chemical control is equal to modern agriculture persists to this day in some countries. Such an approach often exaggerated yield loss figures to scare and justify use of chemical insecticides which eventually resulted in further yield losses. There has been increasing evidence that in tropical Asia, natural enemies are ubiquitous in rice fields and are responsible for keeping populations of rice herbivores in check. The rise of the brown planthopper as a serious pest was linked to regular use of insecticides. Outbreaks of this delphacid in tropical rice resulted from destruction of effective predators. With the help of biological control scientists, the FAO Intercountry Programme for Integrated Pest Control in South and Southeast Asia (ICP) presented evidence to the President of Indonesia in 1986 and secured a ban of 57 types of insecticides from rice fields. Promulgating legislative actions was a start and to sustain it an education programme to help farmers understand the importance of biological control was developed. This programme recognised that a traditional top-down process of instructing farmers would not help farmers and a non-formal education process of learning by experimenting and discovery was formulated. This approach emphasised the need for farmers to understand the rice ecosystem. Hence, rice fields became classrooms for farmers participating in the Farmer Field Schools. Farmers learned that not ail arthropods in the field are pests and to their surprise, most of the arthropods are “friendly“ insects. They discovered that these friendly insects eat herbivores. Using insecticide check and exclusion cage experiments, farmers learned of the adverse impact of insecticides and the impact of predators in keeping herbivore populations in check. The curriculum includes crop physiology, agronomy, health risks to insecticides and group dynamics. The principles of IPM emphasised in the Farmer Field Schools are: 1) Grow a healthy crop; 2) Visit fields regularly, preferably once a week to monitor field situation; 3) Understand and conserve natural enemies; 4) Farmers become experts in pest management. Adoption of this approach has led to a 60% drop in use of insecticides resulting in 13% increase in yield. Similar results were achieved in Vietnam and the Philippines. Facilitating farmers to understand biological control through field investigations is the key to successful implementation of Integrated Pest Management     

Monitoring on Insecticide Resistance of the Brown Planthopper and the White Backed Planthopper in Asia

Annual change in insecticide susceptibility of the long-range migrating rice insects, the brown planthopper (BPH) and the white backed planthopper (WBPH), monitored by topical application was reviewed covering temperate and tropical Asia. Monitoring in Japan revealed consistent increase in topical LD₅₀ of BPH for various insecticides during the period between 1967 and 1983 with small peak in 1979 and abrupt increase occurred in 1984 and 1985 with the highest peak ever observed, and then recovered to the 1979 level and remain unchanged to the present. The WBPH showed no obvious change until 1984 when marked increase in LD₃₀, especially for the organoosphates occurred and gradual increase still continues. In the tropics, recent data on BPH obtained from Vietnam, Thailand and Malaysia shows apparent development of insecticide resistance with remarkable increase in LD₅₀ as compared to the late 1970's data. Present level of insecticide susceptibility is close to those in temperate Asia. WBPH from those tropical zone also showed remarkable increase in LD₅₀ during the last two decades.     

Effects of nitrogen on the tolerance of brown planthopper, Nilaparvata Lugens, to adverse environmental factors

The effect of nitrogen content in rice plants on the tolerance of brown planthopper (BPH), Nilaparvata lugens Stal to high temperature, starvation and insecticide, was studied in the laboratory at International Rice Research Institute (IRRI), Philippines. Survival of nymphs and adults, fecundity and egg hatchability were significantly increased by the increase of nitrogen content in host plants at 38℃. Moreover, the survival of nymphs,fecundity and egg hatchability were significantly higher in BPH populations on rice plants with a high nitrogen regimen than those on rice plants with a low nitrogen regimen.Meanwhile, the tolerance of female adults to starvation and nymphs to growth regulator buprofezin on rice plants with a high nitrogen regimen were slightly increased. This indicates that the tolerances of BPH to adverse environmental stresses were positively increased by the application of nitrogenous fertilizer. The outbreak potential of BPH induced by the excessive application of fertilizer in rice fields was also discussed.     

Changing patterns of the East Asian monsoon drive shifts in migration and abundance of a globally important rice pest

Numerous insects including pests and beneficial species undertake windborne migrations over hundreds of kilometers. In East Asia, climate-induced changes in large-scale atmospheric circulation systems are affecting wind-fields and precipitation zones and these, in turn, are changing migration patterns. We examined the consequences in a serious rice pest, the brown planthopper (BPH, Nilaparvata lugens) in East China. BPH cannot overwinter in temperate East Asia, and infestations there are initiated by several waves of windborne spring or summer migrants originating from tropical areas in Indochina. The East Asian summer monsoon, characterized by abundant rainfall and southerly winds, is of critical importance for these northward movements. We analyzed a 42-year dataset of meteorological parameters and catches of BPH from a standardized network of 341 light-traps in South and East China. We show that south of the Yangtze River during summer, southwesterly winds have weakened and rainfall increased, while the summer precipitation has decreased further north on the Jianghuai Plain. Together, these changes have resulted in shorter migratory journeys for BPH leaving South China. As a result, pest outbreaks of BPH in the key rice-growing area of the Lower Yangtze River Valley (LYRV) have declined since 2001. We show that these changes to the East Asian summer monsoon weather parameters are driven by shifts in the position and intensity of the Western Pacific subtropical high (WPSH) system that have occurred during the last 20 years. As a result, the relationship between WPSH intensity and BPH immigration that was previously used to predict the size of the immigration to the LYRV has now broken down. Our results demonstrate that migration patterns of a serious rice pest have shifted in response to the climate-induced changes in precipitation and wind pattern, with significant consequences for the population management of migratory pests.     

我国北方稻区1991年稻飞虱大发生虫源形成

北方稻区在一般年份只有少量稻飞虱（褐飞虱Nilaparvata lugens,白背飞虱Sogatella fercifera)迁入,而与虫源区相隔千余公里的沿渤海湾稻区却在1991年稻飞虱暴发成灾,通过分析1991年各地稻飞虱主要迁入峰期的天气学背景和低空急流的时空分布及我国东部稻作区各地虫源的对应关系,表明大尺度低空急流的时空动态与南方（江岭区）大发生虫源的迁出期（区）相吻合的程度及维持时间乃北方稻虱大发生虫源得以形成的关键因子和暴发成灾的触发机制,其北上前缘左侧的暴雨区即远迁种群的集中降虫区,是否存在与南方大发生虫源时空同步且贯通南北的大尺度低空急流及其前缘的暴雨区可作为北方稻虱暴发的预警指标。     

Starvation tolerance of macropter brown planthopper, Nilaparvata lugens, from temperate, subtropical, and tropical populations in East and South-East Asia

We compared the starvation tolerance of macropter brown planthopper, Nilaparvata lugens Stål (Homoptera: Delphacidae), a characteristic favoring long-distance migration, among populations collected from subtropical and temperate East Asia, tropical Indochina, and the Malay Peninsula. Starvation tolerance of planthoppers was significantly affected by climatic zone in which the planthoppers had been collected and by feeding duration after adult eclosion. After 24 h feeding on rice, newly emerged macropters originating from East Asia lived longer without feeding (starvation tolerance) than macropters from the tropical populations. The difference in longevity between the two groups of populations became more conspicuous when macropters fed on rice for 48 or 72 h, indicating that post-eclosion feeding markedly increased starvation tolerance in East Asian populations relative to the tropical populations. These facts provide evidence that N. lugens populations that are adapted for long-distance migration are distributed in subtropical and temperate East Asia. From the data on post-eclosion feeding together with starvation tolerance, we discuss the timing of planthopper takeoff from paddies and the difference in resource allocation (vitellogenesis or stored resources) between East Asian and tropical populations.     

2015年福建省局部地区褐飞虱暴发成灾主要原因分析与防控对策

针对福建省2015年水稻褐飞虱暴发成灾,从昆虫种群生态学原理出发,结合历史相关资料,总结研究了导致2015年褐飞虱暴发成灾的主要原因.褐飞虱本地虫源和外来迁入虫源是重要诱因,极高的种群增长率是决定性关键内因,异常气候与水稻抽穗灌浆期契合形成的适宜环境及食物营养条件是决定性关键外因,田间防治技术问题则是导致灾害并造成重大损失的直接原因.褐飞虱持续治理对策方面,需加强褐飞虱种群监测与预警,开展抗药性监测与治理,实施稻田肥料和农药减施技术,并加强防控应用技术的研究与推广及技术培训,加快推进实施褐飞虱专业化防治.     

2020年江苏省稻飞虱虫源地及暴发成因分析

为了明确江苏省稻飞虱(白背飞虱Sogatella furcifera Horváth和褐飞虱Nilaparvata lugens St?l)在沉寂近10年后再次暴发的成因,通过分析江苏2020年白背飞虱和褐飞虱的田间调查及灯诱数据,并结合气象条件,研究了江苏省稻飞虱暴发的主要影响因素。结果表明：(1)2020年,江苏省白背飞虱虫源主要来自于江西中、北部,湖南东部以及湖北东部;褐飞虱虫源主要来自于安徽南部、浙江北部、本省南部以及江西省中北部。(2)江淮地区自6月中旬至7月下旬的超长降雨期有利于江苏省早期迁入虫源大量降落。(3)9月初,田间已存在大量褐飞虱短翅型成虫,适宜的秋季温度促使田间短翅型褐飞虱大量繁殖,导致后期田间褐飞虱大暴发。总而言之,超长降雨期有利于早期稻飞虱的迁入降落,而秋季的适宜温度引发短翅型成虫大量繁殖,是导致江苏省稻飞虱在沉寂近10年后再次暴发的主要因素。这些结果为稻飞虱暴发规律的阐明及可持续治理提供了理论依据和参考价值。     

Cell culture of the rice brown planthopper,Nilaparvata lugens Stål (Hemiptera: Delphacidae)

The rice brown planthopper (BPH), Nilaparvata lugens (Stål), is one of the most destructive insect pests of rice in Asia. Although resistant rice varieties can be effective in managing planthopper populations, BPH has repeatedly been able to overcome resistant rice varieties. It is possible that BPH adaptation to resistant rice varieties may be related to its endosymbionts. We investigated methods for culturing BPH cells in order to study in-depth interactions between rice, BPH, and its endosymbionts. In this study, we tested EX-CELL? 405, EX-CELL? 420, Mitsuhashi and Maramorosch’s medium, and Kimura’s medium, for in vitro culture of BPH cells. Only Kimura’s medium was found to be suitable for BPH cell culture, and BPH embryos around blastokinetic stage were the best source for BPH cell culture. Cells from BPH embryonic tissues adhered to the plate substrate, and the migration of cells was observed within 24 h in primary culture. After 3 mo of subculture, various types of BPH cells were successfully maintained in the Kimura’s medium.     

水稻褐飞虱综合治理研究与示范——农业公益性行业专项“水稻褐飞虱综合防控技术研究”进展

针对我国褐飞虱Nilaparvata lugens(Stl)近年来严重为害及其对当家农药品种抗性急剧上升的现状,本项目在华中、华南、华东地区等代表性地区开展褐飞虱灾变规律、抗虫品种培育、抗药性监测及复配农药新剂型开发、生态治理新技术研究、预测预报技术、可持续治理技术集成与示范研究。结果表明:越南、老挝等境外虫源地及我国华南、长江中下游等地田间褐飞虱种群仍以2型为主,3型次之。田间小气候是褐飞虱逃避高温的关键因素,褐飞虱在上午气温升高时大量向温度较低的水稻基部20cm范围内转移以逃避高温,将高温天气造成的不利影响降至最低。不同栽插方式对褐飞虱发生量有明显影响,手栽稻田褐飞虱发生最重,机插稻次之,直播稻最轻。不同水稻品种、N肥施用水平对褐飞虱的发生有明显的影响:超级杂交稻褐飞虱虫口密度明显高于常规杂交稻,高N肥施用量促进褐飞虱的发生,且水稻品种与N肥施用量对褐飞虱发生量的影响有明显交互作用。抗药性监测结果表明:我国褐飞虱对吡虫啉有极高水平抗性(168.1～561.5倍),对噻嗪酮为低到中等水平抗性(4.2～33.1倍),对氟虫腈为敏感性降低到高水平抗性(2.7～67.7倍),对烯啶虫胺与毒死蜱为低水平抗性。筛选出噻虫嗪、吡蚜酮、唏啶虫胺和仲丁威4种高效低毒的防治单剂。研制出3种农药复配新制剂,其中1种新制剂已获得农业部药检所正式登记,且规模化生产,2种新制剂已进入农药登记程序。精细定位水稻抗褐飞虱基因Bph6、Bph7、Bph9、Bph15、BG1222,并找到了它们的近距离共分离分子标记。培育出高产、优质、熟期适宜、含有抗稻飞虱基因Bph14的水稻新品种广两优476。储备了一批聚合多抗稻飞虱基因的水稻亲本材料。研发出在田埂种植芝麻、大豆等天敌诱集植物,增加褐飞虱卵期寄生蜂和捕食性天敌蜘蛛的种群数量的轻简化生态调控技术;研发出对褐飞虱成、若虫取食及雌成虫产卵均有驱避作用的植物提取物混配剂3种;研发出显著提高稻虱缨小蜂对田间褐飞虱卵寄生率的引诱剂1种。建立了褐飞虱环境友好防控技术集成体系,并在湖南、湖北、广东、广西、浙江、江西6省区示范应用,取得了良好的经济、生态、社会效益。     

褐飞虱的迁人和翅型分化规律的研究

褐飞虱Nilaparvata lugens(Stal)属迁飞性水稻害虫,其成虫有短翅和长翅两种翅型。 褐飞虱迁入雌虫均未经过交配,其短翅型由一对显性等位基因控制。翅型分化同时受到遗传和内分泌系统的协调控制,外界条件如密度和寄主等因子通过内分泌系统来影响翅型的分化。褐飞虱翅型分化的敏感龄期雌虫为1～3龄,而雄虫为1-5龄;不同若虫蜜度处理对褐飞虱成虫的前翅形成有一定的影响。分蘖期水稻饲养的褐飞虱短翅型比例明显高于孕穗期水稻饲养的褐飞虱。不同密度下各生物型间的翅型分化差异不显著。迁入地的浙江各种群属温带型,其雌虫短翅率低且与密度呈显著负相关;菲律宾热带种群雌虫在不同密度下均为短翅型,而雄虫的短翅率随密度增加而上升。广西种群接近热带型,其雌虫短翅率高但不随密度而变化。试验各种群的雄虫在中等密度甚至高密度时其短翅率出现最高。     

稻飞虱迁飞种群的上灯行为节律研究

【目的】明确稻飞虱迁飞种群的上灯行为节律,以指导其大田迁入种群和迁出种群的发生预测与灾变预警。【方法】本研究运用逐时自动灯诱装置对2010和2011连续两年稻飞虱迁飞种群的上灯行为节律进行了系统研究。【结果】灰飞虱Laodelphax striatellus迁飞种群上灯始见期和灯诱虫量年际间差异不明显,白背飞虱Sogatella furcifera和褐飞虱Nilaparvata lugens迁飞过境种群上灯始见期和灯诱虫量年际间差异较大。此外,灰飞虱迁飞种群的特大高峰期和高峰期逐时灯诱虫量百分比与一般上灯期和零星上灯期相比突出了晨暮双峰型中的暮峰型上灯行为特点;白背飞虱迁飞种群特大高峰期逐时灯诱虫量百分比与高峰期和一般期相比突出了晨暮双峰型中的晨峰型生物学特性。【结论】稻飞虱迁飞种群的上灯行为节律存在种的特异性,这一行为节律除了受环境因素的影响外主要与其生物学特性有关。     

氮肥影响节肢动物天敌对褐飞虱种群的自然控制作用

氮肥在增加粮食产量的同时也可能对整个农田生态系统产生负面影响。稻田过量施用氮肥后,会提高水稻对害虫的敏感性、改变害虫与天敌之间的关系,最终影响到天敌对害虫的自然控制功能,导致害虫大发生。为了合理、公正地评价施用氮肥对稻田节肢动物天敌对害虫自然控制能力的影响,探索性地应用笼罩的方法在菲律宾国际水稻研究所试验农场稻田中研究了害虫天敌在不同氮肥施用水平(0,100 kg N/hm~2和200 kg N/hm~2)稻田中对褐飞虱的捕食能力及自然控制作用。试验结果表明,旱季田间的捕食性天敌对褐飞虱若虫的捕食能力和主要天敌对褐飞虱种群的自然控制能力均随稻田氮肥施用量的增加而减弱。在雨季,虽然天敌对褐飞虱种群的自然控制能力也随稻田氮肥施用量的增加而减弱,但捕食性天敌对褐飞虱若虫捕食能力的差异不明显。本研究表明,天敌对褐飞虱自然控制能力的减弱是稻田过量施用氮肥后褐飞虱种群猖獗的主要原因之一。     

重庆秀山褐飞虱田间种群动态及其应用

分析23年(1984~2006)重庆市秀山县褐飞虱Nilaparvata lugens(Stal)观测圃与田间的系统调查资料,揭示出该虫年度间和年度内的田间种群发生动态规律。褐飞虱在观测圃条件下,2000年前常是大发生以上,2000年以来发生程度变轻,常是中等偏重以下,但近3年来又有回升的势头,各年均呈比大田发生偏重的趋势。年度间主害期呈推迟的趋势。年度内,稻苗移栽后即可见虫,一直到收获;前期虫量较小,中期增多,后期较大,主害期在后期。观测圃的褐飞虱发生高峰期比大田早5d左右。观测圃虫量在水稻前期与大田相当,中、后期有差异,特别是后期差异较大,是大田的2~10倍。观测圃的天敌种类主要是蜘蛛、黑肩绿肓蝽、螯蜂、隐翅虫和稻红瓢虫;天敌数量在水稻中期和后期分别比大田多30%和40%以上,对褐飞虱有一定的控制作用。还讨论褐飞虱田间种群动态研究在生产上的应用。     

基因聚合改良杂交稻组合的稻飞虱田间抗性表现

褐飞虱Nilaparvata lugens(Stl)是杂交水稻的重要虫害,培育高抗褐飞虱的杂交水稻新组合被认为是目前防治飞虱最有效、经济的方法。本研究以分子标记辅助选择培育的抗褐飞虱杂交水稻为材料,通过苗期和成株期的全生育期田间抗性鉴定,对基因聚合改良杂交稻组合的褐飞虱抗性进行综合评价,结果表明,基因聚合改良杂交稻组合的苗期抗性介于抗和中抗水平,田间虫量在7次调查中均低于800头/百丛,远低于2000头/百丛的防治标准,而对照扬两优6号、两优培九和当地农家品种两优63在8月29日到9月10日飞虱发生高峰期的百丛虫量分别最高达到5400头、2030头和10700头,高于或远高于2000头/百丛的防治标准。改良组合川香29A/华恢1462的产量在通城比对照扬两优6号增产11.8%。上述结果表明抗褐飞虱改良杂交稻新组合能够有效抑制稻田褐飞虱种群数量,节约人工和农药成本,增加水稻产量。     

褐飞虱持续暴发成因——以江西泰和县为例

为了明确泰和县近年来晚稻田褐飞虱Nilaparvata lugens(Stl)连年暴发的规律。通过分析泰和县2008—2013年褐飞虱的田间调查及灯诱数据,并结合气象条件,研究了泰和县晚稻田褐飞虱暴发的主要影响因素。结果表明:(1)危害早稻田的褐飞虱以2、3代为主,其田间种群数量的多少主要受春季迁入虫量的限制,本地早稻收割后的滞留虫源对晚稻种群数量的影响很小。(2)危害晚稻田的褐飞虱以5、6代为主,后期迁入虫量、秋季温度以及晚稻田初期外来迁入虫量是影响晚稻田后期暴发的关键因子。(3)不同年份间晚稻田褐飞虱暴发类型不同。2008和2009年属后期迁入虫量与"暖秋"共同影响类型;2010年是"暖秋"影响类型;2011和2012年是后期迁入虫量影响类型;2013年是晚稻田早期迁入虫量积累影响类型。后期迁入虫量、秋季温度以及晚稻田早期迁入虫量是导致泰和县晚稻田褐飞虱连年暴发的主要原因。这些结果为褐飞虱暴发规律的阐明及可持续治理提供了理论依据和参考价值。