广西兴安地区稻纵卷叶螟和稻飞虱发生规律及迁飞规律的研究
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摘要
稻纵卷叶螟和稻飞虱是我国水稻上的重要害虫,近年来给我国水稻生产造成严重的损失。兴安地区位于广西东北部是每年稻纵卷叶螟和稻飞虱在我国南北往返的必经之路,近年来兴安地区水稻栽培制度发生变化,逐渐形成了单双混作模式,对广西兴安地区当前单双季水稻混作制度下“两迁”害虫的发生动态、虫源性质及迁飞轨迹进行系统研究和分析,明确以兴安为代表的南岭以北双季稻区单季稻大面积种植对“两迁”害虫发生规律及迁飞轨迹的影响,对我国北方稻区乃至全国“两迁”害虫监测预警和防治工作意义重大。本研究采用灯光诱捕、田间系统调查、雌蛾卵巢解剖的方法研究了广西兴安地区稻纵卷叶螟和稻飞虱的发生动态和世代虫源性质。运用大气质点轨迹分析平台HYSPLIT和气象图形处理软件GrADS对广西兴安地区稻纵卷叶螟早期迁入虫源和2011年褐飞虱迁飞高峰期进行了迁飞轨迹和气象背景分析。采用传统空间分析方法和地理信息系统对中稻田褐飞虱种群空间分布进行了研究。对2007年毫米波扫描雷达监测到的稻纵卷叶螟的一次迁出过程进行了再分析。采用逐步回归法和bp神经网络模型对广西兴安地区稻纵卷叶螟、白背飞虱和褐飞虱发生期和发生量进行了预测研究。获得了以下主要结果:
1.探照灯诱虫器能有效监测稻纵卷叶螟种群动态,其数量变化规律与佳多测报灯灯下虫量变化规律基本一致,监测峰次多于佳多灯。探照灯诱虫器对稻纵卷叶螟的诱蛾量显著高于佳多灯,且对起飞迁出、过境、迁入降落虫群均具有较强诱捕作用。本章提出了以探照灯诱虫器和佳多测报灯诱虫突增情况和雌蛾卵巢解剖情况为标准的探照灯诱虫器诱蛾虫源性质判断方法。
2.广西兴安地区稻纵卷叶螟从4月中下旬开始迁入,共发生6代,即第二-七代。其中第三-五代为主害代,发生量最大。在双季早稻、单季中稻和双季晚稻田均能发生3代,且不同类型田间重叠发生。双季早稻田发生量明显高于单季中稻和双季晚稻田。第二、三代主害双季早稻,均为迁入虫源;第四代数量最多,主害双季早稻,属于迁入虫源在本地繁殖世代,也有部分迁入虫源;第五代主害单季中稻,虫源性质复杂,主要为本地虫源本地繁殖型,既有迁入,又有迁出;第六代前期主害单季中稻,后期主害双季晚稻,第七代为害双季晚稻,虫源性质均为本地虫源大部迁出型。单季中稻田的大面积种植,在双季早、晚稻田之间起到重要的“桥梁田”作用,可使稻纵卷叶螟滞留本地为害,为双季晚稻田积累了虫源。
3.广西兴安稻纵卷叶螟早期迁入量和迁入峰次在年度间存在差异,最大迁入峰逐年推迟,800hPa高空气温较低以及偏北气流时次较多,是造成稻纵卷叶螟早期迁入量和迁入峰次年度间差异的主要原因。广西兴安5月份迁入虫源主要来自广西东南稻区和广东西南稻区,6月份迁入虫源集中在广西东南部、广东西南部和海南北部稻区。西南和偏南低空激流是稻纵卷叶螟北迁的运载气流,降雨是引起稻纵卷叶螟集中降落的主要原因。
4.稻纵卷叶螟在华南地区的迁飞行为参数与华东地区有所不同。稻纵卷叶螟在日落前30min开始起飞,20:00左右达到起飞高峰,起飞可持续1-1.5h;迁飞高度主要在1000m以下,具有聚集成层现象,可形成2-3层,400-500m成层密度最大。成层现象与局部风速极值有关,与风向关系不大,但最大密度并不总是出现在最大风速处。
5.广西兴安单双季稻混作的栽培模式,对褐飞虱种群积累增值有很大作用。兴安褐飞虱发生高峰期与中稻生长期吻合,中稻受害重,并且也为晚稻积累了虫源。2011年广西兴安褐飞虱迁入虫源主要来自广西东南部、广东西部及海南沿海稻区,回迁虫源来自湖南西南部和江西西部,10月份从本地迁出的虫群主要迁向广西中部,部分迁往贵州南部的虫群由于缺少食物来源而死亡。偏南方向的低空急流是广西兴安褐飞虱的大规模迁入提供了运载气流,降雨是迫使稻飞虱降落的原因。
6.除前期由于田间虫口密度过小外,呈均匀或随机分布外,中稻田褐飞虱成、若虫混合种群、褐飞虱长翅型成虫以及褐飞虱若虫在田间均呈聚集分布,聚集强度是随着种群密度升高而增加。聚集中心分布范围及聚集程度随时间有所不同,田间有明显的1至多个聚集中心,总体呈中部聚集——东西向扩展——中部聚集——东西向扩展的趋势。
7.采用逐步回归方法和bp神经网络模拟法对广西兴安地区稻纵卷叶螟和稻飞虱发生期和发生量进行了预报研究。逐步回归法回报准确率为80-87.5%,预报准确率为75-80%;神经网络模拟法回报准确率为100%,预报准确率为75-100%。采用逐步回归法筛选预报因子,再用神经网络模型进行预测,是一种较好的预测方法。
The rice leaf roller, Cnaphalocrocis medinalis Guenée, and rice planthopper are the major crop peststhat cause serious damage to rice production. Xing’an, in northeast Guangxi Municipality, is the keyannual migratory route for the rice leaf roller and the rice planthopper migrating back and forthbetween southern and northern China. Recent years, the rice cultivation system changed to single anddouble mixed rice system. A better understanding of the population dynamics, populationcharacteristics and migration trajectory, explicit the effect of the a scale planting of middle seasonrice on the population dynamics and the migration trajectory of the two migration pests will bebeneficial for the monitoring, warning and long-term control of these pest in Xingan and in China. Inthis study, light traps, systematic field surveys, and dissection of female ovaries were used to studythe population population dynamics and population characteristics of these pests. The spatio temporaldistribution of source areas of C. medinalis early migration peaks and source areas and landing areasof BPH miagration peaks in2011were analyzed using HYSPLIT (Hybrid Single-Particle LagrangianIntegrated Trajectory), a software package that simulates migration trajectories, and GrADS (GridAnalysis and Display System), a program for analyzing and displaying the synoptic meteorologybackground during the migration periods. The spatial distribution of BPH in middle season rice wasanalysised by traditional spatial analysis method and Geographic Information System. A emmigrateprogress of C. medinalis monitored by the millmetircs scanning entomological radar in2007wasreanalysised in this paper. Forecast of the occurrence period and occurrence quantity were studied bystepwise regression method and artificial neural network. The results were as follows:
1. The vertical pointing searchlight-trap could monitor the population dynamics of C. medinaliseffectively.It could catch much more moths than Jiaduo light trap, including the immigration, passingand emigration airborne populations of C. medinalis. So that the peaks of catches on the two kinds oftraps and the ovarian developmental level of the female in the vertical pointing searchlight-trap wouldbe able to determine the characteristics of C. medinalis. According to this method, three case studiesof immigration, passing and emigration airborne populations of C. medinalis were conducted in thispaper.
2. The population dynamics of C. medinalis varied seasonally in Xing’an. C. medinalis had sixgenerations a year, namely the2nd-7thgeneration. The3rd-5thwere the major pestilent generation.Each of the three annual rice crops (early double-crop, middle-season single-crop, and latedouble-crop) experienced three generations of C. medinalis, with some overlap of leaf rollergenerations onto more than one crop. The population density of C. medinalis in the early double-croprice field was significantly higher than in other two rice fields. The ratio of mated females and theratio of females with matured ovaries indicated that the second and third generations which mainlyinfested early rice, were immigrants. The fourth generation, which also mainly infested early rice, emerged locally and partly from immigration population. The fifth generation mainly infestedmiddle-season rice and were mostly locally emergent, but with some immigration and someemigration. The sixth generation was mostly emigrants. The early sixth generation infestedmiddle-season rice, while the late sixth generation infested late rice. The seventh generation, mainlyinfested late rice and were basically emigrants. The middle-season rice which largely planntedbecame the trasitional brige between the early and late rice. It caused C. medinalis settled down andinfested middle-season rice.
3. The early immigration amont and immigration peaks were different among years. The biggestimmigration peak postponed with years. The occurance time of partial northern air stream on800hPaisobaric was the main reason caused these differences. Most of the immigrants in May came fromsoutheast of GuangXi and southwest of Guangdong, and the immigrants in June came from southeastof GuangXi, southwest of Guangdong and north of Hainan.Analysis of weather conditions during themigration peaks showed that strong southwest and partial southlow-level jets carried massivenumbers of C. medinalis into Xing’an, while heavy rainfall caused mass descent.
4. The flight parameters of C. medinalis in sounthern China were different form that in eastern China.C. medinalis started take-off behind30min of sunset, reached the take-off peak at about20:00,take-off can last1-1.5h. C.medinalis generally flew below1000m It accumulate and form2-3layersdense layers when flew. The biggest density was at400-500m. The insect layer was coincide closelywith partial maximum wind speed and was not conincide with wind direction. However, the biggestdensity was not always at the height of biggest wind speed.
5. The single and double mixed rice system in Xing’an was beneficial for the accumulation andincrement of BPH. The BPH whose peak period of occurance was coincidence with themiddle-season rice growth period, not only caused serious damage to middle-season rice, but alsoaccumulated pest source for late rice. The immigrants to Xing’an in2011mainly came from southeastof GuangXi, southwest of Guangdong and coastal area of Hainan. The autumn immigrants camefrome the southwest of Hunan and west of Jiangxi. In October local emigrants mainly flew to themiddle of Guangxi, some population which flew to the south of Guizhou can not survive because oflacking food. Partial southlow-level jets carried massive numbers of BPH into Xing’an, while heavyrainfall caused mass descent.
6. The spatial distribution of the adult and larva mixed population, the macropterous adult populationand the larva population were mainly aggregation distribution in middle-season rice, except ofuniform distribution and random distribution in early stage, because of less density of BPH.Aggregation intensity increased as the population density increased. The aggregation center changedwith time. There were1or sevel aggregation center in field, generally showed middleaggregation—west and east extending—middle aggregation—west and east extending.
7. Forecast of the occurrence period and occurrence quantity were studied by stepwise regressionmethod and artificial neural network. The historical coincidence of stepwise regression method was80-87.5%, while forecast accuracy was75-80%. The historical coincidence of artificial neural network was100%, while forecast accuracy was75-100%. So, screening forcast factories by stepwiseregression method, then forecast by artificial neural network was a good forecast methed.
1.探照灯诱虫器能有效监测稻纵卷叶螟种群动态,其数量变化规律与佳多测报灯灯下虫量变化规律基本一致,监测峰次多于佳多灯。探照灯诱虫器对稻纵卷叶螟的诱蛾量显著高于佳多灯,且对起飞迁出、过境、迁入降落虫群均具有较强诱捕作用。本章提出了以探照灯诱虫器和佳多测报灯诱虫突增情况和雌蛾卵巢解剖情况为标准的探照灯诱虫器诱蛾虫源性质判断方法。
2.广西兴安地区稻纵卷叶螟从4月中下旬开始迁入,共发生6代,即第二-七代。其中第三-五代为主害代,发生量最大。在双季早稻、单季中稻和双季晚稻田均能发生3代,且不同类型田间重叠发生。双季早稻田发生量明显高于单季中稻和双季晚稻田。第二、三代主害双季早稻,均为迁入虫源;第四代数量最多,主害双季早稻,属于迁入虫源在本地繁殖世代,也有部分迁入虫源;第五代主害单季中稻,虫源性质复杂,主要为本地虫源本地繁殖型,既有迁入,又有迁出;第六代前期主害单季中稻,后期主害双季晚稻,第七代为害双季晚稻,虫源性质均为本地虫源大部迁出型。单季中稻田的大面积种植,在双季早、晚稻田之间起到重要的“桥梁田”作用,可使稻纵卷叶螟滞留本地为害,为双季晚稻田积累了虫源。
3.广西兴安稻纵卷叶螟早期迁入量和迁入峰次在年度间存在差异,最大迁入峰逐年推迟,800hPa高空气温较低以及偏北气流时次较多,是造成稻纵卷叶螟早期迁入量和迁入峰次年度间差异的主要原因。广西兴安5月份迁入虫源主要来自广西东南稻区和广东西南稻区,6月份迁入虫源集中在广西东南部、广东西南部和海南北部稻区。西南和偏南低空激流是稻纵卷叶螟北迁的运载气流,降雨是引起稻纵卷叶螟集中降落的主要原因。
4.稻纵卷叶螟在华南地区的迁飞行为参数与华东地区有所不同。稻纵卷叶螟在日落前30min开始起飞,20:00左右达到起飞高峰,起飞可持续1-1.5h;迁飞高度主要在1000m以下,具有聚集成层现象,可形成2-3层,400-500m成层密度最大。成层现象与局部风速极值有关,与风向关系不大,但最大密度并不总是出现在最大风速处。
5.广西兴安单双季稻混作的栽培模式,对褐飞虱种群积累增值有很大作用。兴安褐飞虱发生高峰期与中稻生长期吻合,中稻受害重,并且也为晚稻积累了虫源。2011年广西兴安褐飞虱迁入虫源主要来自广西东南部、广东西部及海南沿海稻区,回迁虫源来自湖南西南部和江西西部,10月份从本地迁出的虫群主要迁向广西中部,部分迁往贵州南部的虫群由于缺少食物来源而死亡。偏南方向的低空急流是广西兴安褐飞虱的大规模迁入提供了运载气流,降雨是迫使稻飞虱降落的原因。
6.除前期由于田间虫口密度过小外,呈均匀或随机分布外,中稻田褐飞虱成、若虫混合种群、褐飞虱长翅型成虫以及褐飞虱若虫在田间均呈聚集分布,聚集强度是随着种群密度升高而增加。聚集中心分布范围及聚集程度随时间有所不同,田间有明显的1至多个聚集中心,总体呈中部聚集——东西向扩展——中部聚集——东西向扩展的趋势。
7.采用逐步回归方法和bp神经网络模拟法对广西兴安地区稻纵卷叶螟和稻飞虱发生期和发生量进行了预报研究。逐步回归法回报准确率为80-87.5%,预报准确率为75-80%;神经网络模拟法回报准确率为100%,预报准确率为75-100%。采用逐步回归法筛选预报因子,再用神经网络模型进行预测,是一种较好的预测方法。
The rice leaf roller, Cnaphalocrocis medinalis Guenée, and rice planthopper are the major crop peststhat cause serious damage to rice production. Xing’an, in northeast Guangxi Municipality, is the keyannual migratory route for the rice leaf roller and the rice planthopper migrating back and forthbetween southern and northern China. Recent years, the rice cultivation system changed to single anddouble mixed rice system. A better understanding of the population dynamics, populationcharacteristics and migration trajectory, explicit the effect of the a scale planting of middle seasonrice on the population dynamics and the migration trajectory of the two migration pests will bebeneficial for the monitoring, warning and long-term control of these pest in Xingan and in China. Inthis study, light traps, systematic field surveys, and dissection of female ovaries were used to studythe population population dynamics and population characteristics of these pests. The spatio temporaldistribution of source areas of C. medinalis early migration peaks and source areas and landing areasof BPH miagration peaks in2011were analyzed using HYSPLIT (Hybrid Single-Particle LagrangianIntegrated Trajectory), a software package that simulates migration trajectories, and GrADS (GridAnalysis and Display System), a program for analyzing and displaying the synoptic meteorologybackground during the migration periods. The spatial distribution of BPH in middle season rice wasanalysised by traditional spatial analysis method and Geographic Information System. A emmigrateprogress of C. medinalis monitored by the millmetircs scanning entomological radar in2007wasreanalysised in this paper. Forecast of the occurrence period and occurrence quantity were studied bystepwise regression method and artificial neural network. The results were as follows:
1. The vertical pointing searchlight-trap could monitor the population dynamics of C. medinaliseffectively.It could catch much more moths than Jiaduo light trap, including the immigration, passingand emigration airborne populations of C. medinalis. So that the peaks of catches on the two kinds oftraps and the ovarian developmental level of the female in the vertical pointing searchlight-trap wouldbe able to determine the characteristics of C. medinalis. According to this method, three case studiesof immigration, passing and emigration airborne populations of C. medinalis were conducted in thispaper.
2. The population dynamics of C. medinalis varied seasonally in Xing’an. C. medinalis had sixgenerations a year, namely the2nd-7thgeneration. The3rd-5thwere the major pestilent generation.Each of the three annual rice crops (early double-crop, middle-season single-crop, and latedouble-crop) experienced three generations of C. medinalis, with some overlap of leaf rollergenerations onto more than one crop. The population density of C. medinalis in the early double-croprice field was significantly higher than in other two rice fields. The ratio of mated females and theratio of females with matured ovaries indicated that the second and third generations which mainlyinfested early rice, were immigrants. The fourth generation, which also mainly infested early rice, emerged locally and partly from immigration population. The fifth generation mainly infestedmiddle-season rice and were mostly locally emergent, but with some immigration and someemigration. The sixth generation was mostly emigrants. The early sixth generation infestedmiddle-season rice, while the late sixth generation infested late rice. The seventh generation, mainlyinfested late rice and were basically emigrants. The middle-season rice which largely planntedbecame the trasitional brige between the early and late rice. It caused C. medinalis settled down andinfested middle-season rice.
3. The early immigration amont and immigration peaks were different among years. The biggestimmigration peak postponed with years. The occurance time of partial northern air stream on800hPaisobaric was the main reason caused these differences. Most of the immigrants in May came fromsoutheast of GuangXi and southwest of Guangdong, and the immigrants in June came from southeastof GuangXi, southwest of Guangdong and north of Hainan.Analysis of weather conditions during themigration peaks showed that strong southwest and partial southlow-level jets carried massivenumbers of C. medinalis into Xing’an, while heavy rainfall caused mass descent.
4. The flight parameters of C. medinalis in sounthern China were different form that in eastern China.C. medinalis started take-off behind30min of sunset, reached the take-off peak at about20:00,take-off can last1-1.5h. C.medinalis generally flew below1000m It accumulate and form2-3layersdense layers when flew. The biggest density was at400-500m. The insect layer was coincide closelywith partial maximum wind speed and was not conincide with wind direction. However, the biggestdensity was not always at the height of biggest wind speed.
5. The single and double mixed rice system in Xing’an was beneficial for the accumulation andincrement of BPH. The BPH whose peak period of occurance was coincidence with themiddle-season rice growth period, not only caused serious damage to middle-season rice, but alsoaccumulated pest source for late rice. The immigrants to Xing’an in2011mainly came from southeastof GuangXi, southwest of Guangdong and coastal area of Hainan. The autumn immigrants camefrome the southwest of Hunan and west of Jiangxi. In October local emigrants mainly flew to themiddle of Guangxi, some population which flew to the south of Guizhou can not survive because oflacking food. Partial southlow-level jets carried massive numbers of BPH into Xing’an, while heavyrainfall caused mass descent.
6. The spatial distribution of the adult and larva mixed population, the macropterous adult populationand the larva population were mainly aggregation distribution in middle-season rice, except ofuniform distribution and random distribution in early stage, because of less density of BPH.Aggregation intensity increased as the population density increased. The aggregation center changedwith time. There were1or sevel aggregation center in field, generally showed middleaggregation—west and east extending—middle aggregation—west and east extending.
7. Forecast of the occurrence period and occurrence quantity were studied by stepwise regressionmethod and artificial neural network. The historical coincidence of stepwise regression method was80-87.5%, while forecast accuracy was75-80%. The historical coincidence of artificial neural network was100%, while forecast accuracy was75-100%. So, screening forcast factories by stepwiseregression method, then forecast by artificial neural network was a good forecast methed.
引文
1. GB/T15793-1995,中华人民共和国国家标准稻纵卷叶螟测报调查规范.
2. GB/T15794-1995,中华人民共和国国家标准稻飞虱测报调查规范.
3.白先达,黄超艳,唐广田,李国刚,邹丽霞,贾方曌.气象条件对稻纵卷叶螟迁飞的影响分析.中国农学通报,2010,26(21):262-267.
4.包云轩,程极益,程遐年,储长树,沈桐立.中国盛夏褐飞虱北迁过程的动态数值模拟.昆虫学报,2000,43(02):173-183.
5.包云轩,程极益,程遐年.盛夏褐飞虱北迁大发生的气象背景:个例分析.南京农业大学学报,1999,22(04):35-40..
6.包云轩,王永平,严明良,袁成松,于晓丽.2003年我国稻纵卷叶螟发生特征及其灾变大气背景的研究.气象科学,2008,28(02):184-189.
7.包云轩,徐希燕,王建强,王翠花,缪启龙,翟保平.白背飞虱重大迁入过程的大气动力背景.生态学报,2007,27(11):4527-4535.
8.包云轩.褐飞虱降落过程的动力气象学研究.[博士学位论文].南京:南京农业大学,2005.
9.蔡文华,林添忠,吴美英.福建褐飞虱迁飞降落大气环流类型研究.植物保护学报,1998,25(4):325-329.
10.陈德茂.独山县稻飞虱调查研究二:白背飞虱生物学特征的初步观察及其在测报上的应用.贵州农业科学,1980,8(4):33-38.
11.陈风波.水稻种植模式变迁对中国南方地区水稻产量的影响.新疆农垦经济,2007(8):6-10.
12.陈观浩.利用周期分析法预测稻纵卷叶螟的发生程度.昆虫知识,2004,41(3):258-260.
13.陈观浩.应用马尔可夫链法预测晚稻稻飞虱发生程度.昆虫知识,2003,40(2):176-178.
14.陈桂欢,莫益精,覃汉伟.迁飞性害虫稻飞虱和稻纵卷叶螟灰色灾变长期预测模型的研究.广西植保,1991(3):17-21.
15.陈建明,黄次伟,冯炳灿,陈水校,吴庆斋,徐建雄,何国民,郑火根,张招娣.周期图分析法在晚稻褐飞虱主害代长期预报中的应用.植物保护,1994,20(3):2-3.
16.陈若篪,程遐年,杨联民,殷向东.褐飞虱卵巢发育及其与迁飞的关系.昆虫学报,1979,22(03):280-288.
17.陈若篪,程遐年.褐飞虱起飞行为与自身生物学节律、环境因素同步关系的初步研究.南京农业大学学报,1980(02):42-49.
18.陈若箎.迁飞昆虫学.北京:农业出版社,1989.
19.陈永年,汪清武.稻纵卷叶螟飞翔特性的初步观察:Ⅲ.起飞的主动性和运转的被动性.湖南农业大学学报:自然科学版,1980,3(2):17-25.
20.程登发,封红强,吴孔明.扫描昆虫雷达与昆虫迁飞监测.北京:科学出版社,2005,12-15.
21.程极益.褐飞虱迁飞的雷达观测与轨迹研究.环境遥感,1994,9(01):51-56.
22.程家安,祝增荣.2005年长江流域稻区褐飞虱暴发成灾原因分析.植物保护,2006,32(4):1-4.
23.程遐年,陈若篪,习学,杨联民,朱子龙,吴进才,钱仁贵,杨金生.稻褐飞虱迁飞规律的研究.昆虫学报,1979,22(01:)1-21.
24.程遐年,吴进才,马飞.褐飞虱研究与防治.北京:中国农业出版社,2003.
25.程遐年,张孝羲,程极益,J. R. Riley,D.R. Reynolds.褐飞虱在中国东部秋季回迁的雷达观察.南京农业大学学报,1994,17(03):24-32.
26.邓望喜.飞机网捕褐飞虱及白背飞虱的研究初报.昆虫知识,1980,17(3):97-101.
27.封传红,翟保平,陈庆华,汤金仪.利用850hPa气流资料分析稻飞虱迁飞路径.中国农业气象,2003,24(03):31-35.
28.封传红,翟保平,张孝羲,汤金仪.我国低空急流的时空分布与稻飞虱北迁.生态学报,2002,22(04):559-565..
29.高月波,陈晓,陈钟荣,包云轩,杨荣明,刘天龙,翟保平.稻纵卷叶螟(Cnaphalocrocismedinalis)迁飞的多普勒昆虫雷达观测及动态.生态学报,2008,28(11):5238-5247.
30.耿济国,张建新,张孝羲,J.I.Magor,J.Pendor.海捕回迁稻纵卷叶螟轨迹分析.南京农业大学学报,1990,13(03):48-53.
31.郭世平.稻纵卷叶螟三代发生期及发生程度预测模型研究.昆虫知识,1993(5):257-259.
32.胡高,包云轩,王建强,翟保平.褐飞虱的降落机制.生态学报,2007,27(12):5068-5075.
33.胡国文.白背飞虱成虫起飞的影响因素.西南农学院学报,1982(1):59.
34.胡继超,程极益,储长树,沈桐立.褐飞虱在我国东部地区秋季回迁的三维轨迹研究.中国农业气象,1997,18(05):1-18.
35.胡荣利,徐蕾,周福才,鞠国钢,陆自强.沿江稻区第四代稻纵卷叶螟成灾机制.植物保护学报,2005,32(4):392-396.
36.湖南农学院农学系昆虫教研室.稻纵卷叶螟飞翔特性的初步观察——Ⅰ.飞翔持续时间和振翅频率.湖南农学院学报,1979,7(3):42-47.
37.湖南农学院农学系昆虫教研室.稻纵卷叶螟飞翔特性的初步观察——Ⅱ.飞翔前期、飞翔起始温度及起飞蛾龄.湖南农学院学报,1979,7(4):17-25.
38.华红霞,邓望喜,李儒海.长江中游稻区夏季飞机航捕迁入褐飞虱的轨迹分析.昆虫学报,2002,45(01):68-74.
39.黄保宏,雷鸣.用模糊贴近度预测稻纵卷叶螟发生高峰期.植物保护,1998,24(6):22-24.
40.黄彤文.稻纵卷叶螟垂直迁飞初探.福建农业科技,1989(01):9-11.
41.黄秀清,邬楚中,洪福来.田间稻纵卷叶螟卵巢发育进度的变动及虫源性质的分析.昆虫知识,1981,17(02):52-54.
42.黄学飞,张孝羲,翟保平.交配对稻纵卷叶螟飞行能力及再迁飞能力的影响.南京农业大学学报,2010,33(5):23-28.
43.霍治国,陈林,叶彩玲,刘玲.气候条件对中国水稻稻飞虱为害规律的影响.自然灾害学报,2002,11(01):97-102.
44.季蓉,谢宝瑜,李哲,李典谟,孟冬丽.基于GIS和GS的东亚飞蝗卵块空间格局的研究.昆虫学报,2006,49(3):410-415.
45.蒋春先,齐会会,孙明阳,武俊杰,张云慧,程登发.2010年广西兴安地区稻纵卷叶螟发生动态及迁飞轨迹分析.生态学报,2011,31(21):6495-9504.
46.焦汝志,王虹.用Fuzzy分析方法预报稻纵卷叶螟第三代发生程度.广西植保,1999,12(1):6-8.
47.赖仲廉.贵阳地区白背飞虱的越冬以及迁飞的观察.昆虫学报,1982,25(4):397-402.
48.李火痀.灰色聚类在病虫测报中的应用.江西农业大学学报,1993,15(4):454-460.
49.李青,罗善昱,韦素美,黄凤宽.褐飞虱生物型测定及其与迁飞关系分析.昆虫知识,1999,35(05):257-260.
50.李汝泽,丁锦华,胡文国.褐飞虱及其种群管理.上海:复旦大学出版社,1995.
51.李云瑞.农业昆虫学(南方本).北京:中国农业出版社,2002.
52.梁载林,齐国君,张孝羲,黄学飞,甘宁.2008年永福县早稻田稻纵卷叶螟发生动态及虫源性质.昆虫知识,2009,46(3):394-398.
53.刘浩光,刘振杰,祝为华.我国海上网捕褐稻虱的结果.昆虫学报,1983,26(01):109-113.
54.刘佳妮,桂富荣,李正跃.影响白背飞虱翅型分化的相关因子.植物保护学报,2010,37(6):511-516.
55.刘立春.不同单管双光灯诱虫实验及其田间应用效果.昆虫知识,1982,19(5):27-31.
56.刘立春.诱虫灯的研究进展及应用概况.华东昆虫学报,1994,3(1):75-78.
57.刘芹轩,吕万明,张桂芳.白背飞虱的生物学和生态学研究.中国农业科学,1982,15(3):59-66.
58.刘芹轩,张桂芬.白背飞虱飞翔活动研究.昆虫知识,1984,21(6):241-242.
59.刘宇,王建强,冯晓东,蒋学辉.2007年全国稻纵卷叶螟发生实况分析与2008年发生趋势预测.中国植保导刊,2008,28(07):33-35.
60.吕万明.白背飞虱雌性生殖系统的构造和卵巢发育分级的初步观察.昆虫知识,1980,16(04):182-183.
61.马飞,程遐年.害虫预测预报研究进展(综述).安徽农业大学学报,2001,28(1):92-97.
62.齐国君,梁载林,辛德育,曹相余,甘宁,张孝羲,翟保平.广西永福县近年来早稻田稻纵卷叶螟连年大发生的原因分析.环境昆虫学报,2009,31(2):95-101.
63.齐国君,芦芳,高燕,梁居林,蓝日青,张孝羲,翟保平,吕利华.稻纵卷叶螟2010年的一次迁飞过程及其虫源分析,昆虫学报,2011,54(10):1194-1203.
64.齐国君,秦冉冉,肖满开,郑兆阳,江潮,程遐年,张孝羲,翟保平.安徽安庆混作稻区稻纵卷叶螟第三、四代发生规律研究.中国水稻科学,2008,22(5):513-518.
65.齐会会,张云慧,程登发,韩二宾,孙京瑞.褐飞虱2009年秋季回迁的雷达监测及轨迹分析.昆虫学报,2010,53(1):1256~1264.
66.齐会会,张云慧,蒋春先,孙明阳,杨秀丽,程登发.广西北部稻区白背飞虱早期迁入虫源分析.中国农业科学,2011,44(16):3333-3342.
67.全国稻纵卷叶螟研究协作组.我国稻纵卷叶螟迁飞规律研究进展.中国农业科学,1981(5):1-8.
68.全国褐稻虱科研协作组.我国褐稻虱迁飞规律研究的进展.中国农业科学,1981(02):52-59.
69.全国褐稻虱联合测报网.我国褐稻虱的发生动态及其预测预报.中国农业科学,1980(03):58-64.
70.上海稻纵卷叶螟海捕协作组.海捕稻纵卷叶螟——发生与回迁.植物保护,1981,7(6):8-9.
71.沈慧梅,孔丽萍,章霜红,张孝羲,翟保平.福建省白背飞虱前期迁入虫源分析.昆虫学报,2011,54(6):701-713.
72.沈慧梅,吕建平,周金玉,张孝羲,程遐年,翟保平.2009年云南省白背飞虱早期迁入种群的虫源地范围与降落机制.生态学报,2011,31(15):4350-4364.
73.石尚柏,李绍石,胡伯海.稻纵卷叶螟.北京:中国农业出版社,1997:13-17.
74.苏庆玲,张孝羲.逐步回归在稻纵卷叶螟中期预测上的应用.南京农业大学学报,1995,18(3):43-47.
75.陶林勇.中国龙游和越南Omon褐飞虱种群特性测定.植物保护,1995,21(01):2-4.
76.汪疏才,胡国文,谢明霞.我国白背飞虱和褐飞虱迁飞路线和气流分析.植物保护学报,1982,9(2):68-73.
77.汪四水,张孝羲,汤金仪.基于地理信息系统的稻纵卷叶螟的灾变动态显示系统.昆虫学报,2001,44(2):252-256.
78.汪四水,张孝羲,张夕林.稻纵卷叶螟发生成都的神经网络预警.生物数学学报,2003,18(3):93-97.
79.汪四水,张孝羲.基于神经网络的稻纵卷叶螟长期预测.植物保护学报,2000,27(4):313-316.
80.汪远昆.白背飞虱(Sogatella furcifera)的迁飞生物学和田间种群动态.[硕士学位论文].南京:南京农业大学,2003.
81.王长委,胡明月,谢健文,邹寿发,黄得超.基于GIS稻飞虱种群时空变化分析.农业工程学报,2009,25(10):171-175.
82.王翠花,包云轩,王建强,向勇,翟保平.2003年稻纵卷叶螟重大迁入过程的大气动力机制分析.昆虫学报,2006,49(04):604-612.
83.王翠花,包云轩,王建强,翟保平,向勇.2003年稻纵卷叶螟大发生的水汽条件分析.应用生态学报,2006,17(09):1693-1698.
84.王凤英,胡高,陈晓,沈慧梅,罗善煜,辛德育,徐盛刚,张孝羲,翟保平.近年来广西南宁稻纵卷叶螟大发生原因分析.中国水稻科学,2009,23(05):537-545.
85.王海建,杨茂发,李庆,杨群芳,李子忠.稻飞虱发生程度的神经网络模型拟合研究.四川农业大学学报,2006,24(1):38-60.
86.王正军,李典谟,谢宝瑜.基于GIS和GS的棉铃虫卵空间分布与动态分析.昆虫学报,2004,47(1):33-40.
87.王正军,张爱兵,程家安,李典谟.基于GIS的种群动态的时空分析与模拟研究的方法进展.生态学报,2002,22(1):104-109.
88.巫国瑞,俞晓平,陶林勇.褐飞虱和白背飞虱灾害的长期预测.中国农业科学,1997,30(4):25-29.
89.吴孔明,程登发,徐广,翟保平,郭予元.华北地区昆虫秋季迁飞的雷达观测.生态学报,2001,21(11):1833-1838.
90.吴孔明,翟保平,封洪强,程登发,郭予元.华北北部地区二代棉铃虫成虫迁飞行为的雷达观测.植物保护学报,2006,33(2):163-167.
91.徐汝梅,成新跃.昆虫种群生态学.基础与前沿.北京:科学出版社,2005:3-18.
92.许瑞秋,刘浩官.山区稻纵卷叶螟垂直迁飞的研究.福建农业学报,1998(01):41-44.
93.闫香慧,刘彦汐.褐飞虱空间格局的地统计学分析.西华师范大学(自然科学版),2011,32(1):50-54.
94.闫香慧,赵志谟,刘怀,肖晓华,谢雪梅,程登发.白背飞虱若虫空间格局的地统计学分析.中国农业科学,2010,43(3):497-506.
95.闫香慧,赵志模,刘怀,谢雪梅,肖晓华,程登发.应用马尔可夫链理论对褐飞虱和白背飞虱发生程度的预测.生态学报,2009,29(11):5799-5806.
96.扬帆,郑大兵,赵运,王丽,徐杨洋,齐国君,徐劲峰,吴彩玲,张孝羲,程遐年,翟保平.白背飞虱的迁飞生物学:安徽潜山个例分析.应用昆虫学报,2011,48(5):1231-1241.
97.杨秀丽,陈林,程登发,孙京瑞等.毫米波扫描昆虫雷达空中昆虫监测的初步应用.植物保护,2008,34(02):31-36.
98.杨秀丽.广西地区褐飞虱、白背飞虱和稻纵卷叶螟的毫米波扫描昆虫雷达监测.[硕士学位论文].北京:中国农业科学院,2008.
99.袁仁阶.多元模糊回归预测白背飞虱主害代发生程度.昆虫知识,1998,35(1):1-2.
100.翟保平,程家安.2006年水稻两迁害虫研讨会纪要.昆虫知识,2006,43(4):585-588.
101.翟保平,张孝羲,程遐年.昆虫迁飞行为的参数化1:行为分析.生态学报,1997,17(1):7-17.
102.翟保平,张孝羲.稻纵卷叶螟标记蛾迁飞轨迹的数值模拟.西南农业大学学报,1998,20(05):156-163.
103.翟保平,张孝羲.迁飞过程中昆虫的行为:对风温场的适应与选择.生态学报,1993,13(04):356-363.
104.翟保平.昆虫雷达:从研究型到实用性.遥感学报,2001,5(3):231-240.
105.翟保平.昆虫雷达让我们看到了什么?昆虫知识,2005,42(2):217-226.
106.翟保平.区域尺度的昆虫迁飞行为与害虫间歇性猖獗.生态学杂志,1999(04):42-45.
107.张孝羲,耿济国,陆自强,李国柱,陈学礼,吴文学.稻纵卷叶螟迁飞途径的研究.昆虫学报,1980,23(2):130-139.
108.张孝羲,耿济国,周威君.稻纵卷叶螟迁飞规律的研究进展.植物保护,1981(06):2-7.
109.张孝羲,耿济国,周威君.我国稻纵卷叶螟Cnaphalocrocis medinalis Guenée迁飞规律的研究.南京农学院学报,1981,3(9):43-54.
110.张孝羲,陆自强,耿济国.稻纵卷叶螟雌蛾解剖在测报上的应用.昆虫知识,1979,16(3):97-99.
111.张孝羲,陆自强,耿济国.稻纵卷叶螟迁飞途径的研究.昆虫学报,1980,23(2):130-140.
112.张孝羲,周立阳,程极益.江淮稻区稻纵卷叶螟轨迹分析参数的推算.南京农业大学学报,1994,17(1):32-38.
113.张孝羲,周威君,耿济国,苏庆玲,朱玉成,汤金仪.稻纵卷叶螟成虫迁飞与能源物质的研究.植物保护学报,1983,10(03):153-159.
114.张云慧,陈林,程登发,姜玉英,张跃进.步甲夜间迁飞习性的探讨,中国农业科学,2008,41(1):108-115.
115.张云慧,陈林,程登发,姜玉英,吕英.草地螟2007年越冬代成虫迁飞行为研究与虫源分析.昆虫学报,2008,51(7):720-727.
116.张云慧,陈林,程登发,张跃进,姜玉英,蒋金炜.旋幽夜蛾迁飞的雷达观测和虫源分析,昆虫学报,2007,50(5):494-500.
117.张云慧,程登发,姜玉英,张跃进,孙京瑞.北京地区越冬代旋幽夜蛾迁飞的虫源分析.中国农业科学,2010,43(9):1815-1822.
118.赵建伟,何玉仙,翁启勇.诱虫灯在中国的应用研究概况.华东昆虫学报,2008,17(1):76-80.
119.郑祖强,张孝羲.稻纵卷叶螟飞翔能力的研究.中国昆虫学会生态专业委员会,1989.22-23.
120.中日稻飞虱越冬考察组.云南稻飞虱冬季虫源考察.云南农业科技,2000(4):3-5.
121.周立阳,张孝羲.江淮稻区稻纵卷叶螟异地预测预报.南京农业大学学报,1995,18(4):39-45.
122.周强,张润杰,古德祥,邹寿发,徐起峰.大尺度下褐飞虱种群空间结构初步分析.应用生态学报,2001,12(2):249-252.
123.周强,张润杰,古德祥.白背飞虱在稻田内空间结构的分析.昆虫学报,2003,46(2):171-177.
124.周强,张润杰,古德祥.褐飞虱与白背飞虱自然种群空间关系.中山大学学报(自然科学版)2000,39(S2):73-77.
125.邹运鼎,陈基诚,王士槐.稻纵卷叶螟胸部能源物质含量和脂肪酶活力与迁飞关系初步探讨.昆虫知识,1983,19(05):200-202.
126. Arturo C., Antonio Q. C., Patrizia E.. Giovanni N., Pietro L. Spatial analysis of gypsy mothpopulations in Sardinia using geostatistical and climate models. Agricultural and ForestEntomology,2010,12(4):417-426
127. Basoalto E., Miranda M., Knight A.L. Fuentes-Contreras E. Landscape analysis of adult codlingmoth (Lepidoptera:Tortricidae) distribution and dispersal within typical agroecosystems dominatedby apple production in central Chile. Environmental Entomology,2010,39(5):1399-1408.
128. Beerwinkle K. R., Lopez J. D., Witz J. A., Schleider P. G., Eyster R. S., Lingren P. D. SeasonalRadar and Meteorological Observations Associated with Nocturnal Insect Flight at Altitudes to900Meters. Environmental Entomology,1994,23(3):676-683.
129. Beerwinkle K. R., Witz J. A., Schleider P. G. An automated, vertical looking, X-band radar systemfor continuously monitoring aerial insect activity. American Society of Agricultural and BiologicalEngineers,1993,36(3):965~970.
130. Beerwinkle, K. R., Lopez, J. D., Schleider, P. G., Lingren, P. D. Annual patterns of aerial insectdensities at altitude from500to2400meters in east-central Texas indicated bycontinuously-operating vertically-oriented radar. Southwestern Entomologist.1995,18(Supp):63~79.
131. Chapman J.W., Reynolds D.R., Smith A.D. Vertical-looking radar: A new tool for monitoringhigh-altitude insect migration. Bioscience,2003,53(5):503-511.
132. Cheng D. F., Wu, K. M., Tian Z., Wen L. P., Shen Z. R. Acquisition and analysis of migration datafrom the digitised display of a scanning entomological radar. Computers and Electronics inAgriculture,2002,35(2-3):63~75.
133. Cheng J. A. Rice planthopper problems and relevant causes in China. In: Heong K.L, Hardy B(eds). Planthoppers: New Threats to the Sustainability of Intensive Rice Production Systems inAsia. Los Ba os: International Rice Research Institute.2009:157-178.
134. Davis J. M., Modeling the long-range transport of plant pathogens in the atmospheres. Annualreview of phytopathology,1987,25(2):169-188.
135. Dingle H,1996. Migration: the Biology of life on the move. Oxford University Press, Oxford.
136. Dingle H. The biology of life on the move. Oxford: Oxford University Press,1996.
137. Domino R. P., Showers W. P., Taylor S. E., Shaw R. H. Spring weather pattern associated withsuspected black cutworm moth (Lepidoptera: Noctuidae) introduction to Iowa. EnvironmentalEntomology,1983,12(6):1863-1872.
138. Drake V. A. Radar observations of moths migrating in a nocturnal low-level jet. EcologicalEntomology.1985,10(3):259-265.
139. Draxler R. R. Hess G. D. An overview of the Hysplit-4modeling system for trajectories, dispersion,and deposition. Australia Meteorological management,1998,47:295-308.
140. Draxler R. R. Trajectory optimization for balloon flight planning. Weather andForecasting,1996,(11):111-114.
141. Draxler R.R. Hess G.D. Description of the Hysplit-4modeling system. NOAA TechnicalMemorandum ERL ARL,1997,224:24.
142. Feng H. Q., Wu K. M., Cheng D. F., Guo Y. Y. Northward migration of Helicoverpa armigera(Lepidoptera:Noctuidae) and other moths in early summer observed with radar in northern China.Journal of Economic Entomology,2004,97:1874~1883.
143. Feng H. Q., Wu K. M., Cheng D. F., Guo Y. Y. Radar observation of the autumn migration of thebeet armyworm Spodoptera exigua (Lepidoptera: Noctuidae) and other moths in northern China.Bulletin of Entomological Research,2003,93(2):115~124.
144. Feng H. Q., Wu K. M., Cheng D. F., Guo Y.Y. Spring migration and summer dispersal ofLoxostege sticticalis (Lepidoptera: Pyralidae) and other insects observed with radar in northernChina. Environmental Entomology,2004,33(5):1253~1265.
145. Feng H. Q., Wu K. M., Ni Y. X., Cheng D. F., Guo Y. Y. High-altitude windborne transport ofHelicoverpa armigera (Lepidoptera: Noctuidae) and other moths in mid-summer in northern China.Journal of Insect Behavior,2005,18(3):335~350.
146. Feng H. Q., Wu K. M., Ni Y. X., Cheng D. F., Guo Y. Y. Nocturnal migration of dragonflies overthe Bohai Sea in northern China. Ecological Entomology,2006,31:511~520.
147. Feng H. Q., Wu K. M., Ni Y. X., Cheng D. F., Guo Y. Y. Return migration of Helicoverpa armigera(Lepidoptera: Noctuidae) during autumn in northern China. Bulletin of Entomological Research,2005,95(4):361~370.
148. Feng H. Q., Wu X. F., Wu B, Wu K. M. Seasonal migration of Helicoverpa armigera (Lepidoptera:Noctuidae) over the Bohai Sea. Journal of Economic Entomology,2009,102(1):95~104.
149. Feng H. Q., Zhang Y. H., Wu K. M., Cheng D. F., Guo Y. Y.. Nocturnal windborne migration ofground beetles (Coleoptera: Carabidae) in China. Agricultural and Forest Entomology,2007,9(2):103~113.
150. Heong K. L., Hardy B. Planthoppers: new threat to the sustainability of intensive rice productionsystems in Asia. Los Ba os (Philippines): International Rice Research Institute,2009:191-220.
151. Hu G., Cheng G. J., Wang F. Y., Lu F., Zhang X. X., Zhai B. P. Rice planting sysem, globalwarming and outbreaks of Nilaparvata lugens(St l). Bulletin of Entomological Research,2010,1~13.
152. Ifoulis A. A., Savopoulou-Soultani M. Use of geostatistical analysis to characterize the spatialdistribution of Lobesia botrana (Lepidoptera:Tortricidae) larvae in Northern Greece.Environmental Entomology,2006,35(2):497-506.
153. Iwao S. A new regression method for analyzing the aggregation pattern of animal populations.Researches on Population,1968,10(1):1-20.
154. Jeffery M. F., A possible correlation between light trap catches of the brown planthopper,Nilaparvata lugens and the stage of development of the rice. London: centre for oversea pestresearch,1982.
155. Kemp W. P., Kalaris T. M., Quimby W. F. Rangeland grasshopper (Orthoptera: Acrididae)spatialvariability: macroscale population assessment. Journal of Economic Entomology,1989,82(5):1270-1276.
156. Kisimoto R. Meteorological conditions inducing long-distance immigration of the brownplanthopper, Nilaparvata lugens. Chinese Journal of Entomology,1984,4(2):39-48.
157. Koch F. H., Smith W. D. Spatio-Temporal analysis of Xyleborus glabratus (Coleoptera:Circulionidae: Scolytinae) invasion in Eastern U.S. Forests. Environmental Entomology,2008,37(2):442-452.
158. Liu J. N., Gui F. R., Li Z. Y. Genetic diversity of the planthopper, Sogatella furcifera in the GreaterMekong Subregion detected by inter-simple sequence repeats (ISSR) markers. Journal of InsectScience,2010,10(52):1-14.
159. Otuka A, Matsumura M, Watanabe T, Van Dinh T. A migration analysis for rice planthoppers,Sogatella furcifera (Horvath) and Nilaparvata lugens (Stal)(Homoptera: Delphacidae), emigratingfrom northern Vietnam from April to May. Applied Entomology and Zoology,2008,43(4):527-534.
160. Otuka A, Matsumura M, Watanabe T. The search for domestic migration of the white-backedplanthopper, Sogatella furcifera (Horváth)(Homoptera: Delphacidae), in Japan[J]. AppliedEntomology and Zoology,2009,44(3):379-386.
161. Otuka A., Watanabe T., Suzuki Y., Matsumura M., Chino M., Furuno A., Kamimuro T. A migrationanalysis of Sogatella furcifera (Horvath)(Homoptera: Delphacidae) using hourly catches and athree-dimensional simulation model.Agricultural and Forest Entomology,2006,8(1):35-47.
162. Otuka A., Watanabe T., Suzuki Y., Matsumura M., Furuno A., Chino M. A migration analysis of therice planthopper Nilaparvata lugens from the Philippines to East Asia with three-dimensionalcomputer simulations. Population Ecology,2005,47(2):143-150.
163. Pedgley D. E., Scorer R. S., Purdom J. F. W., Simpson J. E., Wickham P. G., Dickison R. B. B.,Morris R. M., Drake V. A.. Concentration of flying insects by the wind. Philosophical Transactionsof the Royal Society of London. Series-B,1990,328(1251):631-653.
164. Perfect T. J., Cook A. D., Diurnal periodicity of flight in some Delphacidae and Cicadellideaassociated with rice. Ecological Entomology,1982(7):317-326.
165. Reynolds D. R., Riley J. R.. The flight behaviour and migration of insect pests: radar studies indeveloping countries. Bulletin Natural Resources Institute, No.71.1997. Chatham,UK.
166. Riley J. R., Cheng X. N., Zhang X. X.., Reynolds D. R., Xu G. M., Smith A. D., Cheng J. Y., Bao A.D., Zhai B. P. The long-distance migration of Nilaparvata lugens (Delphacidae) in China: radarobservation of mass return flight in autumn. Ecological Entomology,1991,16(4):540-582.
167. Riley J. R., Reynolds D. R., Farrow R. A. The migration of Nilaparvata lugens (St l)(Delphacidae)and other Hemiptera associated with rice during the dry season in the Philippines: a study usingradar, visual observations, aerial netting and ground trapping. Bulletin of Entomological Research,1987,77(1):145~169.
168. Riley J. R., Reynolds D. R., Mukhopadhyay S., Ghosh M. R., Sarkar T. K. Long-distancemigration of aphids and other small insects in northeast India. European Journal of Entomology,1995,92(4):639-653.
169. Riley J. R., Reynolds D. R., Smith A. D., Edwards A. S., Zhang X. X., Cheng X. N., Wang H. K.,Cheng J. Y., Zhai B. P. Observation of the autumn migration of the rice leaf roller Cnahalorocismedinalis(Lepidoptera: Pyralidae) and other moths in eastern China. Bulletin of EntomologicalResearch,1995,85(3):397-414.
170. Riley J. R., Reynolds D. R., Smith A. D., Rosenberg L. J., Cheng X. N., Zhang X. X., Xu G. M.,Cheng J. Y., Bao A. D., Zhai B. P., Wang H. K. Observations on the autumn migration ofNilaparvata lugens (Homoptera:Delphacidae) and other pests in east central china. Bulletin ofEntomological research,1994(84):389-402.
171. Riley J. R., Smith A. D., Reynolds D. R.. The feasibility of using vertical-looking radar to monitorthe migration of brown planthopper and other insect pest of rice in China. EntomologiaSinica,2003,10(01):1-19.
172. Rosenberg L. J., Magor J. I. Flight duration of the brown planthopper, Nilaparvata lugens(Hemiptera: Delphacidae). Ecological Entomology,1983,8(3):341-350.
173. Schaefer G. W. Radar observations of insect flight. In:Rainey R.C.(eds.). Insect flight (Symposia ofthe Royal Entomological Society of London. No.7,July1976) Blackwell.1976,Oxford.157-197.
174. Schotzko D. J., Kundesen G. R. Use of geostatistics to evaluate a spatial simulation of Russiawheat aphid (Homoptera:Aphididae)movement behavior on preferred and nonpreferred hosts.Environmental Entomology,1992,21(6):1271-1282.
175. Scott R. W., Achtemeier G. L. Estimation pathways of migrating insects-carried in atmosphericwinds. Environmental Entomology,1987,16(6):1244-1253.
176. Sogawa K. Interim report on the brown planthopper biotypes in vietnam. Omom Rice5,CLRRI,Vietnam,1997.
177. Way M. J., Heong K. L. The role of biodiversity in the dynamics and management of insect pestsof tropical irrigated rice-a review. Bulletin of Entomological Research,1994,84(4):567-587.
178. Wolf W. W., Westbrook J. K., Spark A. N. Relationship between radar entomologicalmeasurements and atmospheric structure in South Texas during March and April1982, In: SparksA. N.(eds.). Long-range migration of moths of agronomic importance to the United States andCanada: specific examples of occurrence and synoptic weather patterns conducive to migration,1986, USDA-ARS-43:84-97.
179. Zhu M.,Song Y. H., KiBaek U., Turner R. W., Lee J. H., Roderick G. K. Simulation of the LongRange Migration of Brown Planthopper, Nilaparvata lugens (Stal), by Using Boundary LayerAtmospheric Model and the Geographic Information System. Journal of Asia-Pacific Entomology,2000,3(1):25-32.
2. GB/T15794-1995,中华人民共和国国家标准稻飞虱测报调查规范.
3.白先达,黄超艳,唐广田,李国刚,邹丽霞,贾方曌.气象条件对稻纵卷叶螟迁飞的影响分析.中国农学通报,2010,26(21):262-267.
4.包云轩,程极益,程遐年,储长树,沈桐立.中国盛夏褐飞虱北迁过程的动态数值模拟.昆虫学报,2000,43(02):173-183.
5.包云轩,程极益,程遐年.盛夏褐飞虱北迁大发生的气象背景:个例分析.南京农业大学学报,1999,22(04):35-40..
6.包云轩,王永平,严明良,袁成松,于晓丽.2003年我国稻纵卷叶螟发生特征及其灾变大气背景的研究.气象科学,2008,28(02):184-189.
7.包云轩,徐希燕,王建强,王翠花,缪启龙,翟保平.白背飞虱重大迁入过程的大气动力背景.生态学报,2007,27(11):4527-4535.
8.包云轩.褐飞虱降落过程的动力气象学研究.[博士学位论文].南京:南京农业大学,2005.
9.蔡文华,林添忠,吴美英.福建褐飞虱迁飞降落大气环流类型研究.植物保护学报,1998,25(4):325-329.
10.陈德茂.独山县稻飞虱调查研究二:白背飞虱生物学特征的初步观察及其在测报上的应用.贵州农业科学,1980,8(4):33-38.
11.陈风波.水稻种植模式变迁对中国南方地区水稻产量的影响.新疆农垦经济,2007(8):6-10.
12.陈观浩.利用周期分析法预测稻纵卷叶螟的发生程度.昆虫知识,2004,41(3):258-260.
13.陈观浩.应用马尔可夫链法预测晚稻稻飞虱发生程度.昆虫知识,2003,40(2):176-178.
14.陈桂欢,莫益精,覃汉伟.迁飞性害虫稻飞虱和稻纵卷叶螟灰色灾变长期预测模型的研究.广西植保,1991(3):17-21.
15.陈建明,黄次伟,冯炳灿,陈水校,吴庆斋,徐建雄,何国民,郑火根,张招娣.周期图分析法在晚稻褐飞虱主害代长期预报中的应用.植物保护,1994,20(3):2-3.
16.陈若篪,程遐年,杨联民,殷向东.褐飞虱卵巢发育及其与迁飞的关系.昆虫学报,1979,22(03):280-288.
17.陈若篪,程遐年.褐飞虱起飞行为与自身生物学节律、环境因素同步关系的初步研究.南京农业大学学报,1980(02):42-49.
18.陈若箎.迁飞昆虫学.北京:农业出版社,1989.
19.陈永年,汪清武.稻纵卷叶螟飞翔特性的初步观察:Ⅲ.起飞的主动性和运转的被动性.湖南农业大学学报:自然科学版,1980,3(2):17-25.
20.程登发,封红强,吴孔明.扫描昆虫雷达与昆虫迁飞监测.北京:科学出版社,2005,12-15.
21.程极益.褐飞虱迁飞的雷达观测与轨迹研究.环境遥感,1994,9(01):51-56.
22.程家安,祝增荣.2005年长江流域稻区褐飞虱暴发成灾原因分析.植物保护,2006,32(4):1-4.
23.程遐年,陈若篪,习学,杨联民,朱子龙,吴进才,钱仁贵,杨金生.稻褐飞虱迁飞规律的研究.昆虫学报,1979,22(01:)1-21.
24.程遐年,吴进才,马飞.褐飞虱研究与防治.北京:中国农业出版社,2003.
25.程遐年,张孝羲,程极益,J. R. Riley,D.R. Reynolds.褐飞虱在中国东部秋季回迁的雷达观察.南京农业大学学报,1994,17(03):24-32.
26.邓望喜.飞机网捕褐飞虱及白背飞虱的研究初报.昆虫知识,1980,17(3):97-101.
27.封传红,翟保平,陈庆华,汤金仪.利用850hPa气流资料分析稻飞虱迁飞路径.中国农业气象,2003,24(03):31-35.
28.封传红,翟保平,张孝羲,汤金仪.我国低空急流的时空分布与稻飞虱北迁.生态学报,2002,22(04):559-565..
29.高月波,陈晓,陈钟荣,包云轩,杨荣明,刘天龙,翟保平.稻纵卷叶螟(Cnaphalocrocismedinalis)迁飞的多普勒昆虫雷达观测及动态.生态学报,2008,28(11):5238-5247.
30.耿济国,张建新,张孝羲,J.I.Magor,J.Pendor.海捕回迁稻纵卷叶螟轨迹分析.南京农业大学学报,1990,13(03):48-53.
31.郭世平.稻纵卷叶螟三代发生期及发生程度预测模型研究.昆虫知识,1993(5):257-259.
32.胡高,包云轩,王建强,翟保平.褐飞虱的降落机制.生态学报,2007,27(12):5068-5075.
33.胡国文.白背飞虱成虫起飞的影响因素.西南农学院学报,1982(1):59.
34.胡继超,程极益,储长树,沈桐立.褐飞虱在我国东部地区秋季回迁的三维轨迹研究.中国农业气象,1997,18(05):1-18.
35.胡荣利,徐蕾,周福才,鞠国钢,陆自强.沿江稻区第四代稻纵卷叶螟成灾机制.植物保护学报,2005,32(4):392-396.
36.湖南农学院农学系昆虫教研室.稻纵卷叶螟飞翔特性的初步观察——Ⅰ.飞翔持续时间和振翅频率.湖南农学院学报,1979,7(3):42-47.
37.湖南农学院农学系昆虫教研室.稻纵卷叶螟飞翔特性的初步观察——Ⅱ.飞翔前期、飞翔起始温度及起飞蛾龄.湖南农学院学报,1979,7(4):17-25.
38.华红霞,邓望喜,李儒海.长江中游稻区夏季飞机航捕迁入褐飞虱的轨迹分析.昆虫学报,2002,45(01):68-74.
39.黄保宏,雷鸣.用模糊贴近度预测稻纵卷叶螟发生高峰期.植物保护,1998,24(6):22-24.
40.黄彤文.稻纵卷叶螟垂直迁飞初探.福建农业科技,1989(01):9-11.
41.黄秀清,邬楚中,洪福来.田间稻纵卷叶螟卵巢发育进度的变动及虫源性质的分析.昆虫知识,1981,17(02):52-54.
42.黄学飞,张孝羲,翟保平.交配对稻纵卷叶螟飞行能力及再迁飞能力的影响.南京农业大学学报,2010,33(5):23-28.
43.霍治国,陈林,叶彩玲,刘玲.气候条件对中国水稻稻飞虱为害规律的影响.自然灾害学报,2002,11(01):97-102.
44.季蓉,谢宝瑜,李哲,李典谟,孟冬丽.基于GIS和GS的东亚飞蝗卵块空间格局的研究.昆虫学报,2006,49(3):410-415.
45.蒋春先,齐会会,孙明阳,武俊杰,张云慧,程登发.2010年广西兴安地区稻纵卷叶螟发生动态及迁飞轨迹分析.生态学报,2011,31(21):6495-9504.
46.焦汝志,王虹.用Fuzzy分析方法预报稻纵卷叶螟第三代发生程度.广西植保,1999,12(1):6-8.
47.赖仲廉.贵阳地区白背飞虱的越冬以及迁飞的观察.昆虫学报,1982,25(4):397-402.
48.李火痀.灰色聚类在病虫测报中的应用.江西农业大学学报,1993,15(4):454-460.
49.李青,罗善昱,韦素美,黄凤宽.褐飞虱生物型测定及其与迁飞关系分析.昆虫知识,1999,35(05):257-260.
50.李汝泽,丁锦华,胡文国.褐飞虱及其种群管理.上海:复旦大学出版社,1995.
51.李云瑞.农业昆虫学(南方本).北京:中国农业出版社,2002.
52.梁载林,齐国君,张孝羲,黄学飞,甘宁.2008年永福县早稻田稻纵卷叶螟发生动态及虫源性质.昆虫知识,2009,46(3):394-398.
53.刘浩光,刘振杰,祝为华.我国海上网捕褐稻虱的结果.昆虫学报,1983,26(01):109-113.
54.刘佳妮,桂富荣,李正跃.影响白背飞虱翅型分化的相关因子.植物保护学报,2010,37(6):511-516.
55.刘立春.不同单管双光灯诱虫实验及其田间应用效果.昆虫知识,1982,19(5):27-31.
56.刘立春.诱虫灯的研究进展及应用概况.华东昆虫学报,1994,3(1):75-78.
57.刘芹轩,吕万明,张桂芳.白背飞虱的生物学和生态学研究.中国农业科学,1982,15(3):59-66.
58.刘芹轩,张桂芬.白背飞虱飞翔活动研究.昆虫知识,1984,21(6):241-242.
59.刘宇,王建强,冯晓东,蒋学辉.2007年全国稻纵卷叶螟发生实况分析与2008年发生趋势预测.中国植保导刊,2008,28(07):33-35.
60.吕万明.白背飞虱雌性生殖系统的构造和卵巢发育分级的初步观察.昆虫知识,1980,16(04):182-183.
61.马飞,程遐年.害虫预测预报研究进展(综述).安徽农业大学学报,2001,28(1):92-97.
62.齐国君,梁载林,辛德育,曹相余,甘宁,张孝羲,翟保平.广西永福县近年来早稻田稻纵卷叶螟连年大发生的原因分析.环境昆虫学报,2009,31(2):95-101.
63.齐国君,芦芳,高燕,梁居林,蓝日青,张孝羲,翟保平,吕利华.稻纵卷叶螟2010年的一次迁飞过程及其虫源分析,昆虫学报,2011,54(10):1194-1203.
64.齐国君,秦冉冉,肖满开,郑兆阳,江潮,程遐年,张孝羲,翟保平.安徽安庆混作稻区稻纵卷叶螟第三、四代发生规律研究.中国水稻科学,2008,22(5):513-518.
65.齐会会,张云慧,程登发,韩二宾,孙京瑞.褐飞虱2009年秋季回迁的雷达监测及轨迹分析.昆虫学报,2010,53(1):1256~1264.
66.齐会会,张云慧,蒋春先,孙明阳,杨秀丽,程登发.广西北部稻区白背飞虱早期迁入虫源分析.中国农业科学,2011,44(16):3333-3342.
67.全国稻纵卷叶螟研究协作组.我国稻纵卷叶螟迁飞规律研究进展.中国农业科学,1981(5):1-8.
68.全国褐稻虱科研协作组.我国褐稻虱迁飞规律研究的进展.中国农业科学,1981(02):52-59.
69.全国褐稻虱联合测报网.我国褐稻虱的发生动态及其预测预报.中国农业科学,1980(03):58-64.
70.上海稻纵卷叶螟海捕协作组.海捕稻纵卷叶螟——发生与回迁.植物保护,1981,7(6):8-9.
71.沈慧梅,孔丽萍,章霜红,张孝羲,翟保平.福建省白背飞虱前期迁入虫源分析.昆虫学报,2011,54(6):701-713.
72.沈慧梅,吕建平,周金玉,张孝羲,程遐年,翟保平.2009年云南省白背飞虱早期迁入种群的虫源地范围与降落机制.生态学报,2011,31(15):4350-4364.
73.石尚柏,李绍石,胡伯海.稻纵卷叶螟.北京:中国农业出版社,1997:13-17.
74.苏庆玲,张孝羲.逐步回归在稻纵卷叶螟中期预测上的应用.南京农业大学学报,1995,18(3):43-47.
75.陶林勇.中国龙游和越南Omon褐飞虱种群特性测定.植物保护,1995,21(01):2-4.
76.汪疏才,胡国文,谢明霞.我国白背飞虱和褐飞虱迁飞路线和气流分析.植物保护学报,1982,9(2):68-73.
77.汪四水,张孝羲,汤金仪.基于地理信息系统的稻纵卷叶螟的灾变动态显示系统.昆虫学报,2001,44(2):252-256.
78.汪四水,张孝羲,张夕林.稻纵卷叶螟发生成都的神经网络预警.生物数学学报,2003,18(3):93-97.
79.汪四水,张孝羲.基于神经网络的稻纵卷叶螟长期预测.植物保护学报,2000,27(4):313-316.
80.汪远昆.白背飞虱(Sogatella furcifera)的迁飞生物学和田间种群动态.[硕士学位论文].南京:南京农业大学,2003.
81.王长委,胡明月,谢健文,邹寿发,黄得超.基于GIS稻飞虱种群时空变化分析.农业工程学报,2009,25(10):171-175.
82.王翠花,包云轩,王建强,向勇,翟保平.2003年稻纵卷叶螟重大迁入过程的大气动力机制分析.昆虫学报,2006,49(04):604-612.
83.王翠花,包云轩,王建强,翟保平,向勇.2003年稻纵卷叶螟大发生的水汽条件分析.应用生态学报,2006,17(09):1693-1698.
84.王凤英,胡高,陈晓,沈慧梅,罗善煜,辛德育,徐盛刚,张孝羲,翟保平.近年来广西南宁稻纵卷叶螟大发生原因分析.中国水稻科学,2009,23(05):537-545.
85.王海建,杨茂发,李庆,杨群芳,李子忠.稻飞虱发生程度的神经网络模型拟合研究.四川农业大学学报,2006,24(1):38-60.
86.王正军,李典谟,谢宝瑜.基于GIS和GS的棉铃虫卵空间分布与动态分析.昆虫学报,2004,47(1):33-40.
87.王正军,张爱兵,程家安,李典谟.基于GIS的种群动态的时空分析与模拟研究的方法进展.生态学报,2002,22(1):104-109.
88.巫国瑞,俞晓平,陶林勇.褐飞虱和白背飞虱灾害的长期预测.中国农业科学,1997,30(4):25-29.
89.吴孔明,程登发,徐广,翟保平,郭予元.华北地区昆虫秋季迁飞的雷达观测.生态学报,2001,21(11):1833-1838.
90.吴孔明,翟保平,封洪强,程登发,郭予元.华北北部地区二代棉铃虫成虫迁飞行为的雷达观测.植物保护学报,2006,33(2):163-167.
91.徐汝梅,成新跃.昆虫种群生态学.基础与前沿.北京:科学出版社,2005:3-18.
92.许瑞秋,刘浩官.山区稻纵卷叶螟垂直迁飞的研究.福建农业学报,1998(01):41-44.
93.闫香慧,刘彦汐.褐飞虱空间格局的地统计学分析.西华师范大学(自然科学版),2011,32(1):50-54.
94.闫香慧,赵志谟,刘怀,肖晓华,谢雪梅,程登发.白背飞虱若虫空间格局的地统计学分析.中国农业科学,2010,43(3):497-506.
95.闫香慧,赵志模,刘怀,谢雪梅,肖晓华,程登发.应用马尔可夫链理论对褐飞虱和白背飞虱发生程度的预测.生态学报,2009,29(11):5799-5806.
96.扬帆,郑大兵,赵运,王丽,徐杨洋,齐国君,徐劲峰,吴彩玲,张孝羲,程遐年,翟保平.白背飞虱的迁飞生物学:安徽潜山个例分析.应用昆虫学报,2011,48(5):1231-1241.
97.杨秀丽,陈林,程登发,孙京瑞等.毫米波扫描昆虫雷达空中昆虫监测的初步应用.植物保护,2008,34(02):31-36.
98.杨秀丽.广西地区褐飞虱、白背飞虱和稻纵卷叶螟的毫米波扫描昆虫雷达监测.[硕士学位论文].北京:中国农业科学院,2008.
99.袁仁阶.多元模糊回归预测白背飞虱主害代发生程度.昆虫知识,1998,35(1):1-2.
100.翟保平,程家安.2006年水稻两迁害虫研讨会纪要.昆虫知识,2006,43(4):585-588.
101.翟保平,张孝羲,程遐年.昆虫迁飞行为的参数化1:行为分析.生态学报,1997,17(1):7-17.
102.翟保平,张孝羲.稻纵卷叶螟标记蛾迁飞轨迹的数值模拟.西南农业大学学报,1998,20(05):156-163.
103.翟保平,张孝羲.迁飞过程中昆虫的行为:对风温场的适应与选择.生态学报,1993,13(04):356-363.
104.翟保平.昆虫雷达:从研究型到实用性.遥感学报,2001,5(3):231-240.
105.翟保平.昆虫雷达让我们看到了什么?昆虫知识,2005,42(2):217-226.
106.翟保平.区域尺度的昆虫迁飞行为与害虫间歇性猖獗.生态学杂志,1999(04):42-45.
107.张孝羲,耿济国,陆自强,李国柱,陈学礼,吴文学.稻纵卷叶螟迁飞途径的研究.昆虫学报,1980,23(2):130-139.
108.张孝羲,耿济国,周威君.稻纵卷叶螟迁飞规律的研究进展.植物保护,1981(06):2-7.
109.张孝羲,耿济国,周威君.我国稻纵卷叶螟Cnaphalocrocis medinalis Guenée迁飞规律的研究.南京农学院学报,1981,3(9):43-54.
110.张孝羲,陆自强,耿济国.稻纵卷叶螟雌蛾解剖在测报上的应用.昆虫知识,1979,16(3):97-99.
111.张孝羲,陆自强,耿济国.稻纵卷叶螟迁飞途径的研究.昆虫学报,1980,23(2):130-140.
112.张孝羲,周立阳,程极益.江淮稻区稻纵卷叶螟轨迹分析参数的推算.南京农业大学学报,1994,17(1):32-38.
113.张孝羲,周威君,耿济国,苏庆玲,朱玉成,汤金仪.稻纵卷叶螟成虫迁飞与能源物质的研究.植物保护学报,1983,10(03):153-159.
114.张云慧,陈林,程登发,姜玉英,张跃进.步甲夜间迁飞习性的探讨,中国农业科学,2008,41(1):108-115.
115.张云慧,陈林,程登发,姜玉英,吕英.草地螟2007年越冬代成虫迁飞行为研究与虫源分析.昆虫学报,2008,51(7):720-727.
116.张云慧,陈林,程登发,张跃进,姜玉英,蒋金炜.旋幽夜蛾迁飞的雷达观测和虫源分析,昆虫学报,2007,50(5):494-500.
117.张云慧,程登发,姜玉英,张跃进,孙京瑞.北京地区越冬代旋幽夜蛾迁飞的虫源分析.中国农业科学,2010,43(9):1815-1822.
118.赵建伟,何玉仙,翁启勇.诱虫灯在中国的应用研究概况.华东昆虫学报,2008,17(1):76-80.
119.郑祖强,张孝羲.稻纵卷叶螟飞翔能力的研究.中国昆虫学会生态专业委员会,1989.22-23.
120.中日稻飞虱越冬考察组.云南稻飞虱冬季虫源考察.云南农业科技,2000(4):3-5.
121.周立阳,张孝羲.江淮稻区稻纵卷叶螟异地预测预报.南京农业大学学报,1995,18(4):39-45.
122.周强,张润杰,古德祥,邹寿发,徐起峰.大尺度下褐飞虱种群空间结构初步分析.应用生态学报,2001,12(2):249-252.
123.周强,张润杰,古德祥.白背飞虱在稻田内空间结构的分析.昆虫学报,2003,46(2):171-177.
124.周强,张润杰,古德祥.褐飞虱与白背飞虱自然种群空间关系.中山大学学报(自然科学版)2000,39(S2):73-77.
125.邹运鼎,陈基诚,王士槐.稻纵卷叶螟胸部能源物质含量和脂肪酶活力与迁飞关系初步探讨.昆虫知识,1983,19(05):200-202.
126. Arturo C., Antonio Q. C., Patrizia E.. Giovanni N., Pietro L. Spatial analysis of gypsy mothpopulations in Sardinia using geostatistical and climate models. Agricultural and ForestEntomology,2010,12(4):417-426
127. Basoalto E., Miranda M., Knight A.L. Fuentes-Contreras E. Landscape analysis of adult codlingmoth (Lepidoptera:Tortricidae) distribution and dispersal within typical agroecosystems dominatedby apple production in central Chile. Environmental Entomology,2010,39(5):1399-1408.
128. Beerwinkle K. R., Lopez J. D., Witz J. A., Schleider P. G., Eyster R. S., Lingren P. D. SeasonalRadar and Meteorological Observations Associated with Nocturnal Insect Flight at Altitudes to900Meters. Environmental Entomology,1994,23(3):676-683.
129. Beerwinkle K. R., Witz J. A., Schleider P. G. An automated, vertical looking, X-band radar systemfor continuously monitoring aerial insect activity. American Society of Agricultural and BiologicalEngineers,1993,36(3):965~970.
130. Beerwinkle, K. R., Lopez, J. D., Schleider, P. G., Lingren, P. D. Annual patterns of aerial insectdensities at altitude from500to2400meters in east-central Texas indicated bycontinuously-operating vertically-oriented radar. Southwestern Entomologist.1995,18(Supp):63~79.
131. Chapman J.W., Reynolds D.R., Smith A.D. Vertical-looking radar: A new tool for monitoringhigh-altitude insect migration. Bioscience,2003,53(5):503-511.
132. Cheng D. F., Wu, K. M., Tian Z., Wen L. P., Shen Z. R. Acquisition and analysis of migration datafrom the digitised display of a scanning entomological radar. Computers and Electronics inAgriculture,2002,35(2-3):63~75.
133. Cheng J. A. Rice planthopper problems and relevant causes in China. In: Heong K.L, Hardy B(eds). Planthoppers: New Threats to the Sustainability of Intensive Rice Production Systems inAsia. Los Ba os: International Rice Research Institute.2009:157-178.
134. Davis J. M., Modeling the long-range transport of plant pathogens in the atmospheres. Annualreview of phytopathology,1987,25(2):169-188.
135. Dingle H,1996. Migration: the Biology of life on the move. Oxford University Press, Oxford.
136. Dingle H. The biology of life on the move. Oxford: Oxford University Press,1996.
137. Domino R. P., Showers W. P., Taylor S. E., Shaw R. H. Spring weather pattern associated withsuspected black cutworm moth (Lepidoptera: Noctuidae) introduction to Iowa. EnvironmentalEntomology,1983,12(6):1863-1872.
138. Drake V. A. Radar observations of moths migrating in a nocturnal low-level jet. EcologicalEntomology.1985,10(3):259-265.
139. Draxler R. R. Hess G. D. An overview of the Hysplit-4modeling system for trajectories, dispersion,and deposition. Australia Meteorological management,1998,47:295-308.
140. Draxler R. R. Trajectory optimization for balloon flight planning. Weather andForecasting,1996,(11):111-114.
141. Draxler R.R. Hess G.D. Description of the Hysplit-4modeling system. NOAA TechnicalMemorandum ERL ARL,1997,224:24.
142. Feng H. Q., Wu K. M., Cheng D. F., Guo Y. Y. Northward migration of Helicoverpa armigera(Lepidoptera:Noctuidae) and other moths in early summer observed with radar in northern China.Journal of Economic Entomology,2004,97:1874~1883.
143. Feng H. Q., Wu K. M., Cheng D. F., Guo Y. Y. Radar observation of the autumn migration of thebeet armyworm Spodoptera exigua (Lepidoptera: Noctuidae) and other moths in northern China.Bulletin of Entomological Research,2003,93(2):115~124.
144. Feng H. Q., Wu K. M., Cheng D. F., Guo Y.Y. Spring migration and summer dispersal ofLoxostege sticticalis (Lepidoptera: Pyralidae) and other insects observed with radar in northernChina. Environmental Entomology,2004,33(5):1253~1265.
145. Feng H. Q., Wu K. M., Ni Y. X., Cheng D. F., Guo Y. Y. High-altitude windborne transport ofHelicoverpa armigera (Lepidoptera: Noctuidae) and other moths in mid-summer in northern China.Journal of Insect Behavior,2005,18(3):335~350.
146. Feng H. Q., Wu K. M., Ni Y. X., Cheng D. F., Guo Y. Y. Nocturnal migration of dragonflies overthe Bohai Sea in northern China. Ecological Entomology,2006,31:511~520.
147. Feng H. Q., Wu K. M., Ni Y. X., Cheng D. F., Guo Y. Y. Return migration of Helicoverpa armigera(Lepidoptera: Noctuidae) during autumn in northern China. Bulletin of Entomological Research,2005,95(4):361~370.
148. Feng H. Q., Wu X. F., Wu B, Wu K. M. Seasonal migration of Helicoverpa armigera (Lepidoptera:Noctuidae) over the Bohai Sea. Journal of Economic Entomology,2009,102(1):95~104.
149. Feng H. Q., Zhang Y. H., Wu K. M., Cheng D. F., Guo Y. Y.. Nocturnal windborne migration ofground beetles (Coleoptera: Carabidae) in China. Agricultural and Forest Entomology,2007,9(2):103~113.
150. Heong K. L., Hardy B. Planthoppers: new threat to the sustainability of intensive rice productionsystems in Asia. Los Ba os (Philippines): International Rice Research Institute,2009:191-220.
151. Hu G., Cheng G. J., Wang F. Y., Lu F., Zhang X. X., Zhai B. P. Rice planting sysem, globalwarming and outbreaks of Nilaparvata lugens(St l). Bulletin of Entomological Research,2010,1~13.
152. Ifoulis A. A., Savopoulou-Soultani M. Use of geostatistical analysis to characterize the spatialdistribution of Lobesia botrana (Lepidoptera:Tortricidae) larvae in Northern Greece.Environmental Entomology,2006,35(2):497-506.
153. Iwao S. A new regression method for analyzing the aggregation pattern of animal populations.Researches on Population,1968,10(1):1-20.
154. Jeffery M. F., A possible correlation between light trap catches of the brown planthopper,Nilaparvata lugens and the stage of development of the rice. London: centre for oversea pestresearch,1982.
155. Kemp W. P., Kalaris T. M., Quimby W. F. Rangeland grasshopper (Orthoptera: Acrididae)spatialvariability: macroscale population assessment. Journal of Economic Entomology,1989,82(5):1270-1276.
156. Kisimoto R. Meteorological conditions inducing long-distance immigration of the brownplanthopper, Nilaparvata lugens. Chinese Journal of Entomology,1984,4(2):39-48.
157. Koch F. H., Smith W. D. Spatio-Temporal analysis of Xyleborus glabratus (Coleoptera:Circulionidae: Scolytinae) invasion in Eastern U.S. Forests. Environmental Entomology,2008,37(2):442-452.
158. Liu J. N., Gui F. R., Li Z. Y. Genetic diversity of the planthopper, Sogatella furcifera in the GreaterMekong Subregion detected by inter-simple sequence repeats (ISSR) markers. Journal of InsectScience,2010,10(52):1-14.
159. Otuka A, Matsumura M, Watanabe T, Van Dinh T. A migration analysis for rice planthoppers,Sogatella furcifera (Horvath) and Nilaparvata lugens (Stal)(Homoptera: Delphacidae), emigratingfrom northern Vietnam from April to May. Applied Entomology and Zoology,2008,43(4):527-534.
160. Otuka A, Matsumura M, Watanabe T. The search for domestic migration of the white-backedplanthopper, Sogatella furcifera (Horváth)(Homoptera: Delphacidae), in Japan[J]. AppliedEntomology and Zoology,2009,44(3):379-386.
161. Otuka A., Watanabe T., Suzuki Y., Matsumura M., Chino M., Furuno A., Kamimuro T. A migrationanalysis of Sogatella furcifera (Horvath)(Homoptera: Delphacidae) using hourly catches and athree-dimensional simulation model.Agricultural and Forest Entomology,2006,8(1):35-47.
162. Otuka A., Watanabe T., Suzuki Y., Matsumura M., Furuno A., Chino M. A migration analysis of therice planthopper Nilaparvata lugens from the Philippines to East Asia with three-dimensionalcomputer simulations. Population Ecology,2005,47(2):143-150.
163. Pedgley D. E., Scorer R. S., Purdom J. F. W., Simpson J. E., Wickham P. G., Dickison R. B. B.,Morris R. M., Drake V. A.. Concentration of flying insects by the wind. Philosophical Transactionsof the Royal Society of London. Series-B,1990,328(1251):631-653.
164. Perfect T. J., Cook A. D., Diurnal periodicity of flight in some Delphacidae and Cicadellideaassociated with rice. Ecological Entomology,1982(7):317-326.
165. Reynolds D. R., Riley J. R.. The flight behaviour and migration of insect pests: radar studies indeveloping countries. Bulletin Natural Resources Institute, No.71.1997. Chatham,UK.
166. Riley J. R., Cheng X. N., Zhang X. X.., Reynolds D. R., Xu G. M., Smith A. D., Cheng J. Y., Bao A.D., Zhai B. P. The long-distance migration of Nilaparvata lugens (Delphacidae) in China: radarobservation of mass return flight in autumn. Ecological Entomology,1991,16(4):540-582.
167. Riley J. R., Reynolds D. R., Farrow R. A. The migration of Nilaparvata lugens (St l)(Delphacidae)and other Hemiptera associated with rice during the dry season in the Philippines: a study usingradar, visual observations, aerial netting and ground trapping. Bulletin of Entomological Research,1987,77(1):145~169.
168. Riley J. R., Reynolds D. R., Mukhopadhyay S., Ghosh M. R., Sarkar T. K. Long-distancemigration of aphids and other small insects in northeast India. European Journal of Entomology,1995,92(4):639-653.
169. Riley J. R., Reynolds D. R., Smith A. D., Edwards A. S., Zhang X. X., Cheng X. N., Wang H. K.,Cheng J. Y., Zhai B. P. Observation of the autumn migration of the rice leaf roller Cnahalorocismedinalis(Lepidoptera: Pyralidae) and other moths in eastern China. Bulletin of EntomologicalResearch,1995,85(3):397-414.
170. Riley J. R., Reynolds D. R., Smith A. D., Rosenberg L. J., Cheng X. N., Zhang X. X., Xu G. M.,Cheng J. Y., Bao A. D., Zhai B. P., Wang H. K. Observations on the autumn migration ofNilaparvata lugens (Homoptera:Delphacidae) and other pests in east central china. Bulletin ofEntomological research,1994(84):389-402.
171. Riley J. R., Smith A. D., Reynolds D. R.. The feasibility of using vertical-looking radar to monitorthe migration of brown planthopper and other insect pest of rice in China. EntomologiaSinica,2003,10(01):1-19.
172. Rosenberg L. J., Magor J. I. Flight duration of the brown planthopper, Nilaparvata lugens(Hemiptera: Delphacidae). Ecological Entomology,1983,8(3):341-350.
173. Schaefer G. W. Radar observations of insect flight. In:Rainey R.C.(eds.). Insect flight (Symposia ofthe Royal Entomological Society of London. No.7,July1976) Blackwell.1976,Oxford.157-197.
174. Schotzko D. J., Kundesen G. R. Use of geostatistics to evaluate a spatial simulation of Russiawheat aphid (Homoptera:Aphididae)movement behavior on preferred and nonpreferred hosts.Environmental Entomology,1992,21(6):1271-1282.
175. Scott R. W., Achtemeier G. L. Estimation pathways of migrating insects-carried in atmosphericwinds. Environmental Entomology,1987,16(6):1244-1253.
176. Sogawa K. Interim report on the brown planthopper biotypes in vietnam. Omom Rice5,CLRRI,Vietnam,1997.
177. Way M. J., Heong K. L. The role of biodiversity in the dynamics and management of insect pestsof tropical irrigated rice-a review. Bulletin of Entomological Research,1994,84(4):567-587.
178. Wolf W. W., Westbrook J. K., Spark A. N. Relationship between radar entomologicalmeasurements and atmospheric structure in South Texas during March and April1982, In: SparksA. N.(eds.). Long-range migration of moths of agronomic importance to the United States andCanada: specific examples of occurrence and synoptic weather patterns conducive to migration,1986, USDA-ARS-43:84-97.
179. Zhu M.,Song Y. H., KiBaek U., Turner R. W., Lee J. H., Roderick G. K. Simulation of the LongRange Migration of Brown Planthopper, Nilaparvata lugens (Stal), by Using Boundary LayerAtmospheric Model and the Geographic Information System. Journal of Asia-Pacific Entomology,2000,3(1):25-32.