基于地统计学的新疆棉田烟粉虱(Bemisia tabaci (Gennadius))危害动态与时空分布

应用地统计学(GS)的原理与方法研究了外来入侵有害生物烟粉虱(Bemisia tabaci (Gennadius))为害新疆棉田的时空动态,并与经典统计学进行对比分析.两种方法一致表明,烟粉虱成虫在空间上呈聚集分布的格局,而各时期成虫的聚集程度依据空间变异随机程度所占的比例不同而不同.经频次分布检验,以零频率法参数拟合的负二项分布来表达其空间分布型最为合适.运用GS的分析方法,进一步得到种群分布面积变化与扩散的趋势,并依此对昆虫种群的扩散模型进行模拟.棉田烟粉虱成虫在田间7～8月份均存在一定的空间相关性,随机程度为19.22%～49.99%;空间相关距离(相关程)在一个月内从32m急速增至6372m,随后在2000～3000m的范围波动.从整个发生过程看出,烟粉虱从越冬场所顺风侵入大田后,迁飞扩散在很大程度上受风向的影响,属于典型的借助风力扩散的昆虫,其在棉田的垂直分布则与吐鲁番地区独特的暖温带大陆性干旱荒漠气候特征有关.顺风扩散时多从棉株上部叶片开始危害, 而逆风扩散时从棉株中、下部叶片危害.烟粉虱在棉株上建立稳定种群后,中、下部虫口密度要略高于上部, 这是烟粉虱对吐鲁番地区特殊气候的适应.     

烟粉虱MED隐种在不同种植模式棉田中的分布型研究

2012年在河北廊坊通过调查作物围种和作物间作两种不同种植模式棉田中烟粉虱Bemisia tabaci（Gennnadius）MED隐种的分布情况得知,烟粉虱在棉花植株上的垂直分布型为聚集分布,上部和中部叶具有比下部叶较多的烟粉虱种群密度。烟粉虱在棉田中的水平分布情况为：未成熟虫期种群在样地中央和样地边缘种群密度无显著差异,在整个发生期属均匀分布;成虫种群在主要发生期围种模式棉田中样地中央的种群密度显著高于样地边缘的种群密度,属于聚集分布,主要分布于样地中央,在整个发生期种群也主要聚集于样地中央分布;而间作模式棉田样地中央和样地边缘的种群密度无显著差异属于均匀分布。说明围种模式在增加了样地边缘的植物物种多样性对烟粉虱成虫的水平分布有较大影响,通过改变种植模式能显著影响烟粉虱成虫在棉田的分布。     

棉株上烟粉虱若虫种群的垂直分布与统计方法研究

对烟粉虱Bemisiatabaci在棉花植株上的垂直分布调查发现 ,烟粉虱在棉株各部位均有分布 ,且分布极不均匀 ,统计分析表明棉株各部位间烟粉虱的种群数量存在显著的差异。棉花顶部烟粉虱的若虫数量约占全棉株若虫总量的 1 6%,通过对棉株各部位烟粉虱的若虫数量与整株若虫总量的回归分析 ,建立了相应的回归方程式     

烟粉虱若虫在甘蓝和花椰菜莲座期不同叶位层上的分布

对烟粉虱Bemisia tabaci(Gennadius)若虫在花椰菜Brassica oleraceavar.italica和甘蓝Brassica oleraceavar.capitata不同叶位层的分布调查结果显示,烟粉虱若虫在菜株各部位均有分布,但各部位间极不均匀。统计分析表明:其若虫的种群数量在同种蔬菜的菜株各部位间均存在极显著的差异。但在2种叶菜寄主间同一部位上烟粉虱若虫的种群数量差异不明显。通过对菜株各部位烟粉虱若虫量与整株总量的回归分析,建立了叶菜植株不同部位烟粉虱虫量与全株总虫量的回归方程及多元回归模型。     

烟粉虱成虫空间分布型的研究

对烟粉虱Bemisiatabaci成虫在单株茄子(SolanummelongenaL.)、西瓜(CitrullusvulgarisSchard)和甜瓜(CucumismeloL.)上的分布规律及其空间分布型进行了研究。在植株上中部较幼嫩且已充分展开之叶片上烟粉虱成虫数量最多,成虫呈聚集分布。成虫在黄瓜(CucumissativusL.)上亦呈聚集分布,确定了不同虫口密度情况下的最适抽样数。     

B型烟粉虱对寄主转换的适应性

将B型烟粉虱分别从嗜性较强的番茄上转移到嗜性相对较弱的国抗22棉花、泗棉3号棉花和辣椒上, 以及从嗜性较弱的辣椒上转移到嗜性相对较强的番茄、国抗22棉花和泗棉3号棉花上, 观察寄主转移后的F₁代、F₂代、F₃代烟粉虱产卵效应和寄主适应度的变化;将F₄代烟粉虱再转移到原寄主, 观察烟粉虱产卵效应和寄主适应度的恢复情况。结果表明, 烟粉虱在不同嗜性寄主上的产卵效应存在明显的差异。在不同嗜性的寄主之间转移, 烟粉虱的寄主适应度变化趋势不同, 从嗜性较强的寄主转移到嗜好性相对较弱的寄主上, 烟粉虱的寄主适应度迅速下降;从嗜性较弱的寄主向嗜性较强的寄主转移后, 烟粉虱的适应度则会迅速提高。烟粉虱对新寄主的适应速度与其对原寄主和新寄主之间的嗜性差异程度有关, 但一般经过1-2个世代后, 产卵效应会逐渐恢复到烟粉虱在该寄主上的正常水平。从过渡寄主转移到原寄主, 烟粉虱的寄主适应度变化符合一般的寄主转移规律, 但嗜性相对较强的过渡寄主可以刺激烟粉虱提高寄主适应性。     

不同邻作作物对番茄田间烟粉虱种群动态的影响

为明确不同邻作模式下番茄田间烟粉虱的种群动态与空间分布格局,于云南省昆明市选取与西葫芦、黄瓜、玫瑰等作物邻作的番茄田及单作番茄田为研究样地,通过五点取样法进行调查,采用四分位法对不同作物邻作的番茄田间烟粉虱种群动态进行分析。结果表明:在烟粉虱的主要发生期,番茄单作田间烟粉虱种群数量最高,雌成虫达26.69头·叶^-1,雄成虫达6.74头·叶^-1,若虫达16.47头·叶^-1,与西葫芦、黄瓜、玫瑰邻作的番茄田间烟粉虱种群数量均较低,且与黄瓜邻作的番茄田间烟粉虱主要发生时期较短,发生高峰期最晚。在整个调查期内,所有邻作模式的番茄田间烟粉虱雌虫数量均高于雄虫;在烟粉虱的主要发生期,与西葫芦邻作的番茄田间烟粉虱性比最高,达8.20。不同邻作模式番茄田间烟粉虱成虫数量均在番茄植株上部叶片最多,下部叶片最少;烟粉虱若虫数量均在番茄植株中部叶片最多,上部叶片最少。在番茄植株不同部位,烟粉虱成虫和若虫数量均在番茄单作田间最大,在邻作玫瑰的番茄田最少。可考虑在烟粉虱严重为害的番茄种植区附近种植玫瑰等花卉,以降低烟粉虱的种群数量。     

转Bt基因棉对棉大卷叶螟种群动态的影响

2年的研究发现,棉大卷叶螟SyleptaderogataFabricius的种群数量在不同棉花品种田均呈现上升趋势,但转基因抗虫棉“国抗2 2”的为害程度及百株虫量均小于亲本对照棉“泗棉3号”,其差异达显著或极显著水平;该虫的室内饲养结果表明,2个棉花品种均有利于棉大卷叶螟的增殖,但“国抗2 2”对棉大卷叶螟的抗性明显优于“泗棉3号”,且对棉大卷叶螟成虫存在一定的产卵排斥效应。     

Spatial distribution of Apolygus lucorum in cotton fields

2009-2010年于河北省廊坊市对棉田绿盲蝽Apolygus lucorum(Meyer-Dür)的空间分布型及其抽样模型进行了研究.结果表明,绿盲蝽成虫空间分布型与其种群密度有关,当种群密度大于百株1.6头时呈随机分布,当小于百株1.6头时一般呈聚集分布;绿盲蝽若虫在不同种群密度下均呈聚集分布;绿盲蝽整个种群呈Possion分布.应用Iwao的抽样模型建立了棉田绿盲蝽的理论抽样数公式:N=(1.35/-(x))/D2.     

寄主植物对B型烟粉虱(Bemisia tabaci)和温室粉虱(Trialeurodes vaporariorum)个体发育和种群繁殖的影响

烟粉虱Bemisia tabaci（Gennadius）和温室粉虱Trialeurodes vaporariorum（Westwood）在我国北方常混合发生,为了解两种粉虱所造成的危害和自身种群的增长变化,制定科学的综合防治措施,在（27±1）℃条件下研究了两种粉虱在棉花Gossypium hirsutum L.（泗棉3号）、黄瓜Cucumis sativas L.（北京202）、茄子Solanum melongena L.（北京七叶茄）和番茄Lycopersicum esculentum Mill.（佳粉十号）上各虫态大小、存活率、发育历期、成虫寿命、平均产卵量等生物学参数。在同一种寄主植物上,温室粉虱的1,2龄若虫的体长和体宽均显著大于烟粉虱,3龄以后两种粉虱的体型则变异较大。两种粉虱从卵到成虫羽化,在棉花上的发育历期无显著差异,在黄瓜、茄子和番茄上,温室粉虱的发育历期（19.7、19.4、20.8d）显著长于烟粉虱（17.3、17.6、18.3d）。在黄瓜和番茄上,烟粉虱的平均寿命（31.2、32.1）显著长于温室粉虱的平均寿命（26、24.9d）;在棉花、黄瓜和番茄上,烟粉虱的单雌产卵量（122.2、220.2、266．5粒）显著高于温室粉虱（97．1、186．6、197．1粒）。烟粉虱在棉花、黄瓜、茄子和番茄上的总存活率分别为67.9％、77.8％、67.8％和59．0％,温室粉虱依次为62．2％、67．2％、64．4％和66．1％。综合比较4种寄主植物,烟粉虱比温室粉虱具有个体发育时间短、种群繁殖速度快、生殖竞争能力强等特点。     

Within-plant distribution of cotton aphids, Aphis gossypii Glover (Hemiptera: Aphididae), in Bt and non-Bt cotton fields

Knowledge of the vertical and horizontal distribution of Aphis gossypii Glover (Hemiptera: Aphididae) on genetically modified cotton plants over time could help optimize decision-making in integrated cotton aphid management programs. Therefore, the aim of the present study was to determine the vertical and horizontal distribution of A. gossypii in non-transgenic Bt cotton and transgenic Bt-cotton over time during two cotton seasons by examining plants throughout the seasons. There was no significant interaction between years and cotton cultivar treatments for apterous or alate aphids. Considering year-to-year data, analyses on season-long averages of apterous or alate aphids showed that aphid densities per plant did not differ among years. The number of apterous aphids found per plant for the Bt transgenic cultivar (2427 apterous aphids per plant) was lower than for its isoline (3335 apterous aphids per plant). The number of alate aphids found per plant on the Bt transgenic cultivar (12.28 alate aphids per plant) was lower than for the isoline (140.56 alate aphids per plant). With regard to the vertical distribution of apterous aphids or alate aphids, there were interactions between cotton cultivar, plant age and plant region. We conclude that in comparison to non-Bt cotton (DP 4049), Bt cotton (DP 404 BG (Bollgard)) has significant effects on the vertical, horizontal, spatial and temporal distribution patterns of A. gossypii, showing changes in its distribution behaviour inside the plant as the cotton crop develops. The results of our study are relevant for understanding the vertical and horizontal distribution of A. gossypii on Bt cotton cultivar (DP 404 BG (Bollgard)) and on its isoline (DP 4049), and could be useful in decision-making, implementing controls and determining the timing of population peaks of this insect.     

Effects of proportion and configuration of Bacillus thuringiensis cotton on pest abundance, damage, and yield

Bacillus thuringiensis (Bt) transgenic cotton, Gossypium hirsutum L., kills several economically important pests, reducing injury and increasing yields. Refuges of non-Bt cotton are currently planted with Bt cotton in different designs to slow pest resistance evolution. To compare the effects of differences in Bt/non-Bt plant heterogeneity found in different refuge designs on square (flower bud) damage, abscissions, sap-feeding herbivore densities, and yield in cotton, four types of 24-row cotton plots were planted in 2001 and 2002: 1) seed mixtures of Bt and non-Bt varieties, 2) 12-row strips of Bt and non-Bt, 3) solid Bt, and 4) solid non-Bt. For both years cotton bollworm, Helicoverpa zea (Boddie), damage was less in solid Bt plots than strips and mixtures and all were less than solid non-Bt plots. Cotton fleahopper, Pseudatomoscelis seriatus (Reuter), damage was affected by refuge, but only in 2002 when damage was greater in solid Bt plots than all other plots and greater in strips than solid non-Bt plots. Abscissions were least in solid non-Bt plots, and less in mixtures and strips than solid Bt plots. In 2001, western flower thrips, Frankliniella occidentalis (Pergande), density was greatest in mixtures, whereas sweetpotato whitefly, Bemisia tabaci (Gennadius), was greatest in solid Bt plots, and greater in mixtures than solid non-Bt plots. Yield also was affected by refuge, it was greater for solid Bt plots than for solid non-Bt plots and mixtures in 2001, but the reverse was true in 2002.     

外源基因导入对棉花烟粉虱种群的影响

以转基因棉花和对应的常规棉花亲本为材料,探讨外源基因导入对棉花烟粉虱Bemisia tabaci(Gennadius)种群的影响。结果表明,在转基因棉花GK12、33B、SGK上,烟粉虱从卵发育到成虫羽化的历期分别为15.56、15.35和15.25 d,较对应的常规棉亲本SM3(19.38 d)、33(20.81 d)、SY321(18.76 d)分别短24.55%、26.23%、18.71%;GK12和33B棉花上烟粉虱的存活率(69.16%)分别较对应的常规棉亲本SM3(54.76%)和33(64.91%)高26.29%和12.81%,而SGK(63.21%)上烟粉虱的存活率与对应的常规棉亲本SY321(62.61%)之间差异不显著;烟粉虱在GK12(84.00)和33B(77.25)上的产卵量分别较SM3(62.25)、33(70.00)高34.93%和10.35%,但SGK和SY321之间差异不显著;在转基因棉花GK12、33B、SGK上,烟粉虱的雌雄性比分别比对应的常规棉亲本高26.71%、46.23%和19.17%。结果表明,外源基因导入后,有助于烟粉虱的发育,提高了烟粉虱的产卵量和雌雄性比,从而促进了烟粉虱种群的上升。     

新疆棉区转Bt基因棉对棉铃虫生物学的影响

棉铃虫Helicoverpaarmigera高龄幼虫取食转Bt基因棉花组织后 ,化蛹率、羽化率、蛹重、体长均有显著下降 ,在转Bt基因棉花上棉铃虫的取食行为也受到较大的影响 ,表现为取食次数明显减少、吐丝下垂次数明显增加 ;无论是转Bt基因棉花还是常规棉花 ,棉铃虫 3龄幼虫主要分布于繁殖器官上 ,在转Bt基因棉花各繁殖器官上的分布概率为 :花 >棉铃 >棉蕾 ,常规棉花上分布概率为 :棉蕾 >棉铃 >花 ;棉铃虫高龄幼虫取食转Bt基因棉花各组织 ,成虫羽化后产卵量、卵孵化率均有明显下降 ;在较低的棉铃虫虫口密度下 ,转Bt基因棉花对棉铃虫有一定的产卵排趋性。     

Field Evaluation of Bt Cotton Crop Impact on Nontarget Pests: Cotton Aphid and Boll Weevil

Bt cotton plants expressing Cry1Ac protein have high specificity for the control of lepidopteran larvae. However, studies conducted in several countries have shown these plants have a differential impact on nontarget herbivores. The aim of this study was to compare the colonization rates and population abundance of the cotton aphid, Aphis gossypii Glover (Hemiptera: Aphididae) and the boll weevil, Anthonomus grandis Boheman (Coleoptera: Curculionidae), in plots of Bt (Nuopal) and non-Bt cotton (Delta Opal) in an experimental field in Brasilia, DF, Brazil. No difference was observed in the preference and colonization by winged aphids to plants from the two treatments. There was no significant difference in abundance of wingless aphids or in the production of winged aphids between treatments. Apparently, the parameters that control factors such as fecundity, survival, and dispersal were similar on both Bt and non-Bt plants. Monitoring of plants for coccinellids, a specialist predator of aphids, and ants that act on the dispersal of aphids among plants showed no significant difference between Bt and non-Bt plants, supporting the inference above. Regarding the effect on boll weevil, there was also no significant difference between treatments in the total number of fruiting structures attacked in each plot, the percentage of fruiting structures attacked per plant or on the number of weevils emerging from fruits with boll weevil damage from egg-laying, when damaged fruit samples were held in the laboratory. Based on these results, we conclude that there is no impact of Bt cotton crop expressing Cry1Ac on the nontarget herbivores tested under field conditions.     

种植转Bt基因抗虫棉对土壤生物学活性的影响

采用温室盆栽实验,研究了种植转Bt基因棉（苏抗103）和同源常规棉（苏棉12）对根际土壤生物学活性的影响。结果表明：与对照常规棉相比,种植转Bt基因棉对根际土壤脱氢酶、碱性磷酸酶、蔗糖酶和土壤呼吸的影响因生育期而异,土壤脲酶、蛋白酶和微生物量C在各生育期均没有显著差异;土壤蔗糖酶、土壤脱氢酶和土壤呼吸分别只在苗期（苏抗103〉苏棉12,增幅为25．5％）、花铃期（苏抗103〉苏棉12,增幅为21．6％）、花铃期（苏抗103〉苏棉12,增幅为36．1％）存在显著差异;土壤磷酸酶在花铃期和吐絮期活性显著下降（降幅分别为22．1％和32．9％）。     

转Bt基因抗虫棉根际微生物区系和细菌生理群多样性的变化

在大田栽培条件下 ,以转 Bt基因抗虫棉 GK-12和常规棉花泗棉 3号作为材料 ,在棉花不同发育时期 ,于 2 0 0 1和 2 0 0 2连续两年测定棉花根际土壤细菌、放线菌和真菌数量的变化 ,并在 2 0 0 2年棉花的花铃期和吐絮期对根际细菌生理群的数量和多样性进行了分析 ,结果表明 :虽然不同年份和生育期棉花根际微生物数量存在差异 ,但是 ,年度间和相同的发育时期棉花根际微生物的数量变化趋势一致。在棉花的苗期和吐絮期 ,转 Bt基因抗虫棉根际微生物的数量与对照差异不显著 ;在棉花的花铃期 ,转 Bt基因抗虫棉根际细菌的数量比对照增加 ,放线菌的数量差异不显著 ,而真菌的数量变化没有规律。在棉花发育的花铃期和吐絮期 ,Bt棉根际细菌生理群的总数量比常规棉增加 ,但是根际细菌生理群的 Simpson指数、Shannon-Wiener指数和细菌生理群分布的均匀度下降     

Astylus atromaculatus (Coleoptera: Melyridae): abundance and role in pollen dispersal in Bt and non-Bt cotton in South Africa

In South Africa, modified Bt (Cry1 Ac) cotton cultivars and organic ones coexist. This raises the question of the risk of dissemination of genetically modified (GM) pollen to non-GM crops by visiting insects. We inventoried the flower-visiting insects in Bt and non-Bt cotton fields of the South African Highveld region and investigated their role in pollen dispersal. Their diversity and abundance varied slightly among sites, with Astylus atromaculatus as the predominant insect on both Bt and non-Bt cotton flowers. The other major flower-visiting species were Apis mellifera and solitary Apidae. No differences were found in the abundance of each taxum between Bt and non-Bt cotton except for Scoliidae and Nitidulidae, which were scarce overall (<0.5%) but more abundant on the non-Bt flowers in the central area of the field at one site. The pollen load on A. atromaculatus was as high as on Apis mellifera. Cage tests showed that A. atromaculatus can pollinate female cotton plants by transferring pollen from male donor plants. In the field, the flight range of this insect was generally short (25 m), but it can occasionally reach up to 200 m or even more. This study therefore highlights that A. atromaculatus, commonly regarded as a pest, could be an unexpected but efficient pollinator. Because its population density can be high, this species could mediate unwanted cotton pollen flow when distances between coexiting fields are not sufficient.