不同玉米品种对截形叶螨种群参数的影响

在室内28±1℃条件下,应用叶盘法研究了中单2号、农大108、赤单202和巴丹3号个不同玉米品种对截形叶螨种群参数的影响.结果表明,在不同品种玉米上,截形叶螨卵期、若螨期、产卵前期、成螨寿命、单雌产卵量、日均产卵量、净增殖率、周限增长率、内禀增长率、世代平均周期和种群加倍时间均有明显差异(P＜0.05);其孵化率为中单2号95.8%、农大108 94.0%、赤单202 90.0%和巴单3号84.0%;幼、若螨期存活率相应地为90.5%、84.0%、86.0%和72.0%;存活曲线均为Ⅰ型.净增殖率在中单2号上最高为41.4,而在巴单3号上最低为16.8;中单2号是其最喜食的品种,其次为农大108,再次为赤单202,对巴单3号的嗜食性最差.     

不同西甜瓜品种对截形叶螨生长发育和繁殖的影响

[目的]明确不同西甜瓜品种对截形叶螨Tetranychus truncates Ehara生长发育及繁殖的影响,为西甜瓜品种布局和该虫的综合治理提供科学依据.[方法]在实验室条件下,研究截形叶螨在不同西甜瓜品种(西瓜早佳8424、西瓜美都、西瓜嘉美和甜瓜金玉红2号、甜瓜玉菇)上的发育历期、产卵量和生命表参数.[结果]截形叶螨在西瓜早佳8424和甜瓜玉菇上的存活率较高,分别为95.00％和86.55％,而在西瓜美都和甜瓜金玉红2号上存活率较低,只有75.38％和70.45％;截形叶螨在不同西甜瓜品种上的繁殖力也存在显著差异,在西瓜早佳8424和西瓜美都上的繁殖适合性最高,即抗虫性最弱,产卵期长且产卵量大,如在西瓜早佳8424上平均单雌产卵量达(35.31±5.35)粒,而在西瓜嘉美上的繁殖适合性最低,即抗虫较最强,产卵期短产卵量少,平均单雌产卵量为(19.96±2.02)粒;此外,西瓜美都和西瓜早佳8424的内禀增长率rm和周限增长率λ最高,分别为0.203 1、0.161 7和1.225 2、1.175 5;西瓜嘉美的净增值率R0最低,仅为16.7.[结论]在供试的5个西甜瓜品种中,西瓜早佳8424和美都是最适宜截形叶螨生长和繁殖的品种,而西瓜嘉美有较高的抗虫性.     

截形叶螨的光周期反应

截形叶螨的光周期反应属于长日照发育型,短日照是诱发滞育的主导因子,但高温可抑制其光周期反应。经测定,在南京该种群的临界光周期为10.7小时(15℃)。低温处理滞育雌螨的时间与其复苏速率呈负相关,与其滞育历期呈正相关。滞育雌螨具较强抗寒性,其过冷却点为-20.62℃。     

玉米田截形叶螨种群动态的研究

1999～2001年于内蒙古巴彦卓尔盟杭锦后旗研究了玉米田截形叶螨田间种群动态。结果表明．截形叶螨在玉米田的空间格局为聚集格局,随着叶螨种群密度的上升,其聚集强度下降应用最优分割法将玉米截形叶螨田间种群动态划分为5个阶段：①7月上旬前为种群初建期,叶螨在玉米田刚开始发生,种群数量很低,只分布在极少数植株上;②7月中旬为种群缓慢增长期,种群数量低,增长缓慢,聚集强度高;③从7月下旬至8月中旬为种群快速增长期,种群数量高,增长迅速,叶螨分布至全田,聚集强度下降;④8月下旬为种群高峰期,种群数量最高,聚集强度较低;⑤9月以后为玉米截形叶螨种群的衰落期,由于玉米受害严重及玉米进入生长后期,中下部叶片大部分均已枯死,上部叶片也已老化营养水平下降,加之气温下降,叶螨种群数量迅速下降。     

截形叶螨对胡瓜钝绥螨的吸引作用

室内测定表明,截形叶螨不同螨态对胡瓜钝绥螨均有显著的吸引作用,均达到极显著水平,而胡瓜钝绥螨对截形叶螨的排泄物没有明显的反应。截形叶螨对胡瓜钝绥螨的这种吸引作用说明胡瓜钝绥螨具有自动搜索截形叶螨的能力,表明胡瓜钝绥螨可以用于截形叶螨的生物防治。     

截形叶螨雄螨有第二若螨期

雄螨（Ｍａｌｅｍｉｔｅ）是否存在第二若螨期（Ｄｅｕｔｏｎｇｍｐｈ－ｐｅｒｉｏｄ）各种资料说法不一,且国内尚未见这方面的详细报道。笔者于１９９４～１９９７年以截形叶螨ＴｅｔｒａｎｙｃｈｕｓｔｒｕｎｃａｔｕｓＥｈａｒａ为试验材料,对此进行了初步研究,现将结果报告如下。１螨种与试验条件螨种于１９９４年８月在延边大学农学院附近的菜豆上采集,经鉴定后在室内２５℃、１４小时／天光照条件下饲养,供试验用。本试验在自动控制温度（±０．５℃）和光照长度（±０．０１小时／天）的小室内进行。小室大小为１．７ｍ×１．４…     

温度对以截形叶螨为猎物的斯氏钝绥螨生长发育的影响

测定了斯氏钝绥螨Amblyseius swirskii（Athias—Henriot）在14、17、20、23、26、29、32、35℃和RH=85％的条件下,以截形叶螨为猎物各螨态的发育历期,分析发育速率与温度的关系。结果表明,14℃不适宜斯氏钝绥螨的生长发育,存活率仅17．5％;在17～35℃之间其生长发育正常,存活率均100％,各螨态的发育历期与温度均呈负相关关系,发育历期随着温度的升高明显缩短,未成熟期总发育历期从21．36d缩至3．97d。采用线性日度模型拟合温度与发育速率的关系表明,该模型能较好地描述其发育速率在适宜温度范围内随温度升高而加快的现象。斯氏钝绥螨不同发育阶段的发育起点温度和有效积温不同,未成熟期的发育起点温度和有效积温分别为11．92℃和94．69日·度。     

温度对加州新小绥螨以截形叶螨为猎物的发育及繁殖的影响

在15～35℃、RH80%～85%条件下,研究了加州新小绥螨Neoseiulus (Amblyseius) californicus (Mcgregor)以截形叶螨Tetranychus truncatus Ehara为猎物时,不同螨态的发育和实验种群生命表。结果表明,加州新小绥螨在此温度范围内能完成世代发育,世代发育历期随着温度升高而逐渐缩短。该螨能适应35℃的高温条件,雌性的发育历期最短仅为6.14d。平均产卵期和平均寿命均随着温度的上升逐渐缩短。20℃～25℃时,该螨的平均产卵量最大,达53.73粒/雌。净增殖率在20℃时最高(48.2525),且雌雄性比最大。15℃时内禀增长率和周限增长率均最低,分别为0.0638和1.0659,种群倍增时间最长(10.8669d),35℃时内禀增长率和周限增长率均最高,分别为0.1954和1.2158,种群倍增时间最短(3.5477d)。     

芬兰真绥螨对截形叶螨的捕食功能研究

本文研究了芬兰真绥螨Euseius finlandicus Oudemans对截形叶螨Tetranychus truncatus Ehara的捕食作用.结果表明,芬兰真绥螨对截形叶螨雌成螨非嗜食,对卵和若螨嗜食.在RH 80％±5％,温度分别为16、20、24、28和32℃的试验条件下,芬兰真绥螨对截形叶螨各螨态的捕食功能反应均属于HollingⅡ型.在16 ～28℃温度范围内,芬兰真绥螨对截形叶螨各螨态的攻击系数、捕食能力、最大日捕食量均随温度升高而增加,处理时间则缩短,温度高于28℃时捕食量开始减小.截形叶螨密度固定时,芬兰真绥螨的平均捕食量随其自身密度的增加而逐渐降低.     

截形叶螨药剂防治对比试验

截形叶螨(Tetranychus truncatus Ehara)在云南昆明主要为害大棚花卉,尤其对月季(Rosa chinensis)为害严重。使用玻片浸液法,选用6种化学杀螨剂和1种植物叶面保护剂对该叶螨进行室内药效测定;同时,选取真除螨、主力和植物叶面保护剂等3种杀螨剂实施田间防治试验。结果表明,室内施药48h后,真除螨2 000、3 000倍液杀螨效果达100%;田间喷药3d后,真除螨4 000倍液能达到30%的防治效果,可有效降低害螨数量。建议每年截形叶螨为害严重的5～11月期间,在保护地栽培的月季上连续施用真除螨。害螨发生高峰期前,可使用植物叶面保护剂,减少害螨的取食。     

截形叶螨抗哒螨灵品系和敏感品系体内解毒酶活性的变化

【目的】通过对截形叶螨 Tetranychus truncatus Ehara抗哒螨灵品系体内解毒酶活性分析和增效剂与哒螨灵混用的增效作用测定,明确截形叶螨对哒螨灵的抗性动态及抗性机理,获得抗性治理的途径。【方法】采用室内生测法培育截形叶螨抗哒螨灵品系,微量滴度酶标板测定抗性和敏感品系体内解毒酶比活性、米氏常数（K_m）及最大反应速度（V_max）,再用增效醚（PBO）、顺丁烯二酸二乙酯（DEM）和磷酸三甲苯酯（TPP）进行增效作用测定。【结果】室内筛选的截形叶螨对哒螨灵产生了抗性,筛选至49代,抗性倍数达到955.25;PBO,TPP和DEM对哒螨灵药剂有不同程度的增效作用,相对增效系数分别为95.97%, 85.14%和97.37%;抗哒螨灵品系体内的羧酸酯酶（CarE）、谷胱甘肽转移酶（GSTs）、多功能氧化酶（MFO）活性较敏感品系显著性提高（P＜0.05）,酸性磷酸酯酶（ACP）和碱性磷酸酯酶（ALP）的活性与敏感品系差异不大(P>0.05);抗性品系中的CarE,GSTs和MFO 3种解毒酶的米氏常数（K_m）下降,最大反应速度（V_max）高于敏感品系。【结论】截形叶螨对哒螨灵产生抗性可能与其体内CarE,GSTs和MFO 3种解毒酶与底物的亲和力提高和代谢能力增强有关;3种增效剂(PBO, TPP和 DEM)与哒螨灵混用能提高对截形叶螨的毒杀效果。     

Factors determining the host plant range of the phytophagous mite, Tetranychus urticae (Acari: Tetranychidae): a method for quantifying host plant acceptance

The host plant acceptance of the phytophagous mite Tetranychus urticae was experimentally quantified. Host plant acceptance is described as the proportion of adult females settling on the test plant on which they have been placed. On the other hand, the host plant suitability of T. urticae on different plant species is expressed as the mean number of eggs produced by the females within 5 days (hereafter 'fecundity'). An inbred T. urticae line was tested with regard to host plant acceptance and fecundity on 11 potential host plants. These two variables were positively correlated across host plants; host plant species on which the fecundity was low were also those on which females settled less readily compared to host plants with high fecundity. The characteristics of host plant acceptance of the T. urticae are discussed in light of their potential food resource under natural conditions.     

短时高温暴露对土耳其斯坦叶螨和截形叶螨的影响

【目的】为了明确土耳其斯坦叶螨Tetranychus turkestani和截形叶螨T. truncatus在高温逆境下的生存特性对其种群发展的影响。【方法】通过短时高温处理试验, 研究了土耳其斯坦叶螨和截形叶螨卵、 幼螨、 成螨在38℃, 42℃和46℃下处理2～6 h后的孵化率和存活率, 以及对其后续发育历期和生殖的影响。【结果】两种叶螨的卵和幼螨在38～46℃下处理2～6 h, 其存活率随着温度和处理时间的增加而降低, 后续发育历期随着温度和处理时间的增加而延长。两种叶螨的雌成螨在38～46℃下处理2～6 h后其存活率、 产卵前期、 产卵期和产卵量均不受影响, 但所产卵的孵化率明显降低, 其中土耳其斯坦叶螨在46℃下处理6 h的孵化率下降了15.5%, 截形叶螨在46℃下处理6 h的孵化率下降了18.0%。【结论】高温暴露主要影响叶螨的孵化率、 存活率和后续的发育历期, 对成螨的寿命和生殖无显著影响; 土耳其斯坦叶螨和截形叶螨对极端高温的适应性存在差异, 土耳其斯坦叶螨对高温的适应性要高于截形叶螨。     

Gene flow among Tetranychus urticae (Acari: Tetranychidae) populations in Greece

Polymorphism of four enzymatic loci has been examined in 27 populations of Tetranychus urticae in relation to their geographical distribution and to two ecological parameters: open field vs. greenhouse habitats, and species of the colonized host plant. Genetic differentiation was significantly correlated to geographical distance in both types of habitat. Mite density and distribution of infested plants appear to be important factors for the population structure of T. urticae . In open field, T. urticae specimens from citrus trees were genetically more similar to other 'citrus' samples collected in different localities than they were from mites collected in the same locality on other plant species.     

Population Dynamics of Tetranychus Kanzawai (Acari: Tetranychidae) on Hydrangea

The seasonal occurrence of Tetranychus kanzawai Kishida populations on hydrangea (Hydrangea macrophylla) was studied at two different localities in Ibaraki, Japan, during a three-year period. There were two types of seasonal population trends: one with a population peak from May to June, and the other with the spring peak in June and the autumn peak in September–October. Each year the populations on hydrangea plants abruptly declined just after the spring peak. Predators showed a delayed density-dependent numerical response. The population crashed even in the absence of predators, suggesting that the predators had nothing to do with the June decline. Furthermore, the rate of development from larva to adult and the fecundity in adult females on detached hydrangea leaves decreased markedly just prior to the abrupt decline in density in June. Consequently, seasonal changes in plant quality (perhaps influenced by secondary compounds) seem to contribute to the drastic decline of T. kanzawai density on hydrangea in June.     

Coexistence of Tetranychus urticae (Acarina: Tetranychidae) with different capacities for diapause: comparative life-history traits

Summary Individuals of the two-spotted spider mite, Tetranychus urticae Koch (Acarina: Tetranychidae), with and without a capacity for diapause, coexist in central Japan. Diapause appears to be adaptive because females in diapause suffered less mortality than non-diapausing individuals when frozen at –24°C for more than 4 h. However non-diapausing females showed good survival up to 4 h of freezing. Active non-diapausing mites survived on rose leaves in Kyoto (35°N) throughout the winters of 1988–1989 and 1989–1990. Cultures of mites with low (LD) and high (HD) diapause capacities at 18°C and 9L-15D photoperiod were successfully selected from the rose population and from a population on chrysanthemum in Nara (34.4°N). Their life-history traits at 15, 20, 25 and 30°C were characterized. HD and LD mites from both populations were of similar ages at first reproduction at 15–30° C. However, at temperatures 20° C, HD individuals produced more eggs than LD individuals, resulting in higher fecundity and intrinsic rate of natural increase. These traits allow HD individuals, which stop breeding between October and April, to increase faster in summer than LD individuals. This provides a mechanism, together with climatic fluctuations, in maintaining the coexistence of diapausing and non-diapausing T. urticae in Kyoto where winter conditions are rarely lethal to the non-diapausing individuals.