昆明红火蚁种群发生特征

【目的】2013年10月云南省元谋县首次发现红火蚁。掌握红火蚁蚁巢各品级发生动态,能为当地红火蚁的防控提供技术支撑。【方法】2015年1—12月,在昆明宜良县对红火蚁蚁巢取样、分离,红火蚁取样、称重,统计红火蚁各品级的头数。【结果】地上蚁巢红火蚁蚁群数量发生高峰期在8—9月,其次是3—4月。蚁后数量比例高峰在3—4月;有翅雌蚁比例高峰在4月,其次是7月;有翅雄蚁比例高峰的在5月,其次是9月;生殖蚁幼虫和蛹比例高峰的3、4和12月。地上蚁巢工蚁、兵蚁、职能蚁幼虫和蛹数量发生的高峰期在8—9月,发生小高峰期在4月。【结论】昆明红火蚁蚁群数量动态有2个峰值,第一个峰值为8—9月,以职能蚁防治为主;第二个蜂值3—4月,以生殖蚁和职能蚁防治为主。该结果为昆明红火蚁防控技术提供了数据支撑。     

荒草地和荔枝园生境短期入侵的红火蚁与黑头酸臭蚁种间的干扰竞争

【背景】红火蚁入侵后对新发生地区生物多样性的影响及与土著物种的关系是入侵生物学研究的重点之一,解释红火蚁与类似生态位的土著蚂蚁的关系对全面了解该蚁入侵的生态学效应具有重要意义。【方法】通过野外模拟设置蚁巢,观察、记录距离红火蚁和黑头酸臭蚁蚁巢30 cm处诱集到的黑头酸臭蚁工蚁在红火蚁入侵前、入侵中及移除后的数量变化,研究短期入侵红火蚁实验种群与荒草地和荔枝园黑头酸臭蚁间的干扰竞争。【结果】红火蚁实验种群短期入侵对荒草地生境黑头酸臭蚁的干扰较明显,而对荔枝园生境黑头酸臭蚁的干扰较小;红火蚁未入侵荒草地生境黑头酸臭蚁受干扰最明显,移除红火蚁20 min后,处理诱饵上召集的黑头酸臭蚁数量才与入侵前差异不显著;红火蚁未入侵荔枝园生境黑头酸臭蚁受干扰最小,移除红火蚁仅5 min后,处理诱饵上黑头酸臭蚁数量就恢复到入侵前,甚至超过入侵前数量。【结论与意义】红火蚁入侵对黑头酸臭蚁的觅食行为存在较大的干扰抑制作用,其影响程度与生境的复杂性有着密切关系。研究结果可为了解红火蚁入侵的生态学效应提供证据。     

红火蚁入侵和未入侵生境中蚂蚁的觅食强度

采用诱饵诱集法,对华南地区3种典型的红火蚁入侵和未入侵生境中蚂蚁对4种诱饵（蜂蜜、花生油、火腿肠和黄粉虫幼虫）的搜寻时间、召集时间及召集数量进行研究,并分析了红火蚁入侵对蚂蚁觅食强度的影响.结果表明：草坪红火蚁入侵区,蚂蚁对黄粉虫幼虫和花生油的搜寻时间极显著或显著短于对照区（红火蚁非入侵区）;荒草地红火蚁入侵区,蚂蚁对4种诱饵的搜寻时间与对照区的差异均不显著,在花生油上的召集时间显著长于对照区;荔枝园红火蚁入侵区,蚂蚁对4种诱饵的搜寻时间及召集时间与对照区均无显著差异.诱饵设置30 min时,草坪红火蚁入侵区,花生油、黄粉虫幼虫、火腿肠上的红火蚁工蚁数量均显著多于本地蚂蚁工蚁数量;荒草地红火蚁入侵区,花生油上的红火蚁工蚁数量明显多于本地蚂蚁工蚁数量,其余诱饵上红火蚁工蚁数量与本地蚂蚁工蚁数量的差异不显著;荔枝园红火蚁入侵区,4种诱饵上红火蚁工蚁数量与本地蚂蚁工蚁数量的差异均不显著.     

锈翅蚁蛉(脉翅目:蚁蛉科)的发育生物学研究

锈翅蚁蛉为全变态类昆虫,在贵州省一年发生1代,11月下旬开始越冬,各龄幼虫均可越冬,次年3月苏醒.在室内饲养条件下,卵期13 d±0.56 d,幼虫期63.58 d±1.81d,蛹期26.35 d±1.14 d,成虫期20 d± 1.06 d.结合野外调查和室内饲养,详细描述了锈翅蚁蛉各虫态的形态特征,幼虫的筑穴、捕食、蜕皮、化蛹、羽化以及成虫的捕食、交配等行为习性.     

红火蚁入侵对玉米地蜘蛛类群多样性的影响

采用陷阱法和目测法系统研究了红火蚁入侵玉米地对蜘蛛类群多样性的影响.期间共调查到蜘蛛8科16种,其中红火蚁发生区有6科10种,药防区4科5种,对照区8科11种;蜘蛛种类以游猎型为主,隶属于猫蛛科和跳蛛科,优势种包括斜纹猫蛛、乔氏蚁蛛和蚁蛛.在红火蚁发生区,从玉米心叶后期开始红火蚁种群数量不断增加,在玉米抽穗开花期达到最大,为225头,之后缓慢降低,相应的猫蛛属蜘蛛种群数量则逐渐降低,降幅达79.2％;而蚁蛛属蜘蛛的种群数量变化不大.随着玉米植株的生长,红火蚁发生区和药防区的蜘蛛种类、多样性指数和均匀度指数逐渐降低,生态优势度指数却不断升高,而对照区相关指标则相反.表明红火蚁入侵显著改变了玉米地蜘蛛的类群结构.     

稻田越冬害虫及其捕食性节肢动物类群的空间分布动态

采用人工拨查法调查了越冬稻田生境内节肢动物群落.共收集到水稻害虫及其天敌13类,分别隶属于3纲9目.其中捕食性的7类,包括蜘蛛1类、昆虫5种和蜈蚣1种;害虫3类,中性昆虫3类.青翅蚁形隐翅虫、蜘蛛和红火蚁是稻田越冬害虫的主要捕食者.应用相关分析和通径分析,研究青翅蚁形隐翅虫、蜘蛛、红火蚁、害虫蛹之间相关性,剖析了三种捕食者控制害虫蛹的途径.空间格局分析结果表明,害虫蛹多为聚集分布,青翅蚁形隐翅虫均为聚集分布;应用Taylor幂法则检验和Iwao m*-m方程检验,结果表明,2008年12月10日、12月17日、12月23日和12月30日调查的害虫蛹空间格局为聚集分布,2009年1月7日、2月20日和2月27日为均匀分布;青翅蚁形隐翅虫在整个调查过程中均为聚集分布.     

红蚁净防治红火蚁的药效试验

以含1%氟虫腈、植物淀粉、引诱物质及粘附剂等自制的红蚁净(Pyragne)粉剂,在室内测定红火蚁Solenopsis invicta Buren各虫态的毒力。结果显示:红蚁净粉剂对红火蚁工蚁LT50=20.106h、LT90=23.78h,对有翅繁殖蚁LT50=20.951h、LT90=25.64h;工蚁能将红蚁净传递给蛹和卵引起中毒死亡。     

表皮碳氢化合物在3种火蚁属蚂蚁成虫鉴定中的应用

红火蚁Solenopsis invicta是火蚁属重要的入侵蚂蚁,与其近缘种黑火蚁S.richteri和杂交蚁S.invicta×S.richteri形态相似,难以区分。为了快速准确鉴定3种火蚁属近缘种,本研究利用气相色谱-质谱联用仪(GC-MS),解析3种火蚁的工蚁、有翅雌蚁、有翅雄蚁的表皮碳氢化合物种类和含量,并进行主成分分析、判别分析及聚类分析。结果表明：3种火蚁共检测到62种表皮碳氢化合物,主要包括一甲基烷烃、二甲基烷烃和正构烷烃等;红火蚁、黑火蚁及杂交蚁不同品级的表皮碳氢化合物种类及含量存在显著的种间差异,红火蚁不同地理种群的表皮碳氢化合物种类及含量相似度较高;建立3种火蚁相应品级的分类判别函数,可准确区分各品级下的3种火蚁。因此,表皮碳氢化合物组成分析可用于红火蚁及其近缘种的分类鉴定,为口岸火蚁属蚂蚁的快速检疫鉴定提供新技术。     

我国大陆红火蚁不同等级和虫态过冷却点的测定

了解我国红火蚁Solenopsis invicta Buren的耐低温能力并为其风险分析提供科学依据,本文对采自我国4个地点红火蚁蚁群中不同等级和虫态的过冷却点,以及不同季节和室内不同饥饿程度的工蚁过冷却点进行了测定。结果表明：蚁群中不同等级和虫态的过冷却点差异显著。工蚁成虫的过冷却点（－11.8±0.4℃）显著低于有翅雌蚁（－8.1±0.6℃）及蚁后（－7.9±0.5℃）,工蚁蛹和幼虫的过冷却点分别为－13.6±0.3℃和－12.1±0.4℃,蚁后蛹和幼虫的分别为－13.3±0.3℃和－12.2±0.3℃。工蚁蛹的过冷却点均显著低于其成虫和幼虫。蚁后蛹与其幼虫的过冷却点没有显著差异,但与其成虫的差异显著。同一未成熟期不同等级之间的也没有显著差异;不同季节的工蚁过冷却点有显著差异,其中以春季的最高（－4.3±0.2℃）,夏季（－6.6±0.2℃）、秋季（－9.4±0.1℃）的次之,冬季的（－12.0±0.3℃）最低;深圳、珠海、广州和陆川4个地理种群的工蚁过冷却点在春、秋和冬季无显著差异,但夏季陆川种群的过冷却点显著低于其他3个种群的（P<0.05）。饥饿可使工蚁的过冷却点明显升高,但大工蚁的过冷却点较小工蚁升高的幅度更大,饥饿15 d后的大工蚁比饥饿前的过冷却点升高了7.0℃,而小工蚁仅升高了4.9℃。这些结果为评价红火蚁在我国潜在的传播风险提供了理论依据。     

湿度对梨小食心虫存活和繁殖的影响

【目的】本研究旨在明确湿度变化对梨小食心虫Grapholitha molesta(Busck)在果实外各阶段存活率和蛀果率的影响及湿度对害虫最终存活率产生影响的关键阶段。【方法】在室内相对湿度25%,40%,55%,70%和85%条件下,记录和分析梨小食心虫的产卵量、卵孵化率、幼虫蛀果率、老熟幼虫化蛹率、蛹羽化率以及产卵、化蛹和羽化时间。【结果】湿度高低对化蛹率没有影响,供试的5种相对湿度下,化蛹率均为100%;但湿度对产卵量、卵孵化率、幼虫蛀果率、蛹羽化率和世代存活率均有显著影响,湿度越高,各阶段存活率、幼虫蛀果率和世代存活率也越高。不同虫态存活对湿度要求从高到低依次为:幼虫蛀果期成虫期卵期蛹期老熟幼虫期。湿度对害虫世代存活率产生显著影响主要发生在幼虫蛀果期、成虫期和卵孵化期。同时,湿度提高利于成虫产卵、化蛹和羽化,反之发育延缓。【结论】湿度会显著影响梨小食心虫各阶段的存活率、幼虫蛀果率和繁殖,成虫盛发期、卵期和蛀果期的湿度影响害虫种群数量和蛀果率的关键阶段。     

Effect of queen number on the production of sexuals in natural populations of the fire ant, Solenopsis invicta

ABSTRACT. To determine whether the production of sexuals in the fire ant, Solenopsis invicta Buren, is related to queen number in the field, the numbers of sexuals in monogyne (M) and polygyne (P) colonies of this species were compared. Large colonies ( n =25 M and 25 P) were collected at random during spring, summer and fall when sexuals are actively produced, and the numbers of sexuals present were counted. The numbers of alates plus sexual pupae and larvae in M colonies far exceeded those in P colonies in each season. Significant differences between M and P colonies were also found when the numbers of alates and sexual immatures (pupae + larvae) were compared separately in each season. In addition, M colonies contained significantly more female sexuals (alates + pupae) than did P colonies in the summer and fall, and significantly more males in all three seasons. The negative relationship between queen number and number of sexuals provides evidence that queen control over the production of sexuals, previously established in laboratory experiments, also occurs under natural conditions.     

Standard metabolic rate of the fire ant,Solenopsis invicta Buren: effects of temperature,mass, and caste

Standard metabolic rates of S. invicta workers, males, female alates, larvae and pupae were determined using closed-system respirometry. Vdot;(O(2)) (ml h(-1)) of all castes and life stages scaled with temperature and mass. Differences between castes and life stages are discussed in light of their different life histories and the different functions of these stages within the colony. Workers, female alates, male alates, larvae and pupae had mass-specific Vdot;(O(2)) (ml O(2) g wet weight(-1) h(-1), corrected to 25 degrees C) of 0.404+/-0.023, 0.316+/-0.010, 0.674+/-0.024, 0.291+/-0.020, and 0.227+/-0.015 (mean+/-SE), respectively. Measurement of CO(2) and O(2) made possible the examination of temperature and mass effects on respiratory quotient (RQ), as well as accurate transformation of O(2) consumption to metabolic rate (&mgr;W) for comparison with other ant species. Mass-specific metabolic rates of S. invicta females and workers compare favorably with data from 17 other ant species, but metabolic rates of males (177%) and pupae (42%) fall above and below predicted rates, respectively. Several equations relating temperature and mass to Vdot;(O(2)) are presented.     

温、湿度对美洲斑潜蝇发育、存活及食量的影响

以花斑芸豆Phaseolus vulgaris为食料植物,在不同温、湿度组合下,观测了美洲斑潜蝇Liriomyza sativae的发育、存活及取食特征。结果表明,卵、幼虫和蛹期的发育速率与温度的关系均呈S型曲线。发育起点温度为：卵,8.9℃;幼虫, 10.1℃;蛹,9.6℃;整个未成熟期,9.5℃。有效积温为：卵,57.7日·度;幼虫,53.9日·度;蛹,151.9日·度;整个未成熟期,264.2日·度。湿度对发育速率的影响不明显。温度对存活的影响较大,当温度>34℃或<19℃时,各虫态的存活率都显著降低。湿度对存活率的影响主要发生在蛹期,当湿度低于50%时,蛹的羽化率显著降低。在高温、低湿的条件下,蛹不能羽化。在相对低温下的累计取食面积大于高温时的相应值,在25℃时达到1.6 cm²,而在28℃及以上温度时取食面积只有0.9 cm²左右。     

Discontinuous gas exchange in the fire ant,Solenopsos invicta Buren: Caste differences and temperature effects

The discontinuous gas exchange cycle (DGC), the cyclic release of CO(2) and uptake of O(2), were investigated in workers and female and male alates of the red imported fire ant, Solenopsis invicta Buren, using real-time CO(2) emission measurement by flow-through respirometry. All S. invicta castes displayed discontinuous emission of CO(2) in the temperature range of 15-25 degrees C, but only male alates and workers exhibited a DGC at 30 degrees C. The closed (C) and flutter (F) periods of the DGC were distinguishable in alates of both sexes at the lowest temperature, but not clearly differentiated in females at temperatures above 15 degrees C, in males above 20 degrees C, or workers at any temperature. DGC frequency increased for all castes as temperature increased, ranging from a low of 0.9+/-0.05 mHz (male alates at 15 degrees C) to 18+/-0.79 mHz (workers at 30 degrees C). O period (or burst) volumes of all castes decreased as temperature increased, and increased with body mass - this mass effect was most pronounced at lower temperatures. Q(10) values for DGC frequency (4.27, 5.81, and 5.62 for workers, female and male alates, respectively) were high compared with Q(10)'s for standard Vdot;(CO(2)). Differences in the salient characteristics of the DGC between castes are presented and discussed, and S. invicta DGC patterns are compared to known values for some other ant species.     

不同温湿度组合对安徽虫瘟霉 诱发桃蚜病害的影响

用孢子浴方法,对42批次桃蚜Myzus persicae（30～60头/批）接种大剂量（孢子79～90个/ mm²）安徽虫瘟霉Zoophthora anhuiensis的分生孢子,在20℃下保湿24 h后转入不同温度（10℃、15℃、20℃、25℃、30℃及自然变温1.5～16.6℃和8.5～20.2℃）和湿度(50%、65%、80%、90%、95%及100% RH)的组合条件下观察桃蚜的反应。结果表明,各组合条件下的桃蚜均能发病死亡,而且累计死亡率的显著差异存在于不同温度（F=7.46, P<0.01)和湿度间（F=12.54, P<0.01）。最适发病的温度为恒温20℃和变温8.5～20.2℃（日均温12.4℃）,死亡率随湿度升高而增大。在10～25℃和100% RH的组合中,温度的变化几乎不影响桃蚜的累计死亡率,但影响发病速率,在10℃、15℃、20℃和25℃下的致死时间LT₅₀值分别为8.4 天、7.1 天 、4.0 天和3.4 天。回归分析表明, 在100% RH下安徽虫瘟霉诱发桃蚜发病的起始温度为1.65℃。在10～15℃及自然变温下,病死蚜尸顺利产孢的湿度为80% RH;而在20～30℃下,蚜尸产孢的湿度为90% RH。在所有温湿组合的蚜尸中未见安徽虫瘟霉的休眠孢子发生。     

哈尔滨地区大猿叶虫发育历期与生物学特性

在哈尔滨对白菜上的大猿叶虫Colaphellus bowringi Baly的生活史和生物学习性进行观察研究。结果表明,大猿叶虫在哈尔滨地区绝大多数个体1年发生1代,少部分个体1年发生2代。主要以成虫入土在2～27cm土层中滞育越冬。越冬成虫翌年4月下旬开始出土活动。第1代发生在5上旬至7月上旬,第2代发生于6月中旬至7月中旬。所有成虫在7月下旬以后均滞育越冬。在25℃条件下,雌虫产卵期为6～55d,平均为30.95d,单雌平均产卵量为454.9粒。在25℃各虫态的发育历期为:卵(4.46±0.33)d,幼虫(8.22±0.26)d,蛹(4.17±0.22)d。各虫态发育起点温度卵为10.80℃,幼虫为10.95℃,蛹为9.79℃;有效积温卵为64.82日.度,幼虫为117.37日.度,蛹为64.36日.度。     

温度对丝带凤蝶生长发育的影响

温度对丝带凤蝶生长发育的研究。结果表明,丝带凤蝶在武汉地区1年发生6代。在15~35℃范围内,卵孵化率、幼虫和蛹存活率分别在25,25和20℃时最高,卵、幼虫和蛹发育历期随温度升高显著缩短;适宜发育温度范围为20~35℃。丝带凤蝶卵、幼虫和蛹的发育起点温度分别约为(8.7±2.5)℃、(11.9±6.0)℃和(6.9±1.8)℃,有效积温分别约为(82.5±5.1),(222.2±39.5)和(178.7±7.3)日.度。     

环境因子对努利虫疠霉产孢和孢子萌发的影响

探讨努利虫疠霉Pandoranouryi(Remaudi埁re&Hennebert)H櫣mber在田间蚜虫种群中发生与流行的规律,研究外界环境因子对感菌虫尸产孢和孢子萌发的影响。结果表明,处于水琼脂培养平板上感染努利虫疠霉的桃蚜虫尸在8~25℃的温度范围内均能产生大量的初生分生孢子,在30℃下,仅弹射极少量孢子。8℃下,孢子弹射可以持续120h,当温度高于15℃,大部分的孢子会在48h内完成弹射。相对湿度小于95%,虫尸停止产孢。20℃下,光照条件不会影响虫尸弹射孢子的总量。在8℃和30℃时,24h后处于水琼脂培养平板上的孢子萌发率分别为45.23%和61.74%,显著低于15~25℃温度范围内的孢子萌发率(95%以上)。处于叶片上的真菌孢子,当相对湿度大于74%时出现萌发,但在盖玻片的表面,当湿度低于100%时未发现孢子萌发。     

Evidence of intracolony transmission of Thelohania solenopsae (Microsporidia: Thelohaniidae) in red imported fire ants (Hymenoptera: Formicidae) and the first report of spores from pupae.

Red imported fire ant, Solenopsis invicta, colonies were infected horizontally by introducing live brood (mainly larvae and pupae) infected with Thelohania solenopsae. Live, infected brood introduced into uninfected colonies were adopted and raised to adulthood instead of being executed by the recipient colony. Introductions of infected larvae with uninfected pupae, which eclose into adult worker caste fire ants, resulted in an 80% infection rate of the inoculated colonies. Infections from introductions of infected pupae with uninfected larvae resulted in a 37.5% infection of inoculated colonies. Infections were also detected in 11.6 and 3.7% of the adult worker caste ants that eclosed from uninfected large larvae and pupae, respectively, that were held with infected adult workers. Microscopic examination of infected brood revealed sporoblasts and large numbers of spores of T. solenopsae in S. invicta pupae.     

Development rates of two Xenopsylla flea species in relation to air temperature and humidity

The rate of development of immature fleas, Xenopsylla conformis Wagner and Xenopsylla ramesis Rothschild (Siphonaptera: Xenopsyllidae) was studied in the laboratory at 25 degrees C and 28 degrees C with 40, 55, 75 and 92% relative humidity (RH). These fleas are separately associated with the host jird Meriones crassus Sundevall in different microhabitats of the Ramon erosion cirque, Negev Highlands, Israel. This study of basic climatic factors in relation to flea bionomics provides the basis for ecological investigations to interpret reasons for paratopic local distributions of these two species of congeneric fleas on the same host. Both air temperature and RH were positively correlated with duration of egg and larval stages in both species. Change of humidity between egg and larval environments did not affect duration of larval development at any temperature. At each temperature and RH, the eggs and larvae of X. ramesis did not differ between males and females in the duration of their development, whereas female eggs and larvae of X. conformis usually developed significantly faster than those of males. For both species, male pupae developed slower than female pupae at the same air temperature and RH. Air temperature, but not RH, affected the duration of pupal development. At each humidity, duration of the pupal stage was significantly longer at 25 degrees C than at 28 degrees C: 15.3+/-1.7 vs. 11.7+/-1.2 days in X. conformis; 14.1+/-2.0 vs. 11.5+/-1.7 days in X. ramesis, with a significantly shorter pupal period of the latter species at 25 degrees C. These limited interspecific bionomic contrasts in relation to basic climatic factors appear insufficient to explain the differential habitat distributions of X. conformis and X. ramesis.