椰心叶甲蛹寄生蜂——椰心叶甲啮小蜂的生物学特性

椰心叶甲啮小蜂Tetrastichus brontispae Ferrière是椰心叶甲Brontispa longissima（Gestro）蛹的重要内寄生蜂,2004年从台湾引入到海南。在实验室条件下,对椰心叶甲啮小蜂的形态、行为、发育、存活、繁殖等生物学特性进行了观察研究。结果表明,雌蜂个体比雄蜂大,腹部明显可见产卵器。每头寄主蛹出蜂量平均为21.5头,其中雌蜂约占77.4%。椰心叶甲啮小蜂羽化不久即能交配,交配时间约为1～2 min。椰心叶甲啮小蜂的产卵高峰期在交配后的24 h内,且产卵量受温度的影响较大; 蜂蜜、蔗糖、葡萄糖均能有效地延长其成虫的寿命,并能提高其怀卵量和寄生率,其中以取食蜂蜜的效果最好。该蜂发育、存活和繁殖的适宜温度为20℃～28℃,低于16℃或高于30℃对其存活不利。利用16℃、20℃、24℃、28℃、30℃下的发育历期和有效积温公式计算出椰心叶甲啮小蜂的发育起点温度（C）为9.6℃,有效积温（K）为324.9日·度。     

低温贮存对椰心叶甲啮小蜂品质的影响

研究低温贮存椰心叶甲蛹Brontispa longissima(Gestro)和椰心叶甲僵蛹对椰心叶甲啮小蜂Tetrastichus brontispae Ferriere种群品质的影响。寄生10℃低温贮存1~4日龄椰心叶甲蛹结果表明,1日龄椰心叶甲蛹的寄生率、羽化率、出蜂率、单蛹出蜂数、后代寄生能力均优于其他日龄,其次为2、3日龄的椰心叶甲蛹,最差为4日龄的椰心叶甲蛹。1日龄椰心叶甲蛹在10℃下贮存5,10,15,20d后,上述生物学指标和种群参数均随贮存天数增加而降低,其中以5d和10d的净生殖率、内禀增长率和周限增长率较未经低温贮存的差异小。1~11日龄椰心叶甲僵蛹于10℃贮存10d的结果表明,8日龄椰心叶甲僵蛹的雌蜂寿命、羽化率、单蛹出蜂数、寄生能力均优于其他日龄僵蛹。8日龄椰心叶甲僵蛹在10℃下贮存5,10,15,20d后,上述生物学指标和种群参数均随贮存天数增加而显著低于对照。     

十一星瓢虫在不同温度下的实验种群生命表

组建了十一星瓢虫在16℃、20℃、24℃、28℃和32℃下的实验种群生命表。结果表明：各 虫态的发育速率随温度的升高而加快,在16℃下世代的发育历期最长(64.2天),而32℃时仅为16.4天,24℃和28℃时分别为27.1天和21.5天。卵、幼虫、蛹和世代的发育起点温度分别为10.9℃,11.1℃,12.5℃和10.6℃,有效积温分别为40.9,110.3,39.7,359.4日·度。成虫寿命随温度升高而逐渐缩短,16℃时最长,为34.7天,在32℃下最短,为14.1天; 单雌产卵量在24℃时最高,平均为463.8粒,32℃时最低,为96.4粒。在恒温24℃～28℃内, 十一星瓢虫的种群趋势指数和内禀增长力较高, 种群加倍时间较短。16℃时种群增长受到较大制约,种群趋势指数仅为24℃时的10.7%,种群加倍时间约22.3天,为24℃时的4.1倍。32℃时十一星瓢虫的发育历期缩短,存活率、繁殖力降低。     

温度对三叶草彩斑蚜种群参数的影响

为了探讨温度对三叶草彩斑蚜种群增长的影响,在实验室研究了15～35℃范围内共9个温度下三叶草彩斑蚜的发育、繁殖和生命表.结果表明:三叶草彩斑蚜种群在35℃下不能存活.若虫的发育历期随着温度的上升而显著缩短,在15 ～ 32℃内为18.33～4.02 d,存活率在40.0％～83.6％,25℃下若虫的存活率最高、32℃下存活率最低.成蚜的平均寿命在10.64 ～ 20.87 d,23℃下寿命最长、32℃下最短.产蚜高峰期随温度的上升而提前,除15℃为15 d以外,其余温度下均在3～6d.平均繁殖力和单头最高繁殖力以25℃下最高,分别为82.0和149.0头.平均世代周期随着温度的上升从15℃的31.17 d逐渐缩短到32℃的10.17 d.净增殖率在25℃下最大(68.62),32℃下最小(13.96).内禀增长率在0.10 ～0.30 d-1,其中28 ℃下最高、15℃下最低.若虫的发育起点温度和有效积温分别为9.35℃和97.83 d·℃.繁殖力、净增殖率和内禀增长率与温度的关系均可用一元二次方程描述.     

温度对微小花蝽生长发育和繁殖的影响

【目的】明确温度对微小花蝽Orius minutus生长发育和繁殖的影响。【方法】本研究以腐食酪螨Tyrophagus putresceniae为猎物,分别在5个恒温(15,20,25,30和35℃)条件下室内饲养,调查了温度对微小花蝽各虫态发育历期、存活率、成虫繁殖力以及种群参数的影响。【结果】在15~35℃范围内,各虫态平均发育历期均随温度升高而缩短,15℃下完成一个世代发育需要52.45 d,而35℃下仅需14.85 d。直线回归分析表明,微小花蝽世代发育起点温度为8.89℃,有效积温为359.20日·度。世代存活率和单雌平均产卵量均在25℃时最高,分别为17.07%和41.00粒。种群趋势指数在15℃和35℃下小于1,种群呈负增长;20~30℃下大于1,且25℃时最高,为3.92。净增殖率、内禀增长率和周限增长率均在25℃时最高,分别为3.32,0.04和1.04;种群世代周期以15℃时最长,为57.76 d,35℃时最短,为17.50 d。【结论】取食腐食酪螨的微小花蝽发育适宜温度范围为25~35℃,存活、繁殖和种群增长的最适温度均为25℃。这些结果为利用腐食酪螨人工饲养微小花蝽提供了基础参考数据。     

温度对棉大卷叶螟生长发育和繁殖的影响

本文利用生命表方法评价了温度对棉大卷叶螟生长发育和繁殖的影响.结果表明：在17 ℃～26 ℃温度范围内,棉大卷叶螟的发育历期随温度升高而显著缩短;当温度超过32 ℃时,其发育历期延长.棉大卷叶螟的世代起点发育温度为12.08 ℃,有效积温为436.2日·度.在17 ℃～35 ℃温度范围内,棉大卷叶螟的存活率在26 ℃下最高,其他温度下的存活率随温度的升高或降低而降低.在17 ℃～35 ℃之间,棉大卷叶螟实验种群的内禀增长率、世代净增殖率、周限增长率分别在29、26和32 ℃下最大,其值分别为0.1268、415.65和1.185.世代平均历期随着温度的升高而缩短,在17 ℃下最长,为89.11 d;在35 ℃下最短,为28.68 d.     

不同温度下康氏粉蚧实验种群生命表

为了探索温度对康氏粉蚧Pseudococcus comstocki发育和繁殖的影响, 经室内实验, 建立了康氏粉蚧在17℃,20℃,23℃,26℃,29℃和32℃下的实验种群生命表。结果表明： 在17~29℃温度范围内, 随着温度的升高康氏粉蚧的世代发育历期缩短, 在17℃下雌雄世代的发育历期最长（分别为121.27 d和89.64 d）, 而29℃时仅分别为52.10 d和36.01 d,且其温度与发育速率的关系符合 Logistic模型。雌虫世代的发育起点温度为8.69℃, 有效积温为1 020.90日·度; 雄虫世代的发育起点温度为10.27℃, 有效积温为659.04日·度。在26℃时, 康氏粉蚧的世代存活率最高(81.94%), 种群趋势指数(I)也最高(322.27), 有利于种群增长; 而在17℃和29℃, 康氏粉蚧的世代存活率分别为64.85%和67.23%, 种群趋势指数(I)分别为69.91和42.19, 且32℃时康氏粉蚧1龄若虫生长停滞。说明高温和低温都不利于康氏粉蚧的种群增长, 且高温的影响大于低温。     

温度对药材甲(Stegobium paniceum L.)实验种群发育和繁殖参数的影响

通过室内控制温湿度下的种群生态学研究,考察了梯度恒温17～32℃下,温度对药材甲实验种群存活、发育和繁殖的影响。结果表明,在实验温度范围内,幼虫发育历期随温度的升高而缩短,在17,20,23,26,29℃和32℃下,分别需要74.4,67.6,52.2,46,36.6d和36.2d;温度对卵孵化率、幼虫和蛹存活率、成虫单雌产卵量等参数的影响显著;药材甲种群卵量和种群增长指数均符合二次方程抛物线模型,种群下一代卵量的拟合方程为Npe=-6.338t2 339.01t-3403.4,r=0.953**;种群增长指数拟合方程为Ipg=-0.070t2 3.767t-37.816,r=0.953**;净增殖率、内禀增长率、周期增长率、平均世代周期等参数与温度之间的关系均极显著相关。     

温度对新菠萝灰粉蚧生长发育和繁殖的影响

新菠萝灰粉蚧是近年在我国新发现的一种重要外来入侵害虫,温度是决定新菠萝灰粉蚧能否建立稳定种群的最基本因素.本研究以南瓜作为寄主,探索恒温条件对新菠萝灰粉蚧生长发育和繁殖的影响.在17、20、23、26、29和32 ℃,光周期14L∶10D,相对湿度(75±5)%的实验室条件下,测定了新菠萝灰粉蚧各虫态的发育历期、发育速率、存活率和繁殖力,组建了新菠萝灰粉蚧的实验种群生命表.结果表明: 在20～29 ℃,各虫态的发育历期均随温度的升高而缩短,在20 ℃下雌、雄若虫期的发育历期最长,分别为46.95和50.26 d;29 ℃时雌虫若虫期的发育历期最短,为20.28 d;而雄虫若虫期在32 ℃时最短,为20.70 d.各虫态的温度与发育速率的关系均符合二次回归关系.此外,温度显著影响新菠萝灰粉蚧的存活率,在29 ℃时雌、雄若虫期的存活率均最高,分别为70.3%和69.3%;雌虫世代的发育起点温度为13.80 ℃,有效积温为491.50日·度;雄虫世代的发育起点温度为11.61 ℃,有效积温为388.85日·度.新菠萝灰粉蚧的产卵前期和成虫寿命随着温度的升高而缩短;成虫产卵量在29 ℃时最高,达每雌442.2粒;最小为20 ℃,仅为每雌111.8粒;29和20 ℃下种群趋势指数分别为168.2和19.1,且在17和32 ℃时,新菠萝灰粉蚧1龄若虫和3龄若虫均表现为生长停滞.说明温度过高或过低均不利于其生长发育.温度对新菠萝灰粉蚧的生长发育、存活、繁殖及种群增长有显著的影响,23～29 ℃是最适宜新菠萝灰粉蚧生长发育和繁殖的温度范围.     

椰心叶甲啮小蜂发育起点温度和有效积温研究

椰心叶甲啮小蜂Tetrastichus brontispae Ferriere在实验室内,相对湿度75±5%,光周期L:D=12:12,温度16℃,20℃,24℃,28℃条件下,世代平均历期分别为53.7天,28.0天,21.2天,16.2天.其卯、幼虫、蛹及整个世代的发育起始点温度分别为13.15±0.49℃,10.25±0.44℃,12.41±0.57℃,10.50±0.89℃;有效积温分别为15.35±0.76日度,107.21±3.76日度,113.60±6.22日度,281.50±7.05日度.椰心叶甲啮小蜂生长发育历期随温度的升高而缩短,与温度的关系符合指数函数:y=226.19667e-0.096991x.     

Development, survival and reproduction of black citrus aphid, Toxoptera aurantii (Hemiptera: Aphididae), as a function of temperature

The development, survival, and reproduction of the black citrus aphid Toxoptera aurantii (Boyer de Fonscolombe) were evaluated at ten constant temperatures (4, 7, 10, 15, 20, 25, 28, 30, 32 and 35 degrees C). Development was limited at 4 and 35 degrees C. Between 7 and 32 degrees C, developmental periods of immature stages varied from 44.2 days at 7 degrees C to 5.3 days at 28 degrees C. Overall immature development required 129.9 degree-days above 3.8 degrees C. The upper temperature thresholds of 32.3, 28.6, 29.3, 27.2, and 28.6 degrees C were determined from a non-linear biophysical model for the development of instars 1-4 and overall immature stages, respectively. Immature survivorship varied from 82.1 to 97.7% within the temperature range of 10-30 degrees C. However, immature survivorship was reduced to 26.3% at 7 degrees C and 33.1% at 32 degrees C. Mean adult longevity was the longest (44.2 days) at 15 degrees C and the shortest (6.2 days) at 32 degrees C. The predicted upper temperature limit for adult survivorship was at 32.3 degrees C. Total nymph production increased from 16.3 nymphs per female at 10 degrees C to 58.7 nymphs per female at 20 degrees C, declining to 6.1 nymphs per female at 32 degrees C. The estimation of lower and upper temperature limits for reproduction was at 8.2 and 32.5 degrees C, respectively. The population reared at 28 degrees C had the highest intrinsic rate of increase (0.394), the shortest population doubling time (1.8 days), and shortest mean generation time (9.5 days) compared with the populations reared at six other temperatures. The population reared at 20 degrees C had the highest net reproductive rate (54.6). The theoretical lower and upper temperature limits for population development, survival and reproduction were estimated at 9.4 and 30.4 degrees C, respectively. The biology of T. aurantii was also compared with three other citrus aphid species.     

Life history of the mealybug, Maconellicoccus hirsutus (Hemiptera: Pseudococcidae), at constant temperatures

Important life history parameters of the mealybug, Maconellicoccus hirsutus (Green), were characterized on hibiscus (Hibiscus rosa-sinensis L.) cuttings at six constant temperatures between 15 and 35 degrees C. The development of M. hirsutus was the fastest at 27 degrees C, where the mealybugs completed development in approximately 29 d. The lower (T(min)) and upper (T(max)) developmental thresholds and the optimal developmental temperature (T(opt)) for the development of female mealybugs were estimated as 14.5, 35, and 29 degrees C, respectively. The thermal constant (K), which is the number of temperature-day or degree-day units required for development, of the females was 347 DD. The original distribution range prediction (based on T(min) = 17.5 degrees C and K = 300 DD) indicated that M. hirsutus could complete at least one generation in all of the continental United States. However, results of this study suggested that the distribution range of M. hirsutus may expand northward because of the lower T(min), and the predicted number of generations in a year may be lower because of the higher K required to complete each generation. The average cumulative survival rate of M. hirsutus at 25 and 27 degrees C was 72%, which was significantly higher than 51 and 62% at 20 and 30 degrees C, respectively. M. hirsutus reproduced sexually, with each mated female producing 260-300 eggs between 20 and 27 degrees C but only approximately 100 eggs at 30 degrees C. Female longevity was reduced from 28 d at 20 degrees C to 19-21 d at 25-30 degrees C. At 27 degrees C, the net reproductive rate (R(o)) was estimated at 165 female symbol/female symbol, the intrinsic rate of population increase (r(m)) was 0.119 (female symbol/female symbol/d), the generation time (T(G)) was 43 d, and the doubling time (DT) was 5.8 d. The life table statistics suggested that the currently released biological control agents, which have higher r(m) than M. hirsutus, will be able to complete more generations than the mealybug within the tested temperature range; thus, they are effective against M. hirsutus.     

Multiple generation effects of high temperature on the development and fecundity of Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) biotype B

Insects are ectotherms and their ability to resist temperature stress is limited. The immediate effects of sub‐lethal heat stress on insects are well documented, but longer‐term effects of such stresses are rarely reported. In this study, survival, development and reproduction of the whitefly, Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) biotype B, were compared over five consecutive generations at 27, 31 and 35 °C and for one generation at 37 °C. Both temperature and generation significantly affected the fitness of the whitefly. These impacts were more dramatic with increasing generations and temperatures. Among the experimental temperatures, the most favorable for development and reproduction were 27 °C and 31 °C. At 27 °C, survival, development and fecundity were all stable over these five generations. At 31 °C, immature survival rate was the highest in the fifth generation, but female fecundities decreased in the fourth and fifth generations. At 35 °C, egg hatching rate, immature survival rate and female fecundity decreased significantly in the fourth and fifth generations. At 37 °C, survival of B. tabaci was not adversely affected, but female fecundity at 37 °C was less than 10% of that at 27 °C or 31 °C. These results demonstrate that the lethal high temperature for B. tabaci is over 37 °C, and the whitefly population continued expanding in the five generations at 35 °C. The ability of B. tabaci biotype B to survive high temperature stress will play an important role in its population extension under global warming.     

高温对玉米螟赤眼蜂实验种群的影响

以米蛾卵为繁育寄主,组建了玉米螟赤眼蜂在26、29、32和35 ℃下的实验种群生命表,探讨了高温对玉米螟赤眼蜂生长和生殖的影响.结果表明,高温32 ℃～35 ℃对玉米螟赤眼蜂各虫态的生长发育有明显的抑制作用.卵 幼虫的存活率在26 ℃和29 ℃分别为 94.2%和88.6%,32 ℃时下降至80.2%,而35 ℃时仅为53.2%,蛹的存活率也表现出相应的下降趋势.玉米螟赤眼蜂羽化后12 h内的抱卵量、体长及卵粒大小随温度的升高而减少或变小.26 ℃时,玉米螟赤眼蜂羽化后0～12 h的抱卵量为37.9粒,随着温度的升高,抱卵量急剧下降,29 ℃、32 ℃和35 ℃的抱卵量分别为29.6、21.6和13.7粒.在26 ℃及29 ℃时,所有雌蜂均能进行正常交配和产卵,32 ℃时有6.7%的个体不产卵,至35 ℃时,则有60%的个体不能进行正常的生殖活动.     

Influence of constant temperatures on life history parameters of the cotton aphid, Aphis gossypii, infesting cotton

Laboratory clip-cage studies were conducted to quantify the temperature-dependent development, survivorship, and reproduction and to generate life history characteristics and population growth parameters of the cotton aphid, Aphis gossypii Glover, on phenologically standardized greenhouse-grown cottons at 10, 15, 20, 25, 30, and 35 degrees C. The developmental thresholds were estimated to be 6.3, 6.7, 5.9, 5.9, and 6.3 degrees C for first to fourth instars and for total nymphal development, respectively. The maximum rate of development were estimated to occur at 32.2, 30.8, 30.4, 30.0, and 30.2 degrees C for first to fourth instars and for total nymphal development, respectively. Increased temperature resulted in more rapid decline in survivorship, which was particularly sharp at 35 degrees C, dropping from 94 to 17% in 5 d. Number of days elapsed until first deposition of progeny increased progressively and sharply at temperatures 10 (26 d) to 15 (15 d) to 20 degrees C (8 d) and stabilized at 5 d for 25, 30, and 35 degrees C. Average lifetime fecundity of females rose from a low of 9.76 progeny at 10 degrees C to a peak of 58.9 progeny at 30 degrees C and declined sharply to 17.3 at 35 degrees C. Finite rate of population growth was highest at 25 degrees C and lowest at 10 degrees C. Although stage-specific developmental maxima occurred between 30 and 32 degrees C, a nonlinear regression model estimated 28.6 degrees C to be the optimum temperature for overall cotton aphid development, reproduction, and population increase.     

Biology, thermal requirements and fertility life table of the broad mite Polyphagotarsonemus latus (Banks) (Acari: Tarsonemidae) in grape (Vitis vinifera L.) cv. Italia

The mite Polyphagotarsonemus latus (Banks) constitutes one of the main pest of grape crop at the Submédio S?o Francisco Valley. The objective of this work was to study the biology of the broad mite Polyphagotarsonemus latus (Banks), to determine its thermal requirements and its fertility life table in grape (Vitis vinifera L.) cv. Italy. Acclimatized chambers (BOD) were used, adjusted to the temperatures of 18, 22, 25, 28 and 32 degrees C, relative humidity of 65 +/- 10% and alternated light of 12h. Egg-adult period was 3.4 and 6.8 days for males and 3.5 and 7.4 days for females, respectively at 32 degrees C and 18 degrees C. At the temperatures of 18, 25 and 32 degrees C, each female deposited, respectively, 16.5, 44.3 and 13.3 eggs. The stages of egg, larva and pupa and egg-adult period presented, respectively, thermal thresholds of 11.23, 9.45, 12.19, and 9.71 degrees C and thermal constant of 28.51, 14.59, 8.33, and 62.73 degrees-day. The mean duration of one generation (T) was 25.6, 10.8 and 8.2 days, respectively, at the temperatures of 18, 25 and 32 degrees C. The net reproductive rate (R0) at the temperature of 25 degrees C was the highest, corresponding to an increase of 30.12 times at each generation. The intrinsic rate of population increase (rm) was 0.10 (18 degrees C), 0.31 (25 degrees C) and 0.12 (32 degrees C) and the finite ratio of population increase (lambda) was 1.10 (18 degrees C), 1.36 (25 degrees C) and 1.13 (32 degrees C). According to the mean temperature values, P. latus can have 95 and 99 generations/year, respectively, for the municipal districts of Petrolina, PE and Juazeiro, BA.     

温度对巨膜长蝽生长发育与繁殖的影响

【目的】近年来巨膜长蝽Jakowleffia setulosa (Jakovlev)由稳定种群的荒漠昆虫上升为暴发性发生并迁移至农区危害的农业害虫。由于缺乏巨膜长蝽生物学基础研究,给监测预警及综合防治带来许多困难。本研究旨在探明温度对巨膜长蝽发育和繁殖的影响。【方法】本实验以白茎盐生草Halogeton arachnoideus Moq.为寄主植物,分别在7个恒温（13,18,23,28,33,35和37℃）下研究了温度对巨膜长蝽各虫态平均发育历期、发育速率、成活率、产卵量和种群参数的影响。【结果】在13~37℃范围内,各虫态的发育历期随温度的升高而缩短,13℃完成一个世代发育需要82.63 d,37℃只需要14.61 d。各虫态的发育速率（V）与温度（T）的关系均符合多项式回归模型,且极显著相关。采用直接最优法分析,巨膜长蝽世代的发育起点温度为8.30℃,有效积温为555.77日·度,在宁夏一年可发生2代。巨膜长蝽世代存活率均在33℃时最高,为35.44%。28～37℃之间单雌产卵量较多,达到10粒以上,通过方程拟合得到理论上雌虫产卵最适温度为34.59℃,产卵量最高可达到16.73粒/雌;种群趋势指数在13℃为零,18～23℃小于1,种群呈负增长;28～37℃大于1,且33℃时最高,为2.77;净增殖率、内禀增长率及周限增长率均在37℃时最高,分别为7.24, 0.3912和1.4787;种群世代周期以13℃时最长,为45.8936 d,37℃时最短,为5.0608。【结论】巨膜长蝽在28～35℃下存活率、增长指数和繁殖力较高,说明该温度范围是巨膜长蝽生长发育和繁殖的适宜温度。本研究为有效开展巨膜长蝽的监测预报及综合防控提供了科学依据。     

南昌地区灰飞虱的生活史、繁殖和越冬生物学特性

为了探明灰飞虱Laodelphax striatellus (Fallén)在南昌地区的生物学特性, 本研究在实验室和自然条件下系统调查了该虫的年生活史, 温度对其生长发育、 繁殖、 性比及翅型分化的影响, 及其越冬生物学。结果表明, 灰飞虱在南昌一年发生4~7代。在18~32℃, 卵的发育历期随温度升高逐渐缩短。若虫的发育历期在18~28℃随温度升高逐渐缩短, 但若虫的发育历期在30和32℃时显著长于28℃的发育历期（P=0.000﹤0.05）。越冬个体的若虫期为143~187 d。卵和若虫的发育起点温度分别为10.17℃和7.51℃。在室外, 7月中旬高温下孵化的第4代若虫的发育历期也明显延长, 显示了高温诱导的夏季休眠现象。在18~28℃, 产卵前期随温度升高而逐渐缩短, 当温度上升到30℃时, 其产卵前期比26和28℃下有所延长。产卵期在22℃最长, 30℃下最短。成虫在20~24℃下的寿命最长。在28℃下, 平均每雌产若虫量最大。不论在室内还是在室外, 雌雄比均接近1∶1。在18~32℃, 羽化的成虫均以长翅型占绝对优势。在自然条件下, 越冬代和第6代羽化的成虫以短翅型占优势, 其他各代仍以长翅型占优势。在自然条件下, 9月中旬孵化的若虫就有少量个体滞育越冬, 10月中旬后孵化的若虫全部进入越冬。越冬若虫的龄期为1-5龄。本研究为该虫发生的预测及有效防控提供基础资料。     

不同变温组合条件下二点委夜蛾的生长发育

【目的】为明确变温条件对二点委夜蛾Athetis lepigone (Möschler) 实验种群生长发育的影响。【方法】分别设置6个变温组合（20/24℃, 20/28℃, 20/32℃, 24/28℃, 24/32℃和28/32℃）,通过测定和计算各虫态发育起点温度和有效积温及生命表参数来研究变温对二点委夜蛾卵、幼虫、蛹、世代平均发育历期、存活率和繁殖力的影响。【结果】不同变温组合对二点委夜蛾各虫态的发育历期、存活率及种群繁殖力有显著影响。发育历期随着变温组合平均温度的升高而缩短,二点委夜蛾世代存活率由大到小的顺序为24/28℃>20/32℃>28/32℃>20/28℃>24/32℃>20/24℃。24/28℃时产卵量最高,单雌产卵量为390.70粒。世代发育起点温度和有效积温分别为10.37℃和663.17日·度。在不同变温组合下内禀增长率r_m值随着平均温度的升高先上升后降低。在24/28℃时,二点委夜蛾r_m、净增殖率R₀和周限增长率λ最大,种群加倍时间 t 和世代平均周期 T 最小。【结论】24/28℃是二点委夜蛾实验种群生长发育及繁殖的最适变温组合,本研究结果为二点委夜蛾的预测预报及综合防治提供了科学依据。