不同光周期对高粱蚜种群参数的影响

【目的】为了探索光周期对高粱蚜Melanaphis sacchari生长发育的影响,构建不同光周期条件下高粱蚜的种群生命表。【方法】利用培养皿离体叶片法,在不同的光周期条件(2L∶22D,6L∶18D,8L∶16D,12L∶12D,14L∶10D,18L∶6D和20L∶4D)下饲养高梁蚜,测定其体重及各项生命表参数。【结果】在12L∶12D光周期时,高粱蚜的体重差(成蚜体重减去刚出生12 h内时的体重)和下代新生蚜体重最高(分别为0.485和0.043 mg);在18L∶6D光周期时体重差和下代新生蚜体重值最低(分别为0.242和0.018 mg)。在14L∶10D,12L∶12D,8L∶16D和6L∶18D光周期时高粱蚜的若虫存活率和成虫生殖力显著高于18L∶6D和2L∶22D时;在不同光周期条件下的净增殖率(R0)为25.90~88.14头/雌,在12L∶12D光周期时的净增殖率最大,在2L∶22D光周期时的净增殖率最小。在不同光周期条件下高粱蚜的内禀增长率(rm)为0.325~0.407;生命表参数与光周期的拟合方程预测出高粱蚜的最适光照时数为9~11 h。【结论】光周期对高梁蚜种群参数有显著的影响,光周期9~11L∶13~15D最适合高粱蚜的生长发育和繁殖,光照过长或过短均会影响高粱蚜种群的发展。     

pH与氨的交互作用对壶状臂尾轮虫(Brachionus urceolaris)种群增长、繁殖及存活的影响

观测了pH7—10之间（间隔1）与非离子氨氮（NH3-N）浓度分别为0．5、1、2、5mgNH3-N／L和10mg NH3-N／L水质条件下壶状臂尾轮虫（Brachionus urceolaris）种群的增长、繁殖和存活率。结果表明,在没有NH3-N存在的情况下,轮虫在pH7—10之间都能存活,pH7时种群的净增殖率、内禀增长率都最高,pH8时世代时间最长。在适宜的pH条件下（pH7、8）,NH3-N浓度小于2mg／L时,轮虫的存活曲线变化不大,繁殖率几乎不受影响;在NH3-N浓度达到5mg／L时,存活时间缩短,繁殖率明显下降;当NH3-N浓度达到10mg／L时,壶状臂尾轮虫在48～72h内死亡,且不产生幼体。在非适宜pH条件下加入NH3-N后,种群的内禀增长率变为负值,净增殖率明显下降,种群出现负增长。以上结果表明高pH与NH3-N的交互作用对轮虫种群的增长与存活具有严重的负影响。     

光周期对两种色型豌豆蚜种群参数的影响

为探讨光周期对红绿两种色型豌豆蚜种群增长的影响,于室内模拟光周期22L∶2D、16L∶8D、10L∶14D和4L∶20D四个水平,研究了红绿两种色型豌豆蚜的发育、繁殖和生命表。结果表明:相对于其它光周期,在光周期22L∶2D时,红绿两种色型豌豆蚜若蚜存活率最高,繁殖力最强;其红色型豌豆蚜种群增长内禀增长率(r_m=0.3263)高于绿色型豌豆(r_m=0.2863)。光周期16L∶8D时,红色型豌豆蚜的若蚜存活率(72.22%)高于绿色型豌豆蚜(69.45%),而成蚜寿命(6.58d)较短;但绿色型豌豆蚜内禀增长率(r_m=0.2648)高于红色型豌豆蚜(r_m=0.2249),其种群繁殖力强。光周期10L∶14D时,红色型豌豆蚜与绿色型豌豆蚜相比,若蚜存活率(80.55%)高,内禀增长率(r_m=0.2490)高,种群增长力强,而绿色型豌豆蚜成蚜寿命(12.71d)较长。光周期4L∶20D时,两种色型豌豆蚜若蚜存活率最低,繁殖力最弱,成蚜寿命显著延长;红色型豌豆蚜若蚜存活率(64.67%)高于绿色型(35.50%),成蚜没有产生后代;绿色型豌豆蚜内禀增长率(r_m=-0.0366),其种群为负增长。综上,短光照条件(4L∶20D)延长了两种色型豌豆蚜的若蚜发育历期及成蚜寿命,降低了若蚜存活率、繁殖力及生命表各项参数;长光照条件(22L∶2D)缩短了两种色型豌豆蚜的若蚜发育历期及成蚜寿命,若蚜存活率高、繁殖力强;红色型豌豆蚜更适宜光周期10L∶14D,而绿色型豌豆蚜更适宜光周期16L∶8D。     

温度和光照对麦二叉蚜种群增长的影响

本文研究了温度和光照对麦二叉蚜种群存活率、生殖率及内禀增长率的影响。同时给出了在不同温度和光照条件下麦二叉蚜种群的净增殖率R_0、周限增长率λ、数量加倍时间t、瞬时出生率b及瞬时死亡率d等种群参数。     

温度对玉米蚜种群增长的影响

研究了温度对玉米蚜RhopalosiphummaidisFitch种群存活率、生殖率及内禀增长率的影响 ,同时测定了不同温度条件下玉米蚜种群的净增殖率、周限增长率、种群倍增时间及稳定年龄组配等种群参数。在 1 0℃和 3 5℃条件下 ,玉米蚜若蚜的死亡率较高 ,特别是 4龄若蚜 ;2 5℃最适宜玉米蚜的生长、发育和繁殖 ,其种群增长最快     

柏小爪螨实验种群生命表的组建与分析

组建并分析了柏小爪螨实验种群生命表。在25℃恒温条件下,种群的内禀增长力rm为0．1274,周限增长率λ为1．1358／d,净增殖率Ro为12．8746代,平均世代周期T为20．0586d,种群增长一倍需要的时间t为5．4407d。     

应用Jackknife技术统计昆虫生命表参数变异的VFP实现

研究昆虫种群的动态,掌握种群增长的潜力是非常重要的。应用生殖力生命表可进行种群增长动态的估计,常用5个主要参数来描述净增殖率、内禀增长率、世代平均周期、种群倍增时间和周限增长率,Jackknife技术可以用来估计内禀增长率等参数的变异程度,利用VFP编程实现了生命表参数变异程度的计算。     

温度对美洲斑潜蝇种群参数的影响(英文)

本文报道温度对美洲斑潜蝇种群参数和自然内禀增长率的影响。实验在 5种温度即 15,2 0 ,2 5,30和 35℃ ,相对湿度为 80 % ,光照 12∶12 (L∶D)条件下进行 ,并用菜豆Phaseolusvulgaris作为它的寄主植物。实验结果表明 ,美洲斑潜蝇非成熟期的发育时间从 15℃的 38d减少到 35℃的 11d。描述卵 ,幼虫和蛹的发育率 (y)随温度 (t)变化的方程分别是 y =1 786 2t - 13 84 1,y =1 16 2t - 4 94 6和 y =0 6 34t - 5 146。雌成虫的寿命在 15℃条件下是 2 0d ,到 35℃时则下降到 9d。最适宜的繁殖温度是 2 0℃- 30℃ ,在此温度范围内每雌产卵量为 158粒到 2 82粒。非成熟期在 2 5℃条件下的死亡率最低 ,为9% ,而最高出现在 35℃ ,为 4 9%。在 2 5℃到 30℃这个温度范围内 ,获得较高的自然内禀增长率(rm)和净繁殖力 (R0 ) ,分别为 0 2 7和 116 8,此结果表明此温度范围最有利于该种群的增长 ,种群的世代增长倍数约为 117倍。实验结果还表明 ,该虫种群的平均世代历期 (T)和种群倍增时间 (t)随温度升高而减少 ,而种群有限增长率 (λ)与温度的关系则是正的线性关系。     

危害丰驰桑的朱砂叶螨实验种群生命表参数分析

应用Jackknife技术,研究了朱砂叶螨Tetranychus cinnabarinus在丰驰桑上的种群动态,并用Weibull模型对种群存活特征进行了分析.结果表明:在(26±1) ℃,RH 85%,16L:8D光照条件下,朱砂叶螨生命表参数(mean ± std)内禀增长率为0.231 ± 0.012,净增殖率为17.529 ± 2.101,周限增长率为1.259 ± 0.015,世代平均周期为12.432±0.383,种群倍增时间为3.000 ± 0.156 d,存活率曲线表现为Deevey I型.对掌握朱砂叶螨在丰驰桑上的种群动态有重要的指导意义.     

圈养川金丝猴生命表和种群动态研究

川金丝猴Rhinopithecus roxellana是我国特有的濒危物种。通过对全世界785只圈养川金丝猴的年龄分布、繁殖率、性比进行统计分析,编制圈养川金丝猴种群的生命表,绘制死亡曲线及存活曲线,计算川金丝猴的内禀增长能力。结果显示:圈养川金丝猴的寿命期望值较长,死亡率低,种群数量波动小,具有相对稳定的生态学特征;净增殖率、内禀增长率和周限增长率分别为2.674 6、0.095 28/年和1.100 0,说明圈养川金丝猴种群目前仍存在上升的空间,种群结构整体上相对稳定。     

不同光周期条件下棉花粉蚧的生长发育和种群增长能力

【目的】 研究阐明不同光周期条件下棉花粉蚧Phenacoccus solenopsis Tinsley实验种群的发育历期、繁殖和数量动态规律,为制定该虫防治对策、研究治理措施等提供科学依据。【方法】 以扶桑为寄主,在温度27±1℃、相对湿度70%±5%、光照强度4 000 lx及不同光周期（8L∶16D, 10L∶14D, 12L∶12D, 14L∶10D和16L∶8D）条件下,观察了棉花粉蚧实验种群的生长发育特性和繁殖能力,组建了实验种群生命表。【结果】 不同光周期处理下棉花粉蚧1龄若虫和3龄若虫的发育历期及雌成虫产仔量均发生了变化,但不同龄期若虫存活率之间差异不大。随着光照时间增加,棉花粉蚧1龄若虫、3龄若虫发育速率加快,8 h光照时发育历期分别为5.43 d和6.35 d,而16 h光照时发育历期分别缩短至4.16 d和4.75 d;整个若虫发育历期也由8 h光照时的15.54 d缩短至16 h光照时的12.74 d,世代历期由27.75 d缩短至23.45 d。长光照时雌虫更早进入产仔期,也有利于雌虫繁殖后代,16 h光照时进入产仔期是18日龄,8 和10 h光照时均推迟至22日龄;16 h光照时单雌产仔量为417.06头,明显高于12 ,10 和8 h光照时的353.59,347.61和336.00头。长光照条件下实验种群趋势指数(I)明显较大,增长潜能更大,16,10 和8 h光照时种群趋势指数分别为 175.37,133.94和141.99。该虫生命表参数表明,随着光照时间加长净增值率（R₀）呈逐渐增大趋势,8, 10,12,14和16 h光照时分别为88.57,86.85,100.77,124.16和126.86;内禀增长率、周限增长率表现类似的规律,8～16 h光照时内禀增长率（r_m）为0.1616～0.2066,周限增长率（λ）为1.1754～1.2294;而种群倍增时间（t）则随着光照时加长而缩短,8～16 h光照时为4.29～3.36 d。【结论】 长光照有利于棉花粉蚧生长发育和繁殖,世代历期缩短,种群增长潜能变强。     

光照时间对双尾新小绥螨生长发育及种群参数的影响

【目的】为了进一步明确光照时间对双尾新小绥螨Neoseiulus bicaudus Wainstein生长发育的影响。【方法】在实验室恒温条件下,采用生命表研究方法,研究在不同光照时间下,双尾新小绥螨捕食土耳其斯坦叶螨的生长发育情况。【结果】双尾新小绥螨在不同光照时间段下均能完成世代周期。在光照时数小于12 h时,从卵发育至成螨的各个发育阶段所需时间均呈缩短趋势,当光照时数大于16 h后各个发育阶段所需的时间又呈增长趋势。产卵期在12L︰12D光照时数下最长为20.74 d,且同其他光照条件均存在显著性差异(P<0.05)。产卵后期、寿命、总产卵量均表现在16L︰8D光照时数下最长,分别为11.93 d、31.05 d和42.4粒。双尾新小绥螨种群的净增值率(R_0)在16L︰8D时达到最大值33.88,在8L︰16D时最低为14.97。【结论】光照时间在12~16 h范围内最适合双尾新小绥螨生长发育。     

光周期对国槐尺蠖生长发育状况的影响

在温度(25±1)℃,RH65%～75%条件下,对国槐尺蠖Semiothisa cinerearia Bremer et Grey各龄幼虫分别采用0:24、10:14、12:12、14:10、1:85种光周期处理。结果表明,以14:10处理的国槐尺蠖1～5龄幼虫历期最短;以16:8处理的幼虫发育历期最短,且随着光照时间的增加,幼虫发育历期逐渐缩短;不同光周期对于6～7龄幼虫存在显著的影响,但是对于1～5龄影响不大。成虫53%～56%在夜间羽化,越冬蛹在8～14h光照范围内,随光照长度增加发育历期延长,在14～16h光照范围内,历期随光照延长而缩短。以0:24处理的蛹羽化率最高,发育历期最短。     

光周期对内蒙古三种草原蝗虫高龄若虫发育、存活、羽化、生殖的影响

研究不同光周期(L8∶D16、L12∶D12及L16∶D8)对毛足棒角蝗Dasyhippus barbipes(F.-W.),亚洲小车蝗Oedaleus decorus asiaticus B.-Bidenko,小翅雏蝗Chorthippus fallax(Zub.)3种草原蝗虫高龄若虫的发育、存活、羽化、生殖的影响。结果表明:在白天温度(28±1)℃,黑夜温度(23±1)℃的恒定温度下,不同光周期对毛足棒角蝗和亚洲小车蝗高龄若虫的发育、羽化、产卵影响不大,但是对其存活率有极显著的影响:毛足棒角蝗和亚洲小车蝗高龄若虫到成虫的发育速度在中光照下(L12∶D12)最快。而在短光照(L8∶D16)下更有利于小翅雏蝗若虫发育,其次是中光照;毛足棒角蝗的羽化在中光照条件下最适宜,而长光照时数(L16∶D8)更有利于亚洲小车蝗和小翅雏蝗的羽化;光周期对亚洲小车蝗产卵影响最为明显,毛足棒角蝗和亚洲小车蝗在中光照和长光照时数条件下有利于它们产卵,而小翅雏蝗在短光照和中光照时数下有利于产卵。     

不同环境变量下银胶菊叶甲的生命表(英文)

在室内研究了不同环境变量(如食物、温度、光周期和不同光波长)下银胶菊杂草Parthenium hysterophorus L.的食叶昆虫和生物防治因子银胶菊叶甲Zygogramma bicolorata Pallister 的生命表。不同发育阶段的该种叶甲取食银胶菊不同部位时,取食花的甲虫死亡率指标Kappa值最低,其次是取食叶片和茎;而取食花时甲虫世代存活率最高。温度显著影响主要发育阶段该种叶甲的死亡率和存活率。27℃下饲养的未成熟期甲虫的Kappa值最低,其次是30, 25, 20 和35℃。世代存活和存活率表现相同的趋势。不同光周期显著影响死亡率,在14L∶10D (长日照)下世代存活最好,其次是 12L∶12D (昼夜相等), 10L∶14D (短日照), 24L∶0D (连续光照) 和0L∶24D (连续黑暗)。甲虫对不同波长光的反应上,在白光（广谱）下Kappa值最低,世代存活率最高,其次是黄光（λ≈570 nm)、蓝光 (λ≈475 nm) 和红光(λ≈650 nm)。卵的死亡率最高。不同发育阶段的甲虫在27℃长日照白光下用银胶菊花饲养最佳。死亡率趋势具有严格和显著的阶段特异性,表现出内在的存活效应,与研究的因素无关。     

温度和光周期对绿盲蝽滞育诱导的影响

为了阐明环境因子对绿盲蝽Apolygus lucorum Meyer-Dür卵滞育诱导作用,测定了3个温度和6个光周期组合处理对绿肓蝽的滞育诱导和绿盲蝽光周期感应的敏感虫态,系统调查了绿肓蝽在不同温度和不同光照组合下所产卵的孵化率.结果表明:绿盲蝽的敏感虫态为1龄若虫;在17℃,20℃和23℃3个不同温度下,光照时间小...     

Influence of photoperiod on Orius thyestes Herring (Hemiptera: Anthocoridae) reproduction and longevity

Several species of Orius Wolff are used in biological control of thrips in protected cultivations in temperate regions, but some of them show reproductive diapause, compromising the efficiency of these agents of biological control. There are no reports on the biology of the neotropical species Orius thyestes Herring under different environmental conditions. The purpose of this work was to investigate the influence of photoperiod on reproduction and longevity of this predator. Nymphs were kept in petri dishes in climatic chambers at 28+/-1 degree C, 70+/-10% RH and under the photoperiods of 12L:12D, 11L:13D, 10 L:14D e 09L:15D. The mating adults were kept in petri dishes with Bidens pilosa L. Asteraceae inflorescences as oviposition substracts and eggs of Anagasta kuehniella (Zeller) (Lepidoptera: Pyralidae) as food. The pre-oviposition and oviposition periods, fecundity and longevity were evaluated and O. thyestes did not show reprodutive diapause in all photoperiod conditions established. The mean number of eggs obtained per female decreased with the reduction of the photophase, with a difference (P < 0.05) between the values obtained in 12h and 9h of photophase. Longevity of females and males under 9h photophase was shorter (P < 0.05) than in all other photoperiods tested. The knowledge of the biology of the natural enemy under different conditions allows to optimise the mass rearing and to predict the performance of the predator in different photoperiods which may occur along the year and in greenhouses.     

Life history of hawthorn spider mite Amphitetranychus viennensis (Acarina: Tetranychidae) on various apple cultivars and at different temperatures

Development duration and reproduction rate of hawthorn spider mite Amphitetranychus viennensis (Zacher) were carried out on five different apple cultivars (Amasya (local cultivar), Golden Delicious, Granny Smith, Starking Delicious and Starkrimson Delicious) at 25 degrees C, 65 +/- 10% RH and 16:8 L:D. In addition, the same parameters were determined on Golden Delicious leaves at three constant temperatures (20, 30 and 35 degrees C, 65 +/- 10% RH and 16:8 L:D) in the laboratory. A. viennensis showed a better performance on Golden Delicious than on the other apple cultivars. This was mainly due to a short development time (10.7 days), high daily egg production (5.2 eggs/female/day) and early reproduction peak. The highest intrinsic rate of natural increase (rm) was determined on the variety Golden Delicious (rm = 0.247/day), while the lowest one was observed on the variety Starking Delicious (rm = 0.215/day). The developmental periods of A. viennensis varied from 7.4 to 18.8 days at 35 and 20 degrees C for females, while it varied from 7.9 to 17.2 days at 30 and 20 degrees C for males. The development threshold of the eggs and pre-adult stages were 9.72 and 9.07 degrees C, total effective temperature was 72.99 and 185.18 degree-days, respectively. The mean generation time (To) of the population ranged from 16.13 days at 30 degrees C to 29.15 days at 20 degrees C. The net reproductive rate (R0) increased from 54.33 female/female at 20 degrees C to 78.34 female/female at 25 degrees C, and decreased to 75.71 female/female at 30 degrees C. The highest intrinsic rate of increase (rm) was reached at 30 C (rm = 0.268/day), the lowest one at 20 degrees C (rm = 0.136/day).     

Diapause initiation and alterations in the life cycle of Grapholita molesta (Busck) (Lepidoptera: Tortricidae) as induced by photoperiodic conditions

Grapholita molesta (Busck) is one of the major pests of Rosaceae, causing significant damage to buds and fruits. In Southern Brazil, its population density is reduced during Rosaceae dormancy months. The present study evaluated the influence of different photoperiods (L:D) (10:14, 11:13, 12:12, 13:11, 14:10 and 16:8) at 25 ± 1oC and 60 ± 10% RH on diapause induction of G. molesta eggs, larvae, prepupae, and pupae. The effects of the photoperiod on the life cycle of non-diapausing insects and on the second generation were also assessed. Prepupal diapause was observed only when eggs and neonates (≤ 12h-old larvae) were exposed to photophases from 10h to 14h long. Development of non-diapausing individuals and those from the second generation tended to be longer in photophases between 10h and 14h long.     

Effect of relative humidity on development, survival and reproduction of the predatory lacewing Dichochrysa prasina (Neuroptera: Chrysopidae)

The effect of five constant relative humidity (RH) regimes (12%, 33%, 55%, 75% and 94%) on the preimaginal development and adult longevity and reproduction of Dichochrysa prasina Burmeister was studied at 26 ± 1 °C and a photoperiod of 16:8 (L:D) under laboratory conditions. For the experiments, larvae were fed individually on eggs of the flour moth Ephestia kuehniella (Zeller), whereas adults on a liquid diet consisting of water, yeast hydrolysate, sugar and honey. The experimental insects were maintained individually in sealed plastic containers with saturated water salt solutions at the base to control RH. Preimaginal developmental time from egg to adult for females and males was significantly shorter at 75% and 94% RHs than at other RHs in the range from 12% to 55%. Percentages of adult emergence were similar at all RHs tested and varied from 52.5% to 75.0%. Adult females that had no access to water and were maintained at 12%–75% RH lived on average less than two weeks and laid no eggs, whereas at 94% RH they lived longer and each laid on average 201 eggs. When the females had periodic access to a water source a significant increase in both longevity and egg production occurred and the estimated intrinsic rate of increase was high, irrespective of RH. These results could be useful for the mass-rearing of D. prasina and for better understanding its population dynamics under field conditions.