光周期对中华通草蛉自然越冬成虫及实验种群幼虫耐寒能力的影响

【目的】滞育诱导期进行短光照处理可影响昆虫耐寒性。为明确光周期对中华通草蛉Chrysoperla sinica (Tjeder)耐寒性的影响, 针对中华通草蛉滞育解除过程及非滞育虫态的耐寒性进行了一系列研究。【方法】测定了中华通草蛉自然越冬成虫的过冷却点（supercooling point, SCP）以及长光周期（15L∶9D）和短光周期（9L∶15D）条件下自然越冬成虫在滞育解除过程中在-12℃下的死亡率, 并测定了室内长、 短两种光周期下实验种群2龄和3龄幼虫的过冷却点（SCP）、 结冰点（freezing point, FP）以及-7℃下的死亡率。【结果】中华通草蛉12月份的自然越冬成虫SCP集中在-10~-14℃之间。SCP低于-12℃的个体占43.70%, 且-12℃处理1 d死亡率为62.00%。-12℃处理1 d条件下的长、 短光周期处理自然越冬成虫, 除处理0 d外, 长光周期处理死亡率均高于短光周期处理的, 且在处理15 （P=0.012）, 20 （P=0.01）和25 d （P=0.001）差异显著。中华通草蛉试验种群相同龄期幼虫在短光周期下的SCP和FP均高于长光周期下, 但差异不显著(P>0.05); 但在-7℃下, 2龄幼虫短光周期下的低温死亡率为67.00%±4.04%, 显著低于长光周期下的低温死亡率（78.00%±1.33%）（P=0.011）, 3龄幼虫短光周期条件下低温死亡率为24.33%±1.33%, 显著低于长光周期下的低温死亡率（53.00%±3.46%）（P=0.002）。【结论】中华通草蛉为结冰敏感型, 诱导滞育的短光照处理可提高其幼虫期及滞育解除过程中成虫的耐寒能力。     

中华通草蛉自然越冬成虫在长、 短光周期下滞育解除中体内相关酶活力变化

光周期信号在昆虫的环境适应中发挥着重要作用, 昆虫能够通过感受光周期的变化来调节体内生理生化过程, 以适应环境的变化。为明确光周期对中华通草蛉Chrysoperla sinica越冬成虫滞育解除过程中酶活力的影响, 本研究测定了长光周期（15L∶9D）和短光周期（9L∶15D）条件下, 成虫体内过氧化氢酶（CAT）、 超氧化物歧化酶（SOD）、 Na⁺K⁺-ATP酶和乳酸脱氢酶（LDH） 4种重要酶活力的变化。结果表明： 中华通草蛉雌、 雄成虫CAT活性在长光周期处理5 d达最高值后呈下降趋势; 短光周期处理CAT活性在处理5 d达最高值, 且高于长光周期处理, 在处理10 d迅速下降至最低值, 且均显著低于长光周期处理的CAT活性（P=0.005）, 后迅速上升并在处理15 d （P<0.05）和20 d （P<0.005）活性显著高于长光周期处理。雌、 雄成虫SOD活性在长光周期下处理10 d达最高值, 且显著高于对照（P<0.001）, 且除处理5 d雄虫SOD活性与对照无显著性差异外（P=0.558）其余处理活性均显著低于对照（P<0.05）。雌成虫长光周期处理5 d 的SOD活性显著低于短光周期（P<0.001）, 其余处理活性均显著高于短光周期; 雄成虫长光周期下处理的SOD活性均高于短光周期下, 且处理5 d （P=0.04）, 15 d （P<0.001）和20 d （P=0.003）的活性差异显著。两种光周期条件下雌、 雄成虫Na⁺K⁺-ATP酶活性随处理时间延长呈上升-下降-上升趋势, 且均显著高于处理0 d成虫酶活性（P<0.001）; 短光周期处理不同时间Na⁺K⁺-ATP酶活性均高于长光周期处理, 且除雄成虫处理15 d无显著性差异（P=0.142）外, 其余均差异显著（P<0.05）。两种光周期条件下雌、 雄成虫LDH活性随处理时间延长呈下降趋势, 且均显著低于对照（P<0.001）。中华通草蛉越冬成虫在长、 短两种光周期条件下体内酶活力的差异可能是影响两种光周期下成虫滞育解除过程中体内不同生化物质含量与生殖状态的重要因子。     

中华通草蛉成虫抗寒能力季节性变化

中华通草蛉（Chrysoperla sinica）成虫在自然条件下抗寒能力的季节性变化研究表明,雌、雄成虫的抗寒能力均呈现出季节性的变化趋势,即随着冬季低温的到来,其抗寒能力逐渐增强,冬季过后又随气温的回升,其抗寒力逐渐减弱.雌、雄成虫的体内含水量、过冷却点（SCP）和结冰点（FP）均随气温的降低而降低,升高而升高,但体内总脂肪的含量却随气温的降低而升高,升高而降低.越冬代在越冬的前期和中期,雌、雄成虫体内的含水量和SCP均显著低于生长季节的其它各代,越冬代后期的含水量和SCP与生长季节其它各代没有显著差异.经回归分析发现,雌、雄成虫体内含水量与SCP之间均存在极显著负相关关系（p＜0.01）;越冬代成虫（特别是越冬前期）的体内总脂肪含量显著高于其它时期,并且雌成虫体内的总脂肪含量与SCP之间呈显著正相关（p＜0.05）,雄成虫体内总脂肪含量与SCP之间没有显著相关性（p＞0.05）.在一年的不同世代中,雌、雄成虫体内含水量只是在越冬前期有显著差异,SCP和体内总脂肪含量却在越冬后期有显著差异.     

光周期和温度对大草蛉滞育解除及滞育后发育和繁殖的影响

【目的】大草蛉Chrysopa pallens(Rambur)是自然界重要的天敌昆虫,以预蛹兼性滞育越冬。本研究旨在明确光周期和温度对大草蛉滞育解除及滞育后发育和繁殖的影响。【方法】在室内观测了不同温度(22℃和25℃)和光周期(15L∶9D及9L∶15D)条件下大草蛉预蛹的滞育解除及滞育解除后的蛹期、蛹存活率、成虫鲜重、成虫寿命、产卵前期和单雌产卵量等生物学特性,以及5℃低温处理对预蛹滞育解除的作用,并分析了滞育持续时间对大草蛉滞育解除后发育和繁殖的影响。【结果】在光周期15L∶9D和9L∶15D下,25℃下大草蛉预蛹期(分别为50.09和49.47 d)显著短于22℃下(分别为80.80和82.20 d)。5℃低温处理极显著延长了大草蛉预蛹期(P0.01),且缩小了预蛹期的个体差异。22℃下,与非滞育预蛹相比,滞育后预蛹的存活率显著降低,蛹期和产卵前期显著延长,雌成虫寿命显著缩短,成虫鲜重和单雌产卵量显著下降。22℃,光周期15L∶9D下大草蛉的滞育持续时间为50~170 d,且能影响滞育后发育:随着滞育持续时间的延长,蛹期逐渐延长,雌、雄成虫的鲜重逐渐降低,雄成虫寿命呈先延长后缩短的趋势,蛹存活率、雌成虫寿命、产卵前期和单雌产卵量没有显著性差异。【结论】试验条件下,两种光周期对大草蛉滞育解除、滞育后发育和繁殖没有明显的影响,而温度是调节大草蛉滞育发育和繁殖的重要因子。较高温度能促进滞育的解除,低温处理能够同步种群的滞育发育。大草蛉的滞育存在生殖代价,滞育持续时间影响滞育解除后的部分生物学特性。     

外源保幼激素对中华通草蛉滞育解除及滞育后发育的影响

【目的】本研究旨在明确外源保幼激素(juvenile hormone, JH)在中华通草蛉Chrysoperla sinica滞育快速解除过程中的使用剂量及最佳使用时期。【方法】测定点滴不同剂量(0, 5, 15, 25和35 μg/成虫)外源JH后中华通草蛉滞育成虫的产卵前期、产卵历期、雌虫寿命及单雌产卵量,以及15 μg/成虫外源JH处理对不同日龄(0, 5, 10, 20, 30和40日龄)滞育成虫处理后这4个指标的变化。【结果】在不同点滴剂量处理中,15和25 μg/成虫外源JH处理的中华通草蛉滞育成虫的产卵前期分别为6.82和6.29 d,显著短于点滴丙酮的对照组(10.55 d),且15 μg/成虫外源JH处理组产卵历期、雌虫寿命及单雌产卵量均最大,均显著大于对照组。不同日龄的中华通草蛉滞育成虫点滴15 μg/成虫外源JH,0, 5, 10和20日龄处理的成虫产卵前期均显著短于未经外源JH处理的对照组。10, 20和30日龄处理的成虫产卵历期和雌虫寿命均与未经外源JH处理的对照组无显著差异,但10, 20和30日龄处理的成虫生殖力显著降低,而20日龄处理时对照组和外源JH处理组均有较高的生殖力。【结论】综合考虑产卵前期、产卵历期、产卵量和雌虫寿命4个指标,15 μg/成虫的外源JH剂量是中华通草蛉快速解除滞育的最佳剂量;最佳使用时期为滞育20 d的成虫,此时对中华通草蛉成虫滞育解除后的生殖能力影响最小。本研究解决了中华通草蛉滞育解除耗费时间长的瓶颈问题,为成虫滞育天敌的高效存储利用与滞育的快速解除提供了新思路。     

中华通草蛉滞育的光周期调控Ⅰ.诱导成虫滞育的临界光周期和临界光照虫态(英文)

在22℃条件下,研究中华通草蛉对光周期的敏感性,结果表明:中华通草蛉属短日照滞育型,在短光照条件下饲养获得的成虫进入滞育状态,诱导成虫滞育的临界光周期为12.5小时到13小时。成虫期本身是诱导成虫滞育的最关键虫期,只有当羽化的成虫处于短光照条件下时才能进入滞育状态。成虫期之前其它虫期的短光周期经历能延长成虫在长光照条件下的产卵前期。三龄幼虫和预蛹期比成虫期前的其它虫期对光周期的变化更为敏感。     

光周期和温度对中华通草蛉成虫生殖的影响

研究表明,在25℃和长光周期（L：D＝15：9）条件下饲养至产卵高峰的中华通草蛉成虫,经短光周期（L：D＝9：15）处理后,与长光周期相比,虽然产卵速度有所下降,但产卵期延长,产卵量明显提高;在15℃和短光周期条件下处理后,成虫的生殖受到强烈抑制,产卵速度显下降,部分个体逐渐停止产卵,并进入滞育状态。     

母代越冬经历对中华通草蛉子代发育与繁殖的影响

【目的】为探究母代越冬经历对中华通草蛉Chrysoperla sinica子代生长发育、滞育诱导和繁殖能力的影响,【方法】采用年龄-龄期两性生命表方法研究了越冬初期(11月份)、越冬中期(1月份)和越冬末期(3月份)中华通草蛉自然越冬成虫其子代种群在25℃、光周期15L∶9D和9L∶15D条件下的生长发育及种群动态变化。【结果】长光周期(15L∶9D)下不同越冬时期对中华通草蛉子代的成虫前期并没有显著性影响,但越冬中期的子代成虫历期显著短于其他两个越冬时期;产卵前期以越冬中期子代显著高于其他两个越冬时期;单雌平均产卵量则以越冬末期显著高于越冬初期和越冬中期;内禀增长率、周限增长率和净增殖率均以越冬末期子代最高;平均世代周期以越冬中期子代最长。短光周期(9L∶15D)下中华通草蛉子代成虫历期以越冬末期最长,越冬初期次之,越冬中期最短;子代产卵前期以越冬初期最长,越冬中期次之,越冬末期最短;产卵历期以越冬末期最长;单雌平均产卵量以越冬末期最高;子代生命表参数变化趋势与长光照处理一致;子代种群存活率以越冬末期最高,越冬初期次之,越冬中期最低。【结论】相比越冬初期和越冬中期,越冬末期中华通草蛉子代种群表现出较强的增殖能力;短光周期可诱导中华通草蛉成虫滞育,产卵前期的长短可代表滞育深度,母代越冬经历对子代种群滞育诱导有一定的削减作用,母代越冬时间越长,削减作用越明显。     

光周期和温度对东亚小花蝽滞育形成和解除的影响

东亚小花蝽在北京地区为多化性兼性生殖滞育的捕食性天敌昆虫,在田间9月下旬大部分雌成虫进入滞育状态。短光周期是诱导其滞育形成的主导生态因子,高温具有抑制滞育的作用。若虫期是感受滞育信号的敏感虫态,若虫期连续接受短光照其滞育率明显提高。长光周期是东亚小花蝽解除滞育的主要生态因子,高温可缩短解除滞育所需的时间。     

稻飞虱翅型纯系后代个体的翅型分化对光周期变化不敏感

【目的】为了明确光周期和遗传因子在稻飞虱翅型分化中的作用, 研究了3种稻飞虱（褐飞虱Nilaparvata lugens、白背飞虱Sogatella furcifera和灰飞虱Laodelphax striatellus）翅型纯系或近纯系在不同光照时数下的翅型分化比率。【方法】以经过5~45代连续翅型筛选后的褐飞虱、白背飞虱和灰飞虱的长翅型和短翅型纯系或近纯系为材料, 在室内分别测定了其在长光照（16和20 h）、短光照(4~12 h)和正常光照(14 h) 3类光周期条件下饲养后, 雌、雄成虫中长翅和短翅个体出现的比率及存活率。【结果】白背飞虱和灰飞虱的长翅型纯系M♂×M♀或短翅型纯系B♂×B♀在不同光周期下的翅型比率均无显著差异（P>0.05）。褐飞虱短翅型近纯系B♂×B♀的雌虫短翅率和成虫总短翅率在不同光周期下也无显著差异（P>0.05）, 但雄虫短翅率在正常光照14 h和短光照4 h下显著高于长光照20 h下的（P<0.05）。当褐飞虱短翅型达到纯系后, 其后代翅型在6~16 h光照条件下无显著差异。褐飞虱长翅型近纯系M♂×M♀的后代虽有短翅个体出现, 但是雌虫和雄虫的各自短翅率在不同光周期下无显著差异（P>0.05), 仅总体短翅率在12 h光照条件下的显著高于16 h下的（P<0.05）。褐飞虱长、短翅型杂交筛选品系M♂×B♀的雌虫短翅率随光照时数的延长而升高; 灰飞虱杂交筛选品系M♂×B♀的短翅雄虫随光照时数的缩短而增多（P<0.05）, 但当筛选代次达到45代时, 这种趋势不再显著。3种稻飞虱长翅型和短翅型纯系或近纯系若虫的存活率会稍低于长、短翅型杂交后代的存活率, 但长、短翅型品系的存活率在6~16 h光照条件下差异不显著(P>0.05)。【结论】稻飞虱翅型分化对光周期的反应受飞虱本身遗传背景的影响, 翅型纯系后代个体的翅型分化对光周期变化不敏感。     

Adaptive strategies of overwintering adults: Reproductive diapause and mating behavior in a grasshopper,Stenocatantops splendens (Orthoptera: Catantopidae)

Abstract To understand the adaptive strategies of the overwintering adults of Stenocatantops splendens, the mechanism of maintenance and termination of the reproductive diapause, the variation in mortality between overwintering females and males, and the mating strategy of the males were investigated. The results indicated that the adult reproductive diapause in natural conditions was mainly regulated by photoperiod in the fall – long photoperiods promoted reproductive development and short photoperiods maintained reproductive diapause, and the sensitivity of the overwintering adults to photoperiod was over before the end of the winter. When transferred from natural conditions to controlled laboratory conditions on dates from September through February, pre‐oviposition became increasingly shorter with increasingly deferred transfer dates regardless of photoperiod conditions. The adults treated with low temperature for 30 days in September through November had significantly shorter pre‐oviposition, suggesting that low temperatures in winter had an important role in the termination of reproductive diapause. The female had a significantly lower supercooling point than the male, which was related to their lower mortality after winter. In addition, observations of wild populations of the species indicated that mating behavior prior to winter and the duration of pre‐mating period were not affected by photoperiod; mating and sperm transfer were mostly completed by November. Compared with females only mating before winter, females mating in the spring had shorter life span, longer pre‐oviposition, lower hatching rate and laid fewer egg pods while showing no significant difference with regard to ovipositional interval, per pod number of eggs and nymph dry weight.     

滞育诱导温周期对桃小食心虫滞育幼虫生理指标的影响

【目的】为了明确秋季温度升高对桃小食心虫Carposina sasakii Matsumura 耐寒性的影响,针对桃小食心虫滞育过程的生理指标进行了一系列研究。【方法】在GXZ-0450型智能光照培养箱中,温度为26~18, 26~20, 26~22, 28~18, 28~20, 28~22, 30~18, 30~20和30~22℃ 9组变温下（高温10 h,低温14 h,相对湿度70%~80%,光周期为12L∶12D）分别诱导桃小食心虫滞育,再对滞育幼虫过冷却点（supercooling point, SCP）、结冰点（freezing point, FP）以及体内水、脂肪和小分子糖醇类物质含量进行测定。【结果】在适宜滞育的光照下变温不会影响桃小食心虫的滞育率,所有脱果的老熟幼虫全部进入滞育,但其生理指标却有很大差异,其中SCP和FP在较高日高温下较高（SCP：F_135,2=23.83,P<0.001;FP：F_135,2=47.64,P<0.0001）,而在较高夜低温下反而较低（SCP：F_135,2=52.88,P<0.0001;FP：F_135,2=33.34,P<0.0001）。含水量随夜低温和日高温升高显著升高（夜低温：F_135,2=13.47,P<0.0001;日高温：F_135,2=10.39,P<0.0001）。脂肪含量随夜低温升高下降（F_135,2=40.91, P<0.0001）,随日高温升高而上升（F_135,2=161.18,P<0.0001）。小分子糖醇类物质含量随温度的变化各不相同,但差异均显著（P<0.0001）：其中海藻糖、葡萄糖和赤藓糖醇的含量随夜低温升高而下降,但在日高温30℃时海藻糖和赤藓糖醇的含量却随夜温的升高而升高,葡萄糖的含量随夜低温的变化无差异;甘油随日高温的升高而显著升高,随夜低温的升高而显著下降;山梨醇和肌醇的含量随夜低温和日高温的变化差异很大。【结论】桃小食心虫不同温度下诱导滞育的幼虫SCP、FP、水、脂肪和小分子糖醇类含量存在明显差异。滞育诱导期温度对桃小食心虫幼虫的滞育生理有重要的作用,其滞育幼虫起始生理差别可能会影响其越冬。     

美国白蛾越冬蛹的过冷却能力、体内水分及脂肪含量

对美国白蛾(Hyphantrian cunea)越冬蛹在越冬过程中过冷却能力、体内水分及脂肪含量的变化进行了研究.结果表明：在越冬过程中,美国白蛾雌、雄蛹的抗寒能力呈现出相似的变化趋势, 即其抗寒能力随越冬期温度降低而逐渐增强, 并在冬季过后随温度升高而逐渐减弱.越冬期不同阶段越冬蛹体内水分、脂肪含量及过冷却点（SCP）和结冰点（FP）有所不同.其中,越冬前期和中期的SCP显著低于越冬后期,FP没有显著性差异;越冬中期蛹体内含水量最高,显著高于越冬前期和后期.越冬蛹的SCP和FP均显著低于非越冬蛹,体内水分和总脂肪含量均明显高于非越冬蛹.经回归分析,雌、雄蛹体内含水量与其SCP呈
较好的负相关关系（P<0.05）.     

PHOTOPERIODIC CONTROL OF ADULT DIAPAUSE IN CHRYSOPERLA SINICA (TJEDER) (NEUROPTERA: CHRYSOPIDAE— I. CRITICAL PHOTOPERIOD AND SENSITIVE STAGES OF ADULT DIAPAUSE INDUCTION

Abstract  Photoperiodic sensitivity for diapause induction of the green lacewing, Chrysoperla sinica (Tjeder) was examined at 22°C. The adult diapause of C. sinica was induced by short-day photoperiods, and the critical photoperiod for its induction was between 12.5L-11.5D and 13L-11D.
Adults developed without diapause under long-day conditions, and entered diapause under short-day conditions. The adult stage was the uppermost sensitive stage for adult diapause induction, adults could go into diapause only when the emerging adults were under diapause-inducing short-day photoperiods. The short-day photoperiodic experience by transferring between 15L: 9D and 9L: 15D at preimaginal stages did not result in adult diapause under 15L: 9D photo regime, although some treatments extended the pre-oviposition period in adult stage. The results showed that the 3rd instar larvae and pre-pupae were more sensitive to the photoperiodic change from 15L: 9D to 9L: 15D photo regime than the other preimaginal stages.     

Nutritional and photoperiodic control of the seasonal reproductive cycle in Chrysopa mohave (Neuroptera)

Chrysopa mohave adults, which are predaceous, undergo a facultative reproductive diapause which can be induced, averted, and terminated in the laboratory by manipulating either photoperiod or diet. Photoperiods of LD 14:10 or shorter evoke a photoperiodically controlled diapause which breaks in long day (LD 16:8) conditions. Withholding prey induces the diapause syndrome in animals experiencing long day lengths, whereas supplying prey terminates this diapause; thus food constitutes a major factor in diapause induction and termination.Under short day regimens, with prey continuously present, diapause persists for approximately 60 days at 24±1°C; however, protein-fed, short day animals retain the diapause characteristics until they receive prey.Our experimental results in combination with field observations and examination of collected specimens, indicate four periods in the annual reproductive cycle as follows. The animals reproduce during April, May, and June when photoperiods are long and prey abundant. When prey become scarce during the dry months of the California summer, part of the population enters a food mediated diapause. During October, November, and December a short day diapause occurs in the population. Although the photoperiodic maintenance of diapause probably ends during early winter, the insects retain the diapause symptoms until prey becomes abundant at the end of March.     

Induction and termination of reproductive diapause in a neotropical beetle, Chelymorpha alternans (Coleoptera: Chrysomelidae)

The presence of a reproductive diapause in the life cycle of the neotropical cassidine beetle, Chelymorpha alternans , was investigated by exposing groups of beetles to conditions differing in photoperiod and humidity. Diapause was characterized by the absence of egg-laying in females up to 70 days after emergence and was induced in response to a short photoperiod of 12:12 h L: D but averted under a longer photoperiod of 13:11 h L:D. High (>90% RH) and low (55–75% RH) humidity conditions did not influence diapause induction. Males appeared to court and attempt to mate with females under all conditions between 16 and 30 days after emergence, but declined after this time in short photoperiods and it is not known if matings in these groups were successful. Adults induced to diapause by exposure to a 12:12 h L:D photoperiod and subsequently exposed to a 13:11 h L: D photoperiod 70 or 72 days after emergence did not show a rapid response by commencing egg-laying. However, all diapausing groups in long and short photoperiod and high and low humidity, in both experiments performed, had commenced egg-laying after 128 days, suggesting an endogenous rhythm for diapause termination. Long photoperiod and high humidity combined may hasten diapause termination since egg-laying began after only 95 days in this group in experiment two. This strategy of induction and termination is discussed with reference to the seasonality of the natural environment of C. alternans in Panama.     

变温贮藏僵蚜对烟蚜茧蜂耐寒能力的影响

为明确变温贮藏以麦二叉蚜为寄主的僵蚜对烟蚜茧蜂耐寒能力的影响,探究其体内的生化物质变化规律,测定了变温处理后羽化的烟蚜茧蜂雌雄成虫过冷却点、结冰点、体内含水量、脂肪、蛋白质和总糖含量的变化.结果表明:与对照(20℃)相比,经4℃22 h/20℃2h和4 ℃ 46 h/20℃2h处理1周后烟蚜茧蜂的耐寒能力显著增强.经变温处理后,烟蚜茧蜂雌雄个体的过冷却点、结冰点均出现不同程度的下降,雌蜂经4℃22 h/20℃2h处理后过冷却点和结冰点最低,分别为-26.38和-25.51 ℃;雄蜂经4 ℃ 46 h/20℃2h处理后过冷却点和结冰点最低,分别为-26.82和-26.38℃.经变温处理后烟蚜茧蜂僵蚜雌雄个体体内糖和蛋白质含量上升而脂肪和体内含水量下降,尤以经4℃22 h/20 ℃ 2 h和4℃46h/20℃2h处理后的变化最为明显.变温可以提高烟蚜茧蜂僵蚜的低温抵抗能力,且其耐寒能力的增加与其体内生化物质含量的变化密切相关.僵蚜经4℃22h/20℃2h和4℃46h/20℃2h贮藏1周后更有利于烟蚜茧蜂的生存和实践应用.