冷驯化对异色瓢虫后代生长发育及适合度的影响

为明确冷驯化处理对异色瓢虫Harmonia axyridis后代生长发育及适合度的影响, 本研究通过两性生命表的制作, 在室内条件下调查了冷处理后其后代发育历期、 成虫产卵前期、 寿命和生殖力以及后代生命表参数。结果表明: 冷驯化使异色瓢虫后代卵的发育历期延长, 幼虫（1-4龄）和蛹的发育历期则缩短; 随着冷驯化时间的延长, 后代体长和体重增量均减小。且完成发育的后代成虫产卵前期延长, 寿命缩短, 生殖力下降。后代生命表参数内禀增长率（r）、 周限增长率（λ）、 净生殖率（R₀）和年龄特征存活率（l_x）均降低, 但是后代雌虫所占比例却升高。此外, 冷驯化类型对异色瓢虫后代生长发育的影响也不相同。经相同时间（5 d）的低温诱导, 变温诱导的后代成虫寿命比恒定低温诱导的长, 但是生殖力却低; 变温诱导的后代生命表参数（r, λ和R₀）均小于恒定低温诱导的, 但是l_x却高于恒定低温诱导的。结果说明, 异色瓢虫亲代经历冷驯化, 这种对低温的可塑性反应会延伸到下一代, 而且还能够影响后代的适合度, 这对其在低温下的存活和繁殖具有重要的意义。     

异色瓢虫成虫耐寒能力的季节性变化

为研究异色瓢虫Harmonia axyridis自然种群耐寒能力的季节性变化,测定了其过冷却点、体内含水量及总脂肪含量和低温存活力。结果表明：异色瓢虫成虫低温存活力呈现出明显的季节性变化,越冬前成虫的耐寒性显著强于夏季成虫和越冬后成虫。冷驯化（5℃, 5 d）可以显著提高夏季成虫的低温存活力。雌雄成虫过冷却点和体内含水量随气温的降低而降低,升高而升高。过冷却点7月份最高,分别为−7.6℃和−8.0℃;越冬中期（2008-01-15）最低,分别为−18.1℃ 和−16.9℃。雌雄成虫体内含水量9月份最高,分别为66.87%和68.01%,10月份显著降低,越冬后期（2008-02-19）最低,分别为52.94%和51.53%。越冬期间过冷却点和体内含水量显著低于其他时期。而雌雄成虫体内总脂肪含量在越冬开始就达到最高,分别为50.07%和47.93%,随后又逐渐降低,越冬期间显著高于其他时期。由此可知异色瓢虫自然种群的耐寒性呈现出明显的季节性变化,文中还就异色瓢虫自然种群耐寒性影响因素及其越冬策略进行了讨论。     

异色瓢虫不同色斑型成虫的耐寒性研究

【目的】研究异色瓢虫Harmonia axyridi不同色斑型成虫的耐寒能力,以明确其色斑型比例所呈现的季节性变化的适应意义。【方法】本文测定了异色瓢虫实验种群和自然种群不同色斑型成虫的过冷却点(Supercooling point,SCP)及低温存活率。【结果】同一发育温度下异色瓢虫实验种群不同色斑型成虫的SCP和低温存活率均没有显著性差异(P>0.05),但是低温暴露中饲养在25℃下成虫的存活率下降更为剧烈。异色瓢虫自然种群黑底型与黄底型成虫的SCP呈现出明显的季节性变化,其SCP在7月份最高,分别为﹣8.2℃和﹣7.5℃;在1月份达到最低,分别为﹣16.8℃和﹣18.2℃。越冬开始(11月)黑底型成虫的SCP低于黄底型成虫的,整个越冬期间黄底型成虫的SCP一直低于黑底型成虫的,但是异色瓢虫黑底型与黄底型越冬成虫的低温存活率却没有显著性差异(P>0.05)。【结论】越冬期间异色瓢虫黄底型成虫的SCP低于黑底型的,这样可以通过体液过冷却的方式来避免结冰造成的伤害,以增强其越冬种群的耐寒能力,这也可能是越冬期间异色瓢虫黄底型成虫数量显著上升的一个原因。     

使用生命表评价烯啶虫胺对异色瓢虫的影响

为正确评估广谱杀虫剂烯啶虫胺对天敌昆虫异色瓢虫Harmonia axyridis(Pallas)的影响,采取滤纸接触法测定了烯啶虫胺(防治蚜虫田间推荐用量)对异色瓢虫影响,并使用生命表研究了烯啶虫胺对异色瓢虫实验种群的影响,为协调害虫的化学防治与生物防治提供参考。结果表明:该剂量烯啶虫胺对异色瓢虫当代(F0)取食具有显著影响,药剂处理后7d内,成虫取食量显著降低;对F0代成虫寿命及雌虫繁殖能力未见负面影响;烯啶虫胺处理对异色瓢虫初产卵、F1代幼虫及蛹的历期没有显著影响;卵孵化率明显小于对照组,幼虫存活率及蛹羽化率没有显著影响。F0代种群净增值力、周限增长率、内禀增长率与对照相比差异不显著,分别为812.66粒(对照899.73粒)、1.084(对照1.093)、0.081(对照0.089),药剂处理种群加倍时间为8.557d,与对照7.888d相比没有显著延长。这些结果说明,大田中使用烯啶虫胺防治蚜虫时理论上对异色瓢虫种群繁殖及发育没有显著影响,但施药初期会影响异色瓢虫的取食量。     

冷藏温度对日本刀角瓢虫存活及生长发育的影响

【目的】本研究旨在调查不同冷藏温度下日本刀角瓢虫Serangium japanicum成虫生物学特性及F₁代的生长发育,明确日本刀角瓢虫成虫最适冷藏温度。【方法】将日本刀角瓢虫成虫置于不同低温(7,10,13和16℃),贮藏10 d时测定其存活率、单雌产卵量、寿命和对烟粉虱Bemisia tabaci 4龄若虫的日捕食量,以及日本刀角瓢虫F₁代存活率和发育历期;qRT-PCR测定日本刀角瓢虫成虫体内热激蛋白基因Hsp70和Hsp90的相对表达量。【结果】日本刀角瓢虫成虫在16℃低温贮藏10 d时,其存活率、雌雄成虫寿命、单雌产卵量和日捕食量以及F₁代存活率均与贮藏在26℃的对照无显著差异(存活率：99%vs 100%;雌成虫寿命：110.65 d vs 106.87 d;雄成虫寿命：123.12 d vs 108.79 d;单雌产卵量：399.19粒vs 422.63粒;日捕食量：34.70头vs 31.95头;F₁代存活率：80.39%vs 94.12%);但其F₁代发育历期...     

多次交配对异色瓢虫雌虫寿命及适合度的影响

异色瓢虫Harmonia axyridis(Coleoptera:Coccinellidae)为多次交配型昆虫,通过设计不同的交配次数,观察并记录不同交配组的雌虫产卵量、卯孵化率及成虫寿命等参数,探究多次交配对异色瓢虫雌虫适合度的影响.结果 表明多次交配对雌性异色瓢虫成虫的寿命有显著影响(P<0.05),交配次数越多雌性瓢虫的寿命越短;单次交配组在交配后第一周的产卵量明显低于多次交配组,为55.00±17.90枚,而4次、7次、14次交配组产卵量分别为102.29±11.97枚、93.60±13.09枚和93.36±14.95枚;多次交配可以提高异色瓢虫卵的孵化率,多次交配组卵的孵化率明显高于单次交配组,其中7次交配组最高(88.71%±0.29%),多次交配对异色瓢虫雌虫有直接利益,多次交配可以提高雌性异色瓢虫的适合度.     

河南新乡小麦区荻草谷网蚜的冬季耐寒性研究

为给荻草谷网蚜Sitobion miscanthi的准确预测预报提供理论依据,本研究利用过冷却点(Supercooling point,SCP)、低温暴露死亡率和冷识别温度(80％死亡率时的温度)等昆虫耐寒性指标评价低温条件下不同发育阶段该虫的耐寒能力.结果表明,荻草谷网蚜各发育阶段的SCP变化范围为-27.10～-12.23℃,SCP为1龄若蚜>2龄若蚜>有翅孤雌成蚜>无翅孤雌成蚜>4龄若蚜>3龄若蚜,其中1龄和2龄若蚜的SCP均显著高于3龄和4龄的SCP(P<0.01),3龄和4龄若蚜的SCP无显著性差异(P>0.05),无翅孤雌成蚜与其它发育阶段蚜虫的SCP均无显著性差异(P>0.05);两种虫态的低温存活率和冷识别温度分析表明,在-10～-8℃不同低温下,荻草谷网蚜1龄若蚜低温存活率均显著高于初羽化有翅成蚜的低温存活率(P<0.05),1龄若蚜和初羽化有翅成蚜的冷识别温度分别为-8.5℃和-7.9℃;两种虫态在0℃经过4 h冷驯化后,1龄若蚜和初羽化有翅成蚜在2 h的存活率提升最高,分别为62％和64％,均显著高于无冷驯化的对照组(P<0.05).本研究结果充分说明了荻草谷网蚜具有极强的耐低温适应能力,结合河南新乡近5年冬季极端低温数据,本文推测该虫能在冬季极端低温高于其冷识别温度的年份在当地越冬.     

菱斑巧瓢虫替代饲料的研究

瓢虫成虫饥饿24h后,通过室内对菱斑巧瓢虫Oenopia conglobata (Linnaeus)成虫饲喂24种人工饲料,研究菱斑巧瓢虫的取食行为;以桃蚜(MP)作对照,选择羊肝+蔗糖(SLS)、猪肝+蔗糖(PLS)、黄粉虫蛹+蔗糖(TMPS)3种饲料研究瓢虫产卵量;以白蛾周氏啮小蜂蛹(CCP)、SLS、PLS和MP对瓢虫成虫进行交叉饲喂试验,每周期7d,研究饥饿后恢复产卵时间和产卵量的差异;最后以CCP和MP饲喂瓢虫幼虫,观察其发育历期。结果表明:在羊肝、鸡心、菜蛾幼虫、鸡肝和黄粉虫蛹组中,无论是否添加蔗糖,瓢虫取食情况较好。瓢虫成虫饲喂SLS、TMPS、PLS及MP后,MP组的14d单雌产卵量为166.25粒、SLS组为18.15粒、PLS为9.65粒和TMPS组3.90粒,瓢虫恢复产卵的时间也有差异,MP组仅需要1d,而其它组需要3d至至5d。交叉饲喂试验发现,CCP组产卵量(40.67～46.87粒/雌)明显高于常用饲料-PLS组(4.53～7.13粒/雌),但与MP组(61.80～82.07粒/雌)仍有一定差距。利用CCP饲喂瓢虫幼虫,可以完成整个发育历期,但是存活率较低,1～4龄幼虫各龄期内存活率在63.64%～87.50%之间,并且发育历期(21.23d)明显长于饲喂MP组(15.71d)。     

异色瓢虫非同胞间食卵自相残杀对成虫生殖力的影响

【目的】食卵自相残杀现象常见于瓢虫中,业已明确取食同胞卵对于初孵瓢虫至关重要,但取食非同胞卵的营养价值是否高于蚜虫仍存争议。本研究旨在明确异色瓢虫Harmonia axyridis在幼虫期除取食蚜虫外兼捕食非同胞卵是否影响其雌成虫的生殖表现。【方法】在异色瓢虫幼虫期设置3个饲喂处理,即仅饲喂禾谷缢管蚜Rhopalosiphum padi(对照)、除饲喂蚜虫外还分别给各龄幼虫饲喂少量非同胞卵(分散食卵)以及除饲喂蚜虫外仅给高龄幼虫饲喂较多非同胞卵(集中食卵)等,观察雌成虫体型大小、产卵前期、连续10 d的逐日产卵量和卵孵化率等形态和生殖特性。【结果】饲喂处理对瓢虫雌成虫体型大小无显著影响,对照、分散食卵和集中食卵3种饲喂处理下的雌成虫身体体积分别为92.30,89.73和93.98 mm~3;饲喂处理对雌成虫产卵前期也无显著影响,3种饲喂处理下雌成虫产卵前期分别为7.50,7.74和7.70 d;但饲喂处理对雌虫生殖力具有显著影响,分散食卵处理与对照无显著差异,羽化后10 d分散食卵和对照下累计产卵量分别为185和205粒,但集中食卵(88粒)比对照或分散食卵的产卵量显著降低;饲喂处理对卵孵化率无显著影响,对照、分散食卵和集中食卵3种饲喂处理下的卵孵化率分别为63.10%,72.58%和66.61%。【结论】结果说明,异色瓢虫各龄幼虫偶尔取食非同胞卵不影响其成虫的生长发育和生殖,但高龄幼虫捕食较多非同胞卵可降低其雌成虫的生殖力。     

荒漠昆虫光滑鳖甲的耐寒性季节变化及其生理机制

光滑鳖甲Anatolica polita borealis生活于温差大的新疆荒漠环境, 为探讨其耐寒性及耐寒机制, 本研究测定了其3-9月份成虫在－10℃的耐寒性、过冷却点（SCP）、含水量、甘油含量和血淋巴热滞活性(thermal hysteresis activity, THA)以及冷驯化对增强光滑鳖甲成虫耐寒性的效果, 还测定了光滑鳖甲不同发育阶段幼虫的SCP。结果表明: 光滑鳖甲成虫的耐寒性和SCP具有明显的季节性变化, 3月初SCP为－12.5℃, 7月为－6℃, 9月底为－13.6℃。4℃冷驯化能够提高光滑鳖甲成虫在－10℃的存活率, 未驯化组在40 min的存活率为50%, 而驯化2 h的为70%, 驯化24 h的为90%。虫体含水量在夏季有显著降低, 3月、7月和9月结合水与自由水的比值分别为10.8∶1,2.6∶1和5.4∶1。成虫甘油含量与SCP的回归方程为y=－0.6204x－5.681, R²=0.7714。成虫血淋巴THA与过冷却点的回归方程为y=－5.26x－1.713, R²=0.9049。血淋巴THA比甘油浓度更能影响过冷却点降低的程度。随着幼虫的发育, 其SCP逐渐降低。结果提示, 光滑鳖甲通过提高结合水与自由水的比值、增加抗冻蛋白和甘油的含量使虫体保持较低的SCP, 因而具有较高的耐寒性。     

低温驯化后水椰八角铁甲生理活性物质含量的变化

【目的】分析低温驯化后水椰八角铁甲Octodonta nipae体内各种生理活性物质含量的变化,为揭示水椰八角铁甲耐寒机制提供理论基础。【方法】以25℃处理为对照,将水椰八角铁甲各虫态于12.5, 15, 17.5和20℃驯化处理10 d后,比较其体内的游离水、蛋白质、氨基酸、粗脂肪、甘油和可溶性糖原等生理活性物质含量的变化。【结果】低温驯化显著影响铁甲体内上述物质的含量水平。低温驯化能提高该铁甲体内甘油和游离氨基酸的含量,降低游离水、蛋白质、粗脂肪、可溶性糖原的含量。与对照相比,12.5℃驯化对该铁甲各虫态体内游离水含量存在显著影响(P<0.01);经12.5, 15, 17.5和20.0℃驯化后,该铁甲各虫态体内蛋白质、粗脂肪含量与对照相比均存在显著差异(P<0.01);经125,150和175℃驯化后,该铁甲各虫态体内游离氨基酸含量与对照存在显著差异(P<0.01);经12.5,15.0,17.5和20℃驯化后,该铁甲各虫态（2龄幼虫除外）体内甘油含量与对照相比存在显著差异(P<0.01);12.5, 15.0, 17.5和20℃驯化对除2龄幼虫、蛹和成虫外的铁甲其他各虫态体内可溶性糖原含量存在显著影响。经15.0℃驯化处理后铁甲各虫态体内平均甘油含量最高,比对照25℃的平均甘油含量高出约9.4倍,而经12.5℃驯化处理的虫体内的平均甘油含量仅增加3.5倍。【结论】低温驯化对水椰八角铁甲体内相关生理活性物质含量的影响效能是有限的;水椰八角铁甲可以根据不良的环境条件调节最佳的生理状况,以适应未来的环境和达到最强的适应性。     

宽翅曲背蝗卵的过冷却能力与抗寒性

采用热电偶法,在室内测定了宽翅曲背蝗卵的过冷却能力及抗寒性.结果表明： 土壤含水量对滞育前卵的含水量有显著影响, 而对卵过冷却点(SCP)的影响不显著,卵含水量随着土壤含水量的升高而上升.不同发育时期卵的SCP、含水量和脂肪含量存在显著差异.随着卵的发育,其含水量从产卵当天的51.5%下降至120 d的46.8%,脂肪含量从10.5%(鲜质量)/19.0%(干质量)上升到14.5%(鲜质量)/28.9%(干质量),而SCP从-23.5 ℃下降至-30.0 ℃;卵SCP与其含水量及脂肪含量存在显著相关关系;深度滞育卵的SCP显著低于滞育前和滞育初期卵的SCP.不同低温强度和处理时间对滞育卵的存活率有显著影响.滞育卵暴露12 h的致死温度为-27.3 ℃,在-25 ℃低温处理的致死时间为22.73 d.滞育卵的SCP与致死温度相近,说明宽翅曲背蝗卵为不耐结冰类型,且SCP是衡量其抗寒性的可靠指标.     

Effects of acclimation and diapause on the thermal tolerance of the two-spotted spider mite Tetranychus urticae

The two-spotted spider mite, Tetranychus urticae, is a worldwide pest species that overwinters as diapausing females. Cold hardening is presumed to start during diapause development to ensure the successful overwintering of this species. To address this hypothesis, we compared cold tolerance between non-diapausing and diapausing females. We measured supercooling point (SCP) and survival to acute cold stress by exposing the mites at a range of sub-zero temperatures (from −4 to −28 °C for 2 h). The mean SCPs of non-diapausing and diapausing females were −19.6±0.5 and −24.7±0.3 °C respectively, and freezing killed the mites. Diapausing females were significantly more cold tolerant than non-diapausing ones, with LT₅₀ of −19.7 and −13.3 °C, respectively. Further, we also examined the effects of cold acclimation (10 d at 0 or 5 °C) in non-diapausing and diapausing females. Our findings indicated that diapause decreased SCP significantly, while cold acclimation had no effect on the SCP except for non-diapausing females that were acclimated at 5 °C. Acclimation at 5 °C enhanced survival to acute cold stress in diapausing and non-diapausing females, with LT₅₀ of −22.0 and −17.1 °C, respectively. Altogether, our results indicate that T. urticae is a chill tolerant species, and that diapause and cold acclimation elevate cold hardiness in this species.     

Experimental studies of ice nucleation in an Antarctic springtail (Collembola, Isotomidae)

Ice nucleation was studied in field-fresh and acclimated (4 degrees C without food for 11-20 days) samples of the springtail Cryptopygus antarcticus Willem (Collembola, Isotomidae) at Rothera Research Station, Adelaide Island on the Antarctic Peninsula. Ice nucleator activity (INA) was measured by a freezing droplet technique in addition to supercooling point (SCP) profiles and polyol, sugar, and water contents. Field and acclimated samples showed bimodal SCP distributions with a distinct high group (HG; mean SCP -8 to -10 degrees C) and low group (LG: mean SCP -23 to -25 degrees C), which were significantly different. Acclimation at 4 degrees C increased the proportion of individuals in the LG relative to that in the HG without significant effects on the mean SCP of both groups. INA of the HG was significantly greater than that of the LG, and acclimation further reduced the INA of the LG. The number of active ice nucleator agents (INAs) calculated for the HG of field samples increased by 23-100 times over the temperature range -5 to -8 degrees C compared to only 7 times for the LG over the same range. These differences were accentuated in the acclimation experiments. Glucose and galactose were the main carbohydrates in both field and acclimated springtails, with the latter compound occurring in almost twice the concentration in the LG compared with that in the HG. Acclimation reduced the concentration of both compounds (glucose by 77% and galactose by 54%), whereas water content increased significantly. Digestion of food may have continued during acclimation at 4 degrees C, which could reduce the LG INA. Lowering of temperature over time is more likely to elicit a cold hardening response than constant temperature acclimation. INA numbers calculated at the nucleation temperatures for C. antarcticus samples were higher in the LG than in the HG. However, inactivation of INAs may be a key mechanism underlying cold hardening in this species, either by sequestration within the cellular matrix or by being only seasonally active.     

重阳木锦斑蛾越冬幼虫的耐寒性变化

【目的】重阳木锦斑蛾Histia rhodope是为害重阳木Bischofia polycarpa的重要害虫之一。本研究旨在了解重阳木锦斑蛾幼虫的抗寒能力,并为探讨抗寒机理提供理论基础。【方法】在越冬期的不同阶段(2017年11月7日、2017年12月7日、2018年1月5日、2018年2月4日和2018年3月5日)分别采集室外重阳木锦斑蛾越冬幼虫,对其体重、过冷却点、结冰点、含水量、脂肪、总糖和总蛋白质含量进行测定。【结果】重阳木锦斑蛾幼虫的过冷却点在越冬期不同月份有显著差异,与环境温度呈显著正相关(P<0.05),最低值出现在1月份,为-15.26℃,最高值出现在3月份,为-13.30℃;结冰点变化趋势与过冷却点一致;体重和脂肪含量在越冬期间逐渐下降,与过冷却点无相关性(P>0.05);过冷却能力随着虫体游离水含量的升高而降低,随其降低而升高,而结合水含量的变化趋势恰好相反;总糖含量在11月最高,为14.95 μg/mg,显著高于3月份的5.07 μg/mg;总蛋白质含量在越冬期间呈先升高后降低的趋势,在1月份含量最高,为23.66 μg/mg,显著高于11月份的含量(16.69 μg/mg)。【结论】重阳木锦斑蛾幼虫的耐寒性在越冬期间随气温的降低逐渐增强,随气温的回升又逐渐减弱;蛋白质可能是该虫重要的耐寒物质。     

Variation in resistance and acclimation to low-temperature stress among three geographical strains of Drosophila melanogaster

Variation in cold resistance was examined in cold acclimated and non-acclimated Drosophila melanogaster from three geographical strains representing Morocco, France and Finland. Resistance was estimated as survival of adults at 0°C; the acclimation treatment involved a long-term exposure to 11°C starting from the late pupal stage and continuing with adults. After the cold stress, two fitness traits, percentage of fertile individuals and the number of adult progeny, were scored in both acclimated and non-acclimated flies. Acclimation dramatically increased survival in all strains, but did not affect the pattern of geographic variation in cold resistance. The European flies tended to be more resistant than the African ones and the ranking from most to least resistant strain was France>Finland>Morocco. In the absence of acclimation, females showed a higher survival than males. Percentage of fertile males in all strains and the number of progeny in the Finnish and French strains were decreased after acclimation. Without cold acclimation, the number of progeny was higher in the European flies as compared with the African ones. The results suggest that populations of D. melanogaster from cold climates are better adapted to low stressful temperatures and among-population variation in cold resistance may be due to non-plastic rather than plastic genetic changes. The deleterious effects of cold pretreatment on the life-history parameters indicate a possibility for acclimation costs in reproduction.     

Some aspects of the mechanism of thermal acclimation in the earthworm Lampito mauritii

Summary Inorganic ions (Ca, Mg, Na, K, Cl, SO₄) and free amino acids of the body fluids of the normal, cold and warm acclimated worms (laboratory as well as seasonal populations) are estimated. Calcium increased and chloride and sodium decreased on both cold and warm acclimation in relation to normal. But magnesium and sulphate and free amino acids increased on warm acclimation whereas potassium increased and magnesium decreased on cold acclimation. Changes in different ions in the same direction are observed in the seasonal populations. Attention is drawn to the adaptive significance of these changes in the different ions during thermal acclimation.Changes in the glycogen, RNA, protein and non-protein nitrogen, and water content in the tissues of normal and acclimated worms are studied. Glycogen increased on warm and cold acclimation, whereas RNA content, protein nitrogen and dry weight of the cold worms increased over normal. No change is observed in non-protein nitrogen on thermal acclimation. The role of these substances and the significance of the changes observed, in the operation of homeostatic mechanism compensating to temperature changes in the metabolic rate of the worms, are also discussed.Changes in the pattern of neurosecretory activity are followed with thermal acclimation and it is shown that the activity of the neurosecretory cells increased on cold and warm acclimation, but the positions of these cells, which are active, are different from normal worms in warm acclimated worms.Studies on the effect of the body fluids of acclimated worms on the tissues of normal and acclimated worms showed that the body fluids of cold acclimated worms increased the respiration of the tissues of normal and warm acclimated worms and vice-versa.