食物浓度对方形臂尾轮虫发育历期与实验种群增长参数的影响

为探讨富营养化水体中大量发生的轮虫与微藻之间的关系 ,在实验室条件下 ,观测了不同藻类食物浓度下方形臂尾轮虫生命周期中各发育阶段的历时以及种群增长参数的变化。实验选用蛋白核小球藻为食物 ,浓度梯度为 0 1× 10 6、 0 5× 10 6、 1 0× 10 6、 2 0× 10 6、 4 0× 10 6、 8 0× 10 6、 12× 10 6cells/ml。结果表明 :食物浓度对方形臂尾轮虫的胚胎发育时间与繁殖前期历时、产卵量、世代净生殖率、世代时间和种群的内禀增长率均有明显影响。在食物浓度为 2 0× 10 6cells/ml时 ,方形臂尾轮虫的繁殖前期最短 ,产卵量最大 ,世代净生殖率和种群增长率最高 ,世代时间最短。方形臂尾轮虫可在高于其最适食物浓度的较宽的食物浓度范围内 ,保持较高的种群增长率 ,表现出较强的对环境中高浓度藻类的适应     

食物种类和浓度对壶状臂尾轮虫实验种群动态的影响

使用浓度为0.3mg/mL的椭圆小球藻、尖细栅藻和两者以1:1(湿重比)组成的混合藻在26±1℃下对壶状臂尾轮虫进行单个体培养研究。结果表明,虽然三类食物对轮虫的胚胎发育时间和平均寿命无显著影响,但投喂小球藻时轮虫的生殖前期明显比投喂栅藻或混合藻时短,投喂小球藻时轮虫的生殖期明显比投喂栅藻时长;轮虫的生殖后期历时以栅藻组最长,混合藻组次之,小球藻组最短,三者间具显著差异。轮虫的繁殖率、产卵量和种群内禀增长率均以小球藻组最高,混合藻组次之,栅藻组最低。由此可见,小球藻是该种轮虫培养的最适饵料。以浓度为0.375、0.75、1.5、3.0和5.0×106cells/mL的椭圆小球藻为食物在23±1℃下对壶状臂尾轮虫进行单个体培养研究发现,0.75×106cells/mL是其生存和繁殖的最低浓度阈值;食物浓度对轮虫的胚胎发育时间和生殖后期历时无显著影响;食物浓度为1.5×106cells/mL和3.0×106cells/mL时,轮虫各主要发育阶段的历时和产卵量间也无显著差异;食物浓度高于3.0×106cells/mL或低于1.5×106cells/mL对轮虫的生殖前期无显著影响,但使轮虫的平均寿命和产卵量显著减小;食物浓度高于3.0×106cells/mL时,轮虫的生殖期显著缩短。轮虫种群的繁殖率、净生殖率和内禀增长率皆以3.0×106cells／mL组最高,1.5×106cells／mL组次之,0.75×106 cells／mL和5.0×106cells／mL组较低。因此,轮虫种群增长的适宜食物浓度范围为1.5-3.0×106cells／mL,最适食物浓度是3.0×106cells／mL。       

温度和铜绿微囊藻毒性对萼花臂尾轮虫生活史参数的影响

文章开展了25℃下两个品系铜绿微囊藻(有毒与无毒)不同浓度对萼花臂尾轮虫生活史的影响研究, 及在5个温度下不同浓度有毒铜绿微囊藻对萼花臂尾轮虫生活史影响的研究。结果表明铜绿微囊藻毒性、浓度及二者交互作用对轮虫生活史参数净生殖率(R₀; F=31.83, P<0.01; F=30.36, P<0.01; F=13.51, P<0.01)、内禀增长率(r_m; F=34.67, P<0.01; F=18.73, P<0.01; F=12.99, P<0.01)均有显著影响; 温度、铜绿微囊藻浓度及二者交互作用对轮虫生活史参数净生殖率、内禀增长率也均有显著影响。无毒铜绿微藻在低浓度(1×104 cells/mL)下对轮虫种群有促进作用, 可作为轮虫食物来源, 但缺乏脂肪酸等营养物质, 食物质量比蛋白核小球藻低; 在高浓度(1×105和5×105 cells/mL)下轮虫摄食无毒铜绿微囊藻机率变大, 整体食物品质下降, 对轮虫有抑制作用。有毒铜绿微囊藻对轮虫种群的抑制作用更加明显, 微囊藻浓度升高, 净生殖率和内禀增长率显著下降。研究结果还表明30℃和35℃高温下轮虫生长繁殖变快, 世代时间缩短。在高温(30℃和35℃)环境下, 铜绿微囊藻浓度升高对轮虫抑制作用更加明显。     

赤潮藻塔玛亚历山大藻对褶皱臂尾轮虫生活史特征的影响

采用生命表方法,研究了不同浓度塔玛亚历山大藻对褶皱臂尾轮虫生命周期中各发育阶段历时以及种群增长参数的影响．结果表明：塔玛亚历山大藻对褶皱臂尾轮虫的生长发育有明显影响,使轮虫的繁殖前期和世代时间延长,繁殖期、繁殖后期和平均寿命缩短,产卵量和繁殖率降低．轮虫的净生殖率和内禀增长率均低于对照．不同藻浓度下轮虫能够维持一定的种群增长．     

不同藻密度下Zn2+ 浓度对萼花臂尾轮虫实验种群增长参数的影响

为了比较不同食物密度下污染物浓度对受试生物的慢性毒性,筛选出以轮虫为受试生物对水环境中Zn2+污染进行监测的敏感指标,在不同斜生栅藻(Scenedesmus obliquus)密度(1.0×106、2.0×106和4.0×106个/m L)下不同浓度(0、0.1、0.3、0.5、0.7、0.9 mg/L)的Zn2+对萼花臂尾轮虫(Brachionus calyciflorus)实验种群增长参数的影响。结果表明,25℃以及1.0×106、2.0×106和4.0×106个/m L藻密度下Zn2+对萼花臂尾轮虫的24 h LC50值分别是6.647、8.102和5.873 mg/L。与各食物密度下的对照组相比,当食物密度为1.0×106个/m L时,各浓度的Zn2+对萼花臂尾轮虫的各种群增长参数均无显著性影响(P0.05)。当食物密度为2.0×106个/m L时,各浓度的Zn2+均显著延长了轮虫的生命期望、世代时间和平均寿命,提高了轮虫的净生殖率;除0.3 mg/L外,其他浓度的Zn2+显著提高了轮虫的种群内禀增长率。当食物密度为4.0×106个/m L时,0.1、0.3和0.7mg/L的Zn2+显著提高了轮虫的种群内禀增长率,0.7和0.9 mg/L的Zn2+显著提高了轮虫的后代混交率。藻密度对轮虫的生命期望、世代时间、净生殖率、种群内禀增长率、平均寿命和后代混交率均有极显著性影响(P0.01),Zn2+浓度对轮虫的生命期望、世代时间、净生殖率、种群内禀增长率和后代混交率均有极显著性影响(P0.01),藻密度和Zn2+浓度之间的交互作用对轮虫的生命期望、种群内禀增长率和后代混交率均有显著性影响(P0.05)。2.0×106个/m L食物密度下,Zn2+浓度与轮虫的生命期望、世代时间、净生殖率和平均寿命之间具有显著的剂量-效应关系;4.0×106个/m L食物密度下,Zn2+浓度与轮虫的后代混交率间也具有显著的剂量-效应关系。     

不同饵料密度和盐度下褶皱臂尾轮虫的生活史特征

为探索低盐驯化褶皱臂尾轮虫规模化培育的可行性,本实验以小球藻(Chlorella vulgaris)为饵料,在饵料密度1.0×10⁴、1.0×10⁵、1.0×10⁶、1.0×10⁷和1.0×10⁸ cells·mL^-1下,采用单个体培养法,研究了盐度23及盐度6的褶皱臂尾轮虫(Brachionus plicatilis)的生活史特征。结果表明：随着饵料密度的升高,两组盐度轮虫的生殖期、平均寿命、产卵量、生命期望、净生殖率、世代时间和种群内禀增长率均呈现出先升高再降低(P<0.05);盐度6的轮虫在饵料密度1.0×10⁶、1.0×10⁷和1.0×10⁸ cells·mL^-1下的生殖前期显著小于饵料密度1.0×10⁴和1.0×10⁵ cells·mL^-1下的生殖前期(P<0.05);盐度23的轮虫...     

盐酸四环素浓度和食物密度对萼花臂尾轮虫生活史特征的综合影响

近年来,抗生素的环境污染问题已引起人们的广泛关注,其在环境中的残留可对水生态系统的结构和功能产生重要影响。迄今,盐酸四环素浓度和食物密度对轮虫生活史特征的影响研究尚未见报道。以萼花臂尾轮虫(Brachionus calyciflorus)为受试动物,研究了在不同斜生栅藻(Scenedesmus obliquus)密度下,不同浓度的盐酸四环素(Tetracycline hydrochloride)对萼花臂尾轮虫生活史特征的影响。结果表明,食物密度和盐酸四环素浓度对轮虫的生命期望、净生殖率、世代时间、内禀增长率、平均寿命和后代混交率,以及食物密度和盐酸四环素浓度间交互作用对除了内禀增长率外的其他5个统计学参数均具有显著影响。在各食物密度下,轮虫的特定年龄繁殖率高峰值随着盐酸四环素浓度的增加呈现先增加后降低的趋势;盐酸四环素对轮虫生长和繁殖参数的影响呈现"低促高抑"的特点。3个食物密度下,高浓度的盐酸四环素显著提高了萼花臂尾轮虫的后代混交率,且在1.0×10~6个/mL藻密度下毒物浓度与轮虫后代混交率间具有显著的剂量-效应关系。食物密度的高低显著影响盐酸四环素对萼花臂尾轮虫的毒性效应。     

斜生栅藻密度对新安江萼花臂尾轮虫种群动态的影响

以浓度分别为1.0×106、2.0×106、4.0×106和8.0×106cells·mL-1的斜生栅藻(Scenedesmus obliquus)为轮虫食物,在25℃下,应用群体累积培养和单个体培养法研究了食物浓度对采自新安江水域(屯溪段)的萼花臂尾轮虫的种群动态影响。结果表明:食物浓度对轮虫的种群增长率和休眠卵产量均有显著的影响,均表现为低食物浓度下(≤4.0×106cells·mL-1)萼花臂尾轮虫的种群增长率和休眠卵产量较小且无差异,高食物浓度下(8.0×106cells·mL-1)轮虫的种群增长率和休眠卵产量较大;食物浓度对轮虫的混交雌体百分率和受精率无显著影响;在食物浓度为4.0×106cells·mL-1时萼花臂尾轮虫的净生殖率最大,世代时间最长,而其内禀增长率在食物浓度为1.0×106cells·mL-1时最小;在食物浓度为8.0×106cells·mL-1时平均寿命和生命期望最长。     

三种淡水藻类对萼花臂尾轮虫培养效果的比较

在28℃下,采用群体累积培养法,探讨了不同浓度的蛋白核小球藻（Chlorella pyrenodeosa）、水华鱼腥藻（Anabaena flas-aquae）和沙角衣藻（Chlamyclomoras sajao）,以及在等生物量条件下,以上3种藻类两两配比饵料（3：1、1：1和1：3）对萼花臂尾轮虫（Brachionus calyciflorus）的培养效果。结果表明,不同浓度的蛋白核小球藻、水华鱼腥藻和沙角衣藻对萼花臂尾轮虫增殖效果的影响分别表现为差异极显著（P〈0．01）、显著（P〈0．05）和不显著（P〉0．05）;蛋白核小球藻与水华鱼腥藻组成的混合饵料对萼花臂尾轮虫的增殖效果均优于其中的单一种类（P〈0．05）;沙角衣藻无论是单独投喂,还是与其它藻类混合投喂,轮虫的培养效果均不理想。因此,该种类不宜用作轮虫饵料开发。该研究还表明,蛋白核小球藻是培养萼花臂尾轮虫的最适单一种类,它与水华鱼腥藻组成的混合饵料培养萼花臂尾轮虫效果更好。     

镰形臂尾轮虫和尾突臂尾轮虫的生活史特征比较

应用单个体培养方法,以浓度为3.0×10⁶ cells·ml^-1的斜生栅藻为食物,在18 ℃、23 ℃、28 ℃和33 ℃的温度梯度下比较了镰形臂尾轮虫和尾突尾轮虫的生活史特征.结果表明：18 ℃和23 ℃下,尾突臂尾轮虫的生殖期和平均寿命均显著长于镰形臂尾轮虫,产卵量也显著大于镰形臂尾轮虫;28 ℃下,2种轮虫的各主要发育阶段历时、平均寿命和产卵量均无显著差异;33 ℃下,镰形臂尾轮虫的生殖期和生殖后期历时以及平均寿命均显著长于尾突臂尾轮虫,产卵量显著大于尾突臂尾轮虫.18 ℃下,尾突臂尾轮虫的生命期望、净生殖率和种群内禀增长率均显著大于镰形臂尾轮虫;23 ℃和28 ℃下,尾突臂尾轮虫的生命期望显著长于镰形臂尾轮虫,而其他种群增长参数间均无显著差异;33 ℃下,镰形臂尾轮虫的世代时间、生命期望、净生殖率和种群内禀增长率均极显著大于尾突臂尾轮虫.2种轮虫的主要发育阶段历时、平均寿命、产卵量、世代时间、生命期望、净生殖率和种群内禀增长率对温度变化的反应也存在差异.研究结果表明,尾突臂尾轮虫更能适应较低的环境温度,而镰形臂尾轮虫则相反.     

Effect of two microalgae concentrations on body size and egg size of the rotifer <Emphasis Type="Italic">Brachionus calyciflorus</Emphasis>

The rotifer, Brachionus calyciflorus, was grown with two algae species (Chlorella sp. and Scenedesmus obliquus) at different concentrations (0.1, 1 and 10 × 10⁶ cells ml⁻¹). The body size (lorica biovolume) of individual rotifer and their egg size were measured when the populations were roughly in the exponential phase of population growth. The body size of the rotifers differed significantly (P < 0.05) among the two algae species used, however this effect was not observed for egg size. The body size of rotifers fed on higher densities of Chlorella sp. (10 × 10⁶ cells ml⁻¹) was significantly larger than for those fed on lower and medium densities (0.1 and 1 × 10⁶ cells ml⁻¹). Body size and egg size of rotifers fed with different amounts of Scenedesmus did not differ significantly. The egg size was significantly larger at higher food level of Chlorella. A significantly positive correlation was observed between the adult rotifer body size and their egg size.     

Interactions between red tide microalgae and herbivorous zooplankton: effects of two bloom-forming species on the rotifer <Emphasis Type="Italic">Brachionus plicatilis</Emphasis> (O.F. Muller)

Experiments were carried out to investigate interspecific interactions between the rotifer Brachionus plicatilis and two harmful algal bloom (HAB) species using single and mixed culture methods. B. plicatilis populations and the growth of two algae were compared at different algal cell densities. The results demonstrate that B. plicatilis obtained sufficient nutrition from Alexandrium tamarense to support net population increase. When exposed to a density of 8 × 10⁴ cells ml⁻¹ A. tamarense, the number of B. plicatilis increased faster than it did when exposed to other four algal densities (16 × 10⁴, 24 × 10⁴, 32 × 10⁴, and 40 × 10⁴ cells ml⁻¹). Cell densities of A. tamarense decreased due to the grazing of B. plicatilis. In contrast, Heterosigma akashiwo had an adverse effect on the B. plicatilis population and its growth was largely unaffected by rotifer grazing. In this case, the B. plicatilis population decreased and H. akashiwo grew at a rate similar to that of a control without addition of rotifers. Mixed culture experiments showed that A. tamarense could partly counteract the effect of H. akashiwo in limiting the rate of population increase of rotifer. In addition, the effect of different initial cell densities on interspecific competition between A. tamarense and H. akashiwo in mixed culture(s) was also investigated. The results show that A. tamarense competed very successfully when the inoculation proportions of A. tamarense and H. akashiwo were 40:5 and 40:30. Handling editor: D. Hamilton     

Experimental study on the impact of dinoflagellate Alexandrium species on populations of the rotifer Brachionus plicatilis

To investigate harmful effects of the dinoflagellate Alexandrium species on microzooplankton, the rotifer Brachionus plicatilis was chosen as an assay species, and tested with 10 strains of Alexandrium including one known non-PSP-producer (Alexandrium tamarense, AT-6). HPLC analysis confirmed the PSP-content of the various strains: Alexandrium lusitanicum, Alexandrium minutum and Alexandrium tamarense (ATHK, AT5-1, AT5-3, ATCI02, ATCI03) used in the experiment were PSP-producers. No PSP toxins were detected in the strains Alexandrium sp1, Alexandrium sp2.Exposing rotifer populations to the densities of 2000 cells ml⁻¹ of each of these 10 Alexandrium strains revealed that the (non-PSP) A. tamarense (AT-6) and two other PSP-producing algae: A. lusitanicum, A. minutum, did not appear to adversely impact rotifer populations. Rotifers exposed to these three strains were able to maintain their population numbers, and in some cases, increase them. Although some increases in rotifer population growth following exposures to these three algal species were noted, the rate was less than for the non-exposed control rotifer groups.In contrast, the remaining seven algal strains (A. tamarense ATHK, AT5-1, AT5-3, ATCI02, ATCI03; also Alexandrium sp1 and Alexandrium sp2) all have adverse effects on the rotifers. Dosing rotifers with respective algal cell densities of 2000 cells ml⁻¹ each, for Alexandrium sp1, Alexandrium sp2, and A. tamarense strains ATHK and ATCI03 showed mean lethal time (LT₅₀) on rotifer populations of 21, 28, 29, and 36h, respectively. The remaining three species (A. tamarense strains AT5-1, AT5-3, ATCI02) caused respective mean rotifer LT₅₀s of 56, 56, and 71 h, compared to 160 h for the unexposed “starved control” rotifers. Experiments to determine ingestion rates for the rotifers, based on changes in their Chlorophyll a content, showed that the rotifers could feed on A. lusitanicum, A. minutum and A. tamarense strain AT-6, but could graze to little or no extent upon algal cells of the other seven strains. The effects on rotifers exposed to different cell densities, fractions, and growth phases of A. tamarense algal culture were respectively compared. It was found that only the whole algal cells had lethal effects, with strongest impact being shown by the early exponential growth phase of A. tamarense. The results indicate that some toxic mechanism(s), other than PSP and present in whole algal cells, might be responsible for the adverse effects on the exposed rotifers.     

Studies on life history characteristics of <Emphasis Type="Italic">Brachionus plicatilis</Emphasis> O. F. Müller (Rotifera) in relation to temperature,salinity and food algae

Effects of temperature (18, 24, and 30°C), salinity (5–40 ppt, five intervals) and algal foods (Synechococcus sp., Chlorella pyrenoidosa, Isochrysis zhanjiangensis, Dunaliella salina and Tetraselmis cordiformis) on the life table demography of six geographical Brachionus plicatilis sensu stricto clones, which had been identified according to the prevalent taxonomy and biometric analysis of B. plicatilis sensu lato, were studied. The results showed that temperature, salinity and temperature × salinity significantly influenced the life history parameters. Genotype (clone) had no effect on the population growth rate but did influence the net reproductive rate, generation time and lifespan. All rotifer clones showed the expected increase in population growth rate with increasing temperature. B. plicatilis s. s. attained a higher population growth rate at low–medium salinities (5–20 ppt) than at high salinities (25–40 ppt). The equivalent spherical diameter (ESD) of food algae, salinity and ESD × salinity had significant effects on the life history parameters. In this case, genotype had no effect on population growth rate, net reproductive rate and generation time but did influence lifespan. The population growth rate of B. plicatilis s. s. evaluated against particle retention spectrum of algae at two salinities resulted in bell-shaped curves. Dunaliella salina with an ESD = 7.7 μm was considered to be the best food for B. plicatilis s. s. while Synechococcus appeared to be an inadequate food algae.     

Combined effects of zinc and algal food on the competition between planktonic rotifers, <Emphasis Type="Italic">Anuraeopsis fissa</Emphasis> and <Emphasis Type="Italic">Brachionus rubens</Emphasis> (Rotifera)

We evaluated the combined effects of algal (Chlorella vulgaris) food levels (low, 0.5 × 10⁶ (or 2.9 μg C ml⁻¹); and high, 1 × 10⁶ cells ml⁻¹ (or 5.8 μg C ml⁻¹)) and zinc concentrations (0, 0.125, and 0.250 mg l⁻¹ of ZnCl₂) on the competition between two common planktonic rotifers Anuraeopsis fissa and Brachionus rubens using their population growth. Median lethal concentration data (LC₅₀) (mean ± 95% confidence intervals) showed that B. rubens was more resistant to zinc (0.554 ± 0.08 mg l⁻¹) than A. fissa (0.315 ± 0.07 mg l⁻¹). A. fissa when grown alone or with Zn was always numerically more abundant than B. rubens. When grown in the absence of zinc, under low- and high-food levels, the peak abundances of A. fissa varied from 251 ± 24 to 661 ± 77 ind. ml⁻¹, respectively, and the corresponding maxima for B. rubens were 52 ± 3 and 102 ± 18 ind. ml⁻¹. At a given food level, competition for food reduced the peak abundances of both rotifers considerably. Increase in Zn concentration also lowered the rotifer abundances. The impact of zinc on competition between the two-rotifer species was evident at low-food level, mainly for A. fissa. At zinc concentrations of 0 and 0.125 mg l⁻¹, the populations of both rotifers continued to grow for about 10 days, but thereafter B. rubens began to decline. Role of zinc on the competitive outcome of the two species is discussed in relation to the changing algal densities in natural water bodies.     

Endomelanconiopsis microspora发酵产物乙酸乙酯提取物对人参核盘菌的抑制机理

【背景】人参菌核病是人参的主要病害之一,严重影响人参的产量。【目的】探索白花蒲公英内生菌(Endomelanconiopsis microspora)发酵产物乙酸乙酯提取物对人参核盘菌的抑制机理。【方法】采用人参核盘菌菌丝生长和孢子萌发试验测定抑制效果;采用显微镜观察菌丝形态变化,通过电导率和核酸含量的变化测定细胞膜通透性,通过丙二醛(malondialdehyde,MDA)含量和超氧化物歧化酶(superoxide dismutase,SOD)、过氧化物酶(peroxidase,POD)和过氧化氢酶(catalase,CAT)活力的变化测定膜脂过氧化程度。【结果】内生菌E. microspora发酵产物乙酸乙酯提取物能显著抑制人参核盘菌菌丝生长,最小抑菌浓度为3.75 mg/mL,培养6 d后抑制率为76.22%。该提取物能显著抑制人参核盘菌孢子萌发,15.00 mg/mL时抑制效果最好,抑制率达90.69%。提取物影响菌丝形态,增加人参核盘菌细胞膜通透性,造成菌丝内含物外渗,7.50 mg/mL处理10 h后电导率和核酸含量分别比对照组增加30.11%和62.85%。同时提取物显著增加人参核盘菌MDA含量和SOD、POD、CAT活力,7.50 mg/mL处理组呈现先上升后下降的变化趋势,并在12 h时达到最高值。【结论】内生菌E. microspora发酵产物乙酸乙酯提取物通过改变人参核盘菌细胞膜通透性,加剧膜脂过氧化,破坏细胞膜完整性,导致细胞内含物流失,显著抑制孢子萌发和菌丝生长。     

Chronic toxicity of methylparathion to the rotifer Brachionus calyciflorus fed on Nannochloris oculata and Chlorella pyrenoidosa

The effect of sublethal levels of methylparathion (0, 1, 3, 5, 7 mg l^–1) on the freshwater rotifer, Brachionus calyciflorus, during their entire life cycle was studied. Rotifers were fed on two species of unicellular algae: Nannochloris oculata and Chlorella pyrenoidosa; both algal concentrations were 5 × 10⁵ cell ml^–1.The parameters used to determine the toxicity of this compound were survival, fecundity, net reproductive rate (R)_o, generation time (T), intrinsic rate of natural increase (r), reproductive value (V _x/V_o) and life expectancy at hatching (eo). All the demographic parameters studied were affected by methyl-parathion exposure on rotifers fed on both species of algae, but the toxic effect was larger when animals were fed on Chlorella pyrenoidosa; in this case, animals showed a decreased in fertility and also a delayed first reproduction. Sublethal methylparathion levels produced a reduction in most of the parameters selected, especially after exposure to 7 mg l^–1, where the animals died before reproducing.     

Production and nutritional quality of the rotifer Brachionus plicatilis fed marine Chlorella sp. at different cell densities

The effect of different cell densities of marine Chlorella sp. on the growth rate, doubling time and production of the rotifer Brachionus plicatilis was investigated. A significant increase in rotifer production was achieved at a density of 50 × 10⁶ Chlorella cells ml^–1. The nutritional quality of rotifers grown at different concentrations of Chlorella is discussed.     

金龟子绿僵菌对斜纹夜蛾幼虫的生防效果、抗氧化酶活性和肠道细菌群落的影响

【目的】测定金龟子绿僵菌(Metarhizium anisopliae)对斜纹夜蛾(Spodoptera litura) 2龄幼虫的毒力,研究金龟子绿僵菌侵染后寄主体内抗氧化酶活性和肠道内细菌群落的变化,探讨斜纹夜蛾对金龟子绿僵菌侵染的防御机制。【方法】采用浸渍法测定不同浓度金龟子绿僵菌对斜纹夜蛾2龄幼虫的毒力;应用IlluminaMiSeq高通量测序技术测定肠道细菌群落。【结果】不同浓度的孢悬液对斜纹夜蛾2龄幼虫均有一定的毒力,处理7 d时半致死浓度(LC_(50))为3.944 107个孢子/mL;浓度为1.0×10~9个孢子/mL时,半致死时间最短(LT_(50))为4.6 d,校正后的死亡率为81.03%。处理后未致死的斜纹夜蛾幼虫体内抗氧化酶活性显著高于对照组。处理后致死的斜纹夜蛾幼虫肠道细菌群落多样性显著高于对照组;且处理后致死的斜纹夜蛾幼虫肠道细菌群落组成与对照组差异显著。【结论】金龟子绿僵菌对斜纹夜蛾幼虫的致死率和致死效率与金龟子绿僵菌的浓度呈正相关;斜纹夜蛾幼虫体内的抗氧化酶可能在抵抗金龟子绿僵菌侵染的过程中起重要作用。金龟子绿僵菌的侵染会导致斜纹夜蛾幼虫肠道细菌群落多样性升高和组成发生变化,Enterococcus、Escherichia和Pseudomonas等属可能是影响斜纹夜蛾幼虫抵抗金龟子绿僵菌侵染致死的重要因素。