不同光周期条件下绿色型豌豆蚜性蚜分化规律研究

Differentiation regularity of Acyrthosiphon pisum (green form) sexual morphs in relation to photoperiods

  • 摘要: 为了明确豌豆蚜随光周期变化时的种群繁殖策略以及性蚜分化规律,在4个光周期(8L:16D、10L:14D、12L:12D和14L:10D)条件下,研究了绿色型豌豆蚜经光周期连续诱导2代后(G1和G2),后代(G3)中的性蚜分化情况。结果表明:兰州地区豌豆蚜性雌蚜均为无翅型,而雄蚜均为有翅型。光周期对豌豆蚜性蚜分化有显著影响(P<0.05)。在14L:10D光周期条件下,豌豆蚜后代中无性蚜分化;在12L:12D、10L:14D和8L:16D 3个光周期条件下均有性蚜分化,而且随着光照时间的变短,豌豆蚜G3中雄蚜所占百分比逐渐减小,性雌蚜所占百分比逐渐升高。在12L:12D光周期条件下,雄蚜比例最高(30.39%),而性雌蚜比例最低(55.67%);在10L:14D光周期条件下,G3中胎生蚜比例最高,而性蚜比例最低;在8L:16D光周期条件下,无雄蚜分化,而性雌蚜比例最高(90.76%)。在同一短光照条件下,G1产仔日龄对G3中性蚜分化具有显著影响(P<0.05),同时性蚜分化具有一定的时间顺序,即先产性雌蚜,后产雄蚜,由性雌蚜向雄蚜过渡过程中伴随产生胎生蚜。表明绿色型豌豆蚜性蚜产生的临界光照时长介于12~14 h,相对较长的光照条件下有利于雄蚜产生,而光照时间越短性雌蚜比例越高。说明光周期变化是豌豆蚜生殖模式转变和性蚜分化的重要因子,而且豌豆蚜亲代经历光周期处理时间的长短影响后代中性蚜的分化。

     

    Abstract: In order to clarify population reproduction strategy and differentiation regularity of Acyrthosiphon pisum (green form) sexual morph in relation to photoperiods, the pea aphid sexual morphs were observed after 2 continuous generations at different photoperiods (8L:16D, 10L:14D, 12L:12D and 14L:10D) in the lab. The results showed that the ovipara of pea aphid in Lanzhou area were wingless, while males were winged. Photoperiod had a significant effect on the differentiation of pea aphid sexual morphs (P<0.05). No sexual morph was produced at 14L:10D photoperiod, but a lot were differentiated under the other photoperiods (8L:16D, 10L:14D and 12L:12D). In the shorter photoperiod conditions for the 3rd generation, percent male sexual morphs gradually diminished while percent ovipara gradually increased with decreasing illumination time. Percent male was highest (30.39%) at 12L:12D photoperiod, while percent ovipara was lowest (55.67%) at that photoperiod. At 10L:14D photoperiod, percent vivipara was highest while percent sexual morphs was lowest. Then at 8L:16D photoperiod, no male was produced and percent ovipara was highest (90.76%) in the 3rd generation. The reproductive period of the 1st generation also had a significant effect on the differentiation of sexual morphs in the 3rd generation under similar short illumination conditions (P<0.05). Meanwhile, there was a certain time sequence in which pea aphid sexual morphs were differentiated (first ovipara and last males) with some vivipara transitioning to sexual morphs. Hence the critical photoperiod of green pea aphid was between 12 to 14 hours of illumination. A relatively longer illumination was advantageous to the differentiation of males, while short illumination favored higher proportion of ovipara. The results suggested that change in photoperiod was a critical factor of reproductive plasticity. The reproduction of pea aphid sexual morphs and the illumination length maternal pea aphid experienced influenced sexual differentiation of offsprings.

     

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