Harwood James F, Chen Kehui, Müller Hans-Georg, Wang Jane-Ling, Vargas Roger I, Carey James R
Department of Entomology, University of California, Davis, CA, U.S.A.
Physiol Entomol. 2013 Mar 1;38(1):81-88. doi: 10.1111/phen.12006. Epub 2013 Feb 27.
The reproductive ability of female tephritids can be limited and prevented by denying access to host plants and restricting the dietary precursors of vitellogenesis. The mechanisms underlying the delayed egg production in each case are initiated by different physiological processes that are anticipated to have dissimilar effects on lifespan and reproductive ability later in life. The egg laying abilities of laboratory reared females of the Mediterranean fruit fly ( Wiedmann) and melon fly ( Coquillett) from Hawaii are delayed or suppressed by limiting access to host fruits and dietary protein. In each case, this is expected to prevent the loss of lifespan associated with reproduction until protein or hosts are introduced. Two trends are observed in each species: Firstly, access to protein at eclosion leads to a greater probability of survival and higher reproductive ability than if it is delayed, and secondly, that delayed host access reduces lifetime reproductive ability without improving life expectancy. When host access and protein availability are delayed, the rate of reproductive senescence is reduced in the medfly, whereas the rate of reproductive senescence is generally increased in the melon fly. Overall, delaying reproduction lowers the fitness of females by constraining their fecundity for the remainder of the lifespan without extending the lifespan.
通过阻止实蝇接触寄主植物并限制卵黄发生的饮食前体,可以限制和阻止雌性实蝇的繁殖能力。每种情况下产卵延迟的潜在机制是由不同的生理过程引发的,预计这些过程对后期的寿命和繁殖能力会产生不同的影响。通过限制夏威夷实验室饲养的地中海实蝇(维德曼)和瓜实蝇(科基利特)雌性接触寄主果实和饮食蛋白质,其产卵能力会延迟或受到抑制。在每种情况下,预计这将防止与繁殖相关的寿命损失,直到引入蛋白质或寄主。在每个物种中都观察到两种趋势:第一,羽化时获得蛋白质比延迟获得蛋白质更有可能存活且繁殖能力更高;第二,延迟接触寄主会降低终生繁殖能力,而不会提高预期寿命。当接触寄主和蛋白质供应延迟时,地中海实蝇的生殖衰老速率降低,而瓜实蝇的生殖衰老速率通常会增加。总体而言,延迟繁殖会通过在剩余寿命中限制雌性的繁殖力而不延长寿命,从而降低其适合度。