胚胎暴露于同种化学物质会抑制甘蔗蟾蜍的生长和存活。
Embryonic exposure to conspecific chemicals suppresses cane toad growth and survival.
机构信息
School of Biological Sciences, A08, University of Sydney, Sydney, New South Wales 2006, Australia.
出版信息
Biol Lett. 2012 Apr 23;8(2):226-9. doi: 10.1098/rsbl.2011.0794. Epub 2011 Aug 31.
Abstract
Adaptations to suppress the viability of conspecifics may provide novel ways to control invasive taxa. The spread of cane toads (Rhinella marina) through tropical Australia has had severe ecological impacts, stimulating a search for biocontrol. Our experiments show that cane toad tadpoles produce waterborne chemical cues that suppress the viability of conspecifics encountering those cues during embryonic development. Brief (72 h) exposure to these cues in the egg and post-hatching phases massively reduced rates of survival and growth of larvae. Body sizes at metamorphosis (about three weeks later) were almost twice as great in control larvae as in tadpole-exposed larvae. The waterborne cue responsible for these effects might provide a weapon to reduce toad recruitment within the species' invaded range.
摘要
适应抑制同种生物的生存能力可能为控制入侵物种提供新的方法。蔗蟾(Rhinella marina)在澳大利亚热带地区的传播对生态造成了严重影响,这刺激了人们对生物控制的探索。我们的实验表明,蔗蟾蝌蚪会产生水性化学信号,这些信号会抑制在胚胎发育过程中遇到这些信号的同种生物的生存能力。在卵和孵化后的阶段短暂(72 小时)暴露于这些信号中,会极大地降低幼虫的存活率和生长率。大约三周后变态时的体型,在对照组幼虫中几乎是暴露于蝌蚪的幼虫的两倍。对这些效应负责的水性信号可能为减少入侵物种范围内的蟾蜍种群数量提供一种手段。
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