气味区分澳大利亚鼠与增加复杂性的交感神经

Pub Date : 2020-11-25 DOI:10.3853/j.2201-4349.72.2020.1721
K. Rowe, H. Soini, K. Rowe, M. Adams, M. Novotny
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引用次数: 2

摘要

气味线索在许多物种的交配隔离中起着关键作用。在哺乳动物中,它们在啮齿动物中得到了最充分的研究,但只在少数物种中进行了研究。鼠属是哺乳动物中物种最丰富的属之一,自然分布在亚洲到澳大利亚,少数物种通过人类共生传播,几乎遍布全球。超过三分之一的Rattus物种是最近以新几内亚岛为中心的澳大利亚大陆(Sahul)快速辐射的结果。由这种辐射产生的两个最广泛的物种,fuscipus和Rattus leucopus,在澳大利亚昆士兰的湿热带地区对称地出现。尽管它们最近出现了分歧,形态相似,并且能够在人工饲养中产生可育的后代,但在野外还没有报道过这两个物种的杂交,这表明早熟的隔离机制维持了物种的界限。气味线索是一种看似合理的机制,这些物种可以利用它来识别同一物种的配偶,但它们气味的化学成分尚未被表征。通过对两种共属植物166个标本的同工酶分析,证实了两种间不存在同种间的基因流动。从同域和异域居群的32个雄性包皮腺体的化学分析中,我们鉴定出120种挥发性有机化合物,其中80种可以可靠地定量用于统计分析。其中一些化学物质已被证明是其他哺乳动物的信号化合物,包括七种噻唑类。其中两种(2-仲丁基噻唑啉和2-异丙噻唑啉)先前已在啮齿类动物家鼠小家鼠中检测到,并参与包括吸引雌性在内的社会互动。通过包皮腺分泌物的化学成分,我们证明了fuscipus和leucopus是可以定量和定性区分的。与异域亚种相比,同域亚种含有更多独特的化合物和更高的化合物丰度,表明同域种群具有更复杂和集中的气味。这些结果表明,气味化学在这两个物种中进化得很快,在种和亚种之间有很大的差异,特别是在同属植物中。最终,与配偶识别有关的化学信号的快速进化可能有助于解释鼠属物种的异常多样性。《澳大利亚博物馆记录》是由悉尼澳大利亚博物馆出版的同行评议的开放获取期刊,传播来自我们馆藏的知识ISSN 0067-1975(印刷),2201-4349(在线)272澳大利亚博物馆记录(2020)第72卷
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Odorants differentiate Australian Rattus with increased complexity in sympatry
Odorant cues play a critical role in premating isolation among many species. In mammals, they have been most well-studied in rodents, but only in a handful of species. The genus Rattus is one of the most species-rich genera of mammals, with a natural distribution from Asia to Australia and a nearly global distribution for a few species that spread through human commensalism. More than one-third of Rattus species are the result of a recent and rapid radiation on continental Australia (Sahul) centred on the island of New Guinea. The two most widespread species resulting from this radiation, Rattus fuscipes and Rattus leucopus, occur sympatrically in the Wet Tropics region of Queensland, Australia. Despite their recent divergence, morphological similarity, and ability to produce fertile offspring in captivity, hybrids of the two species have not been reported in the wild, suggesting that premating isolation mechanisms maintain the species’ boundaries. Odorant cues are a plausible mechanism that these species could use to identify mates of the same species, but the chemical composition of their odours has not been characterized. With allozyme data from 166 specimens of the two species we confirmed the absence of gene flow between the species in sympatry. From chemical analysis of preputial glands of 32 males from sympatric and allopatric populations of the two species we identified 120 volatile organic compounds of which 80 were reliably quantitated for statistical analysis. Some of these chemicals have been indicated as signalling compounds in other species of mammals, including seven thiazolines. Among them two (2-sec-butylthiazoline and 2-isopropythiazoline) have been previously detected in a rodent, the House Mouse, Mus musculus, and are involved in social interactions including attracting females. We demonstrate that R. fuscipes and R. leucopus are quantitatively and qualitatively distinguishable by the chemical composition of their preputial gland secretions. In comparison to allopatric subspecies, sympatric species contained more unique chemical compounds and a higher abundance of compounds overall, suggesting that sympatric populations have more complex and concentrated odours. Together these results indicate that odorant chemistry has evolved rapidly in these two species, with substantial differences among species and subspecies, especially in sympatry. Ultimately, the rapid evolution of chemical signals involved in mate recognition may help to explain the exceptional diversity of species in the genus Rattus. Records of the Australian Museum a peer-reviewed open-access journal published by the Australian Museum, Sydney communicating knowledge derived from our collections ISSN 0067-1975 (print), 2201-4349 (online) 272 Records of the Australian Museum (2020) Vol. 72
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