Adaptive potential in the face of a transmissible cancer in Tasmanian devils

IF 4.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Ecology Pub Date : 2024-09-28 DOI:10.1111/mec.17531
Kasha Strickland, Menna E. Jones, Andrew Storfer, Rodrigo K. Hamede, Paul A. Hohenlohe, Mark J. Margres, Hamish I. McCallum, Sebastien Comte, Shelly Lachish, Loeske E. B. Kruuk
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Abstract

Emerging infectious diseases (EIDs) not only cause catastrophic declines in wildlife populations but also generate selective pressures that may result in rapid evolutionary responses. One such EID is devil facial tumour disease (DFTD) in the Tasmanian devil. DFTD is almost always fatal and has reduced the average lifespan of individuals by around 2 years, likely causing strong selection for traits that reduce susceptibility to the disease, but population decline has also left Tasmanian devils vulnerable to inbreeding depression. We analysed 22 years of data from an ongoing study of a population of Tasmanian devils on Freycinet Peninsula, Tasmania, to (1) identify whether DFTD may be causing selection on body size, by estimating phenotypic and genetic correlations between DFTD and size traits, (2) estimate the additive genetic variance of susceptibility to DFTD, and (3) investigate whether size traits or susceptibility to DFTD were under inbreeding depression. We found a positive phenotypic relationship between head width and susceptibility to DFTD, but this was not underpinned by a genetic correlation. Conversely, we found a negative phenotypic relationship between body weight and susceptibility to DFTD, and there was evidence for a negative genetic correlation between susceptibility to DFTD and body weight. There was additive genetic variance in susceptibility to DFTD, head width and body weight, but there was no evidence for inbreeding depression in any of these traits. These results suggest that Tasmanian devils have the potential to respond adaptively to DFTD, although the realised evolutionary response will critically further depend on the evolution of DFTD itself.

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塔斯马尼亚魔鬼面对可传播癌症的适应潜力。
新发传染病(EIDs)不仅会造成野生动物种群数量的灾难性下降,而且还会产生选择性压力,从而导致快速的进化反应。塔斯马尼亚魔鬼面部肿瘤病(DFTD)就是这样一种 EID。DFTD几乎总是致命的,它使个体的平均寿命缩短了约2年,这很可能导致对降低疾病易感性的性状的强烈选择,但种群数量的减少也使塔斯马尼亚魔鬼容易受到近亲繁殖抑制的影响。我们分析了对塔斯马尼亚弗雷西内特半岛的塔斯马尼亚魔鬼种群进行的一项持续研究的 22 年数据,目的是:(1)通过估计 DFTD 与体型特征之间的表型和遗传相关性,确定 DFTD 是否可能导致对体型的选择;(2)估计对 DFTD 易感性的加性遗传变异;以及(3)调查体型特征或对 DFTD 的易感性是否受到近交抑郁的影响。我们发现,头宽与DFTD易感性之间存在正的表型关系,但这并不以遗传相关性为基础。相反,我们发现体重与DFTD易感性之间存在负的表型关系,并且有证据表明DFTD易感性与体重之间存在负的遗传相关性。DFTD易感性、头宽和体重之间存在加性遗传变异,但没有证据表明这些性状存在近交抑郁。这些结果表明,塔斯马尼亚魔鬼有可能对DFTD做出适应性反应,但真正的进化反应将进一步取决于DFTD本身的进化。
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来源期刊
Molecular Ecology
Molecular Ecology 生物-进化生物学
CiteScore
8.40
自引率
10.20%
发文量
472
审稿时长
1 months
期刊介绍: Molecular Ecology publishes papers that utilize molecular genetic techniques to address consequential questions in ecology, evolution, behaviour and conservation. Studies may employ neutral markers for inference about ecological and evolutionary processes or examine ecologically important genes and their products directly. We discourage papers that are primarily descriptive and are relevant only to the taxon being studied. Papers reporting on molecular marker development, molecular diagnostics, barcoding, or DNA taxonomy, or technical methods should be re-directed to our sister journal, Molecular Ecology Resources. Likewise, papers with a strongly applied focus should be submitted to Evolutionary Applications. Research areas of interest to Molecular Ecology include: * population structure and phylogeography * reproductive strategies * relatedness and kin selection * sex allocation * population genetic theory * analytical methods development * conservation genetics * speciation genetics * microbial biodiversity * evolutionary dynamics of QTLs * ecological interactions * molecular adaptation and environmental genomics * impact of genetically modified organisms
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Population Genetics and Invasion History of the European Starling Across Aotearoa New Zealand. An Early-Life Disruption of Gut Microbiota Has Opposing Effects on Parasite Resistance in Two Host Species. Genetic Monitoring of a Lethal Control Programme for Wild Canids With Complex Mating Strategies. Elevational Range Impacts Connectivity and Predicted Deme Sizes From Models of Habitat Suitability. Michael C. Whitlock-Recipient of the 2024 Molecular Ecology Prize.
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