{"title":"Alternative reproductive tactics and evolutionary rescue.","authors":"Robert J Knell, Jonathan M Parrett","doi":"10.1093/evlett/qrae010","DOIUrl":null,"url":null,"abstract":"<p><p>Almost all life on earth is facing environmental change, and understanding how populations will respond to these changes is of urgent importance. One factor that is known to affect the speed by which a population can evolve when faced with changes in the environment is strong sexual selection. This increases the adaptive capacity of a population by increasing reproductive skew toward well-adapted (usually) males who will, on average, be best able to compete for matings. This effect could potentially be disrupted when males pursue alternative reproductive tactics (ARTs), whereby males within a species exhibit qualitatively different behaviors in their pursuit of matings. ARTs are diverse, but one common class is those expressed through condition-dependent polyphenism such that high-quality, well-adapted males compete aggressively for mates and low-quality, poorly adapted males attempt to acquire matings via other, nonaggressive behaviors. Here, using an individual-based modeling approach, we consider the possible impacts of ARTs on adaptation and evolutionary rescue. When the ART is simultaneous, meaning that low-quality males not only engage in contests but also pursue other tactics, adaptive capacity is reduced and evolutionary rescue, where a population avoids extinction by adapting to a changing environment, becomes less likely. This is because the use of the ART allows low-quality males to contribute more maladaptive genes to the population than would happen otherwise. When the ART is fixed, however, such that low-quality males will only use the alternative tactic and do not engage in contests, we find the opposite: adaptation happens more quickly and evolutionary rescue when the environment changes is more likely. This surprising effect is caused by an increase in the mating success of the highest quality males who face many fewer competitors in this scenario-counterintuitively, the presence of males pursuing the ART increases reproductive skew toward those males in the best condition.</p>","PeriodicalId":3,"journal":{"name":"ACS Applied Electronic Materials","volume":null,"pages":null},"PeriodicalIF":4.3000,"publicationDate":"2024-03-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11291626/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"ACS Applied Electronic Materials","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.1093/evlett/qrae010","RegionNum":3,"RegionCategory":"材料科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2024/8/1 0:00:00","PubModel":"eCollection","JCR":"Q1","JCRName":"ENGINEERING, ELECTRICAL & ELECTRONIC","Score":null,"Total":0}
引用次数: 0
Abstract
Almost all life on earth is facing environmental change, and understanding how populations will respond to these changes is of urgent importance. One factor that is known to affect the speed by which a population can evolve when faced with changes in the environment is strong sexual selection. This increases the adaptive capacity of a population by increasing reproductive skew toward well-adapted (usually) males who will, on average, be best able to compete for matings. This effect could potentially be disrupted when males pursue alternative reproductive tactics (ARTs), whereby males within a species exhibit qualitatively different behaviors in their pursuit of matings. ARTs are diverse, but one common class is those expressed through condition-dependent polyphenism such that high-quality, well-adapted males compete aggressively for mates and low-quality, poorly adapted males attempt to acquire matings via other, nonaggressive behaviors. Here, using an individual-based modeling approach, we consider the possible impacts of ARTs on adaptation and evolutionary rescue. When the ART is simultaneous, meaning that low-quality males not only engage in contests but also pursue other tactics, adaptive capacity is reduced and evolutionary rescue, where a population avoids extinction by adapting to a changing environment, becomes less likely. This is because the use of the ART allows low-quality males to contribute more maladaptive genes to the population than would happen otherwise. When the ART is fixed, however, such that low-quality males will only use the alternative tactic and do not engage in contests, we find the opposite: adaptation happens more quickly and evolutionary rescue when the environment changes is more likely. This surprising effect is caused by an increase in the mating success of the highest quality males who face many fewer competitors in this scenario-counterintuitively, the presence of males pursuing the ART increases reproductive skew toward those males in the best condition.
地球上几乎所有的生命都面临着环境变化,了解种群如何应对这些变化具有迫切的重要性。众所周知,影响种群面对环境变化时进化速度的一个因素是强烈的性选择。这可以提高种群的适应能力,因为生殖偏向于适应能力强(通常是)的雄性,平均而言,这些雄性最有能力争夺配偶。当雄性动物采取替代性繁殖策略(ARTs)时,这种效应就有可能被打破。在替代性繁殖策略中,一个物种中的雄性动物在追求配偶时会表现出不同的行为。ARTs种类繁多,但其中一类常见的ARTs是通过条件依赖性多型性表现出来的,即高质量、适应性强的雄性雄性会为配偶展开激烈竞争,而低质量、适应性差的雄性雄性则试图通过其他非攻击性行为获得配偶。在这里,我们使用基于个体的建模方法,考虑了ART对适应和进化拯救可能产生的影响。如果ART是同时发生的,即低质量雄性不仅参与竞争,而且还采取其他策略,那么适应能力就会降低,进化拯救(种群通过适应不断变化的环境而避免灭绝)的可能性就会降低。这是因为使用抗逆转录病毒疗法会让低质量雄性向种群贡献更多的不适应基因,而不使用这种疗法则不会出现这种情况。然而,当固定 ART 时,低质量雄性只使用替代策略而不参与竞争,我们发现情况恰恰相反:当环境发生变化时,适应发生得更快,进化拯救更有可能发生。这种令人惊讶的效果是由最高质量雄性交配成功率的提高引起的,因为在这种情况下,它们面对的竞争者要少得多--与直觉相反,追求 ART 的雄性的存在增加了对处于最佳状态的雄性的生殖倾斜。
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