AbstractFidelity rates of pair-bonded individuals are of considerable interest to behavioral and population biologists as they can influence population structure, mating rates, population productivity, and gene flow. Estimates of fidelity rates calculated from direct observations of pairs in consecutive breeding seasons may be biased because (i) individuals that are not seen are assumed to be dead, (ii) variation in the detectability of individuals is ignored, and (iii) pair status must be known with certainty. This can lead to a high proportion of observations being ignored. This approach also restricts the way variation in fidelity rates for different types of individuals, or the covariation between fidelity and other vital rates (e.g., survival) can be analyzed. In this study, we develop a probabilistic multievent capture–mark–recapture (MECMR) modeling framework for estimating pair fidelity rates that accounts for imperfect detection rates and capture heterogeneity, explicitly incorporates uncertainty in the assessment of pair status, and allows estimates of state-dependent survival and fidelity rates to be obtained simultaneously. We demonstrate the utility of our approach for investigating patterns of fidelity in pair-bonded individuals, by applying it to 30 years of breeding data from a wild population of great tits Parus major Linnaeus. Results of model selection supported state-dependent recapture, survival, and fidelity rates. Recapture rates were higher for individuals breeding with their previous partner than for those breeding with a different partner. Faithful birds that were breeding with the same partner as in the previous breeding season (i.e., at t − 1) experienced substantially higher survival rates (between t and t + 1) and were also more likely to remain faithful to their current partner (i.e., to remain in the faithful state at t + 1). First year breeders were more likely to change partner than older birds. These findings imply that traditional estimates, which do not account for state-dependent parameters, may be both inaccurate and biased, and hence, inferences based on them may conceal important biological effects. This was demonstrated in the analysis of simulated capture histories, which showed that our MECMR model was able to estimate state-dependant survival and pair fidelity rates in the face of varying state-dependant recapture rates robustly, and more accurately, than the traditional method. In addition, this new modeling approach provides a statistically rigorous framework for testing hypothesis about the causes and consequences of fidelity to a partner for natural populations. The novel modeling approach described here can readily be applied, either in its current form or via extension, to other populations and other types of dyadic interactions (e.g., between nonpaired individuals, such as parent–offspring relationships, or between individuals and locations, such as nest-site fidelity).
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机译:摘要行为和种群生物学家对双键个体的保真率非常感兴趣,因为它们可以影响种群结构,交配率,种群生产力和基因流。根据连续繁殖季节中成对的直接观察计算出的保真度估计值可能会产生偏差,因为(i)认为未见到的个体已死亡,(ii)忽略了个体可检测性的变化,并且(iii)配对状态必须确定地知道。这可能导致很大比例的观测值被忽略。这种方法还限制了不同类型个体的保真率变化的方式,或者可以分析保真度和其他生命率(例如生存率)之间的协变。在这项研究中,我们开发了一种概率多事件捕获-标记-捕获(MECMR)建模框架,用于估算配对保真度,该保真率说明了不完善的检测率并捕获了异质性,明确地将不确定性纳入了配对状态评估中,并允许评估状态-依赖生存率和保真率同时获得。通过将其应用于来自大山雀Parus major Linnaeus的野生种群的30年繁殖数据,我们证明了我们的方法在调查成对键合个体中保真度模式方面的效用。模型选择的结果支持状态依赖的重新捕获,生存率和保真度。与以前的伴侣一起繁殖的个体的捕获率要高于与其他伴侣一起繁殖的个体的捕获率。与前一个繁殖季节(即,t-1)同伴繁殖的忠实鸟类(在t和t + 1之间)的成活率大大提高,并且也更可能忠于其当前伴侣(即,t-1) ,以便在t + 1时保持忠实状态。第一年的种鸽比成年鸽更容易改变伴侣。这些发现表明,不考虑与状态有关的参数的传统估计可能不准确且有偏差,因此,基于这些估计的推论可能掩盖了重要的生物学影响。在对模拟捕获历史的分析中证明了这一点,该分析表明,与传统方法相比,面对变化的依赖状态的重新捕获率,我们的MECMR模型能够估算依赖状态的生存率和配对保真率。此外,这种新的建模方法还提供了一个严格的统计框架,用于检验有关忠实于自然人伴侣的原因和后果的假设。本文描述的新颖建模方法可以很容易地以其当前形式或通过扩展应用于其他人群和其他类型的二元互动(例如,在非配对个体之间,例如父母与子女的关系,或者在个体与位置之间,例如作为巢穴保真度)。
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