Exact confidence intervals for population growth rate, longevity and generation time

IF 1.2 4区生物学 Q4 ECOLOGY

Theoretical Population Biology Pub Date : 2023-11-22 DOI:10.1016/j.tpb.2023.11.002

Carlos Hernandez-Suarez , Jorge Rabinovich

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引用次数: 0

Abstract

By quantifying key life history parameters in populations, such as growth rate, longevity, and generation time, researchers and administrators can obtain valuable insights into its dynamics. Although point estimates of demographic parameters have been available since the inception of demography as a scientific discipline, the construction of confidence intervals has typically relied on approximations through series expansions or computationally intensive techniques. This study introduces the first mathematical expression for calculating confidence intervals for the aforementioned life history traits when individuals are unidentifiable and data are presented as a life table. The key finding is the accurate estimation of the confidence interval for $r$ , the instantaneous growth rate, which is tested using Monte Carlo simulations with four arbitrary discrete distributions. In comparison to the bootstrap method, the proposed interval construction method proves more efficient, particularly for experiments with a total offspring size below 400. We discuss handling cases where data are organized in extended life tables or as a matrix of vital rates. We have developed and provided accompanying code to facilitate these computations.

查看原文本刊更多论文

人口增长率、寿命和世代时间的精确置信区间。

通过量化种群的关键生活史参数，如生长速度、寿命和世代时间，研究人员和管理人员可以获得对其动态的有价值的见解。虽然自从人口统计学作为一门科学学科开始以来，人口参数的点估计就已经可用，但置信区间的构建通常依赖于通过序列展开或计算密集型技术进行的近似值。本研究引入了当个体无法识别且数据以生命表形式呈现时，计算上述生活史特征置信区间的第一个数学表达式。关键的发现是对r(瞬时增长率)的置信区间的准确估计，这是使用蒙特卡罗模拟与四个任意离散分布进行测试的。与bootstrap方法相比，本文提出的区间构造方法效率更高，特别是在总子代数小于400的实验中。我们将讨论数据组织在延长生命表中或作为生命率矩阵的处理情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Theoretical Population Biology 生物-进化生物学

CiteScore

2.50

自引率

14.30%

发文量

审稿时长

6-12 weeks

期刊介绍： An interdisciplinary journal, Theoretical Population Biology presents articles on theoretical aspects of the biology of populations, particularly in the areas of demography, ecology, epidemiology, evolution, and genetics. Emphasis is on the development of mathematical theory and models that enhance the understanding of biological phenomena. Articles highlight the motivation and significance of the work for advancing progress in biology, relying on a substantial mathematical effort to obtain biological insight. The journal also presents empirical results and computational and statistical methods directly impinging on theoretical problems in population biology.