Temporal variability of carabid beetles as a function of geography, environment, and species

IF 1.2 4区 环境科学与生态学 Q4 ECOLOGY Theoretical Ecology Pub Date : 2023-12-14 DOI:10.1007/s12080-023-00573-1
Tad A. Dallas, Cleber Ten Caten, Lauren A. Holian
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Abstract

Populations of species fluctuate through time and across geographic space. Identifying the potential drivers of temporal variability in population dynamics is a fundamental aim of population ecology, with clear implications to understanding population extinction risk, the influence of diversity on composite community scale variability, and the extent to which temporal variability is driven by exogenous (e.g., climate) or endogenous (e.g., life history) factors. We used data from the National Ecological Observatory Network (NEON) consisting of over 750 carabid beetle species systematically sampled between 2013 and 2021 across 47 terrestrial sites in the USA to examine the relative roles of geographic location, environmental gradients, and species identity on temporal variability. We find an effect of species taxonomic identity on resulting temporal variability in abundance both at site-level and taxonomy-level scales. Environmental variables (mean annual temperature and precipitation and seasonality in temperature and precipitation) and geographic position (latitude and longitude) were not strongly related to temporal variability, and there was no spatial signal in site-level mean temporal variability. The importance of species to temporal variability highlights the role of life history differences across species, resulting in a mean shift in population growth rate, as a potentially more important driver than aspects of site and environment that may relate more to temporal changes in population growth rates.

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作为地理、环境和物种函数的食肉目甲虫的时间变异性
物种数量随时间和地理空间而波动。确定种群动态中时间变异性的潜在驱动因素是种群生态学的一个基本目标,对于理解种群灭绝风险、多样性对复合群落规模变异性的影响以及时间变异性受外源(如气候)或内源(如生活史)因素驱动的程度具有明确意义。我们利用国家生态观测网络(NEON)的数据,该数据由2013年至2021年间在美国47个陆地站点系统采样的750多种甲甲虫组成,以研究地理位置、环境梯度和物种身份对时间变异的相对作用。我们发现物种的分类特性对物种丰度的时间变异有影响,无论是在站点水平还是在分类水平上。环境变量(年平均气温和降水量以及气温和降水量的季节性)和地理位置(经纬度)与时间变异的相关性不强,站点水平平均时间变异不存在空间信号。物种对时间变异性的重要性突出了物种之间的生活史差异的作用,导致人口增长率的平均变化,作为一个潜在的比地点和环境方面更重要的驱动因素,可能更多地与人口增长率的时间变化有关。
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来源期刊
Theoretical Ecology
Theoretical Ecology 环境科学-生态学
CiteScore
3.30
自引率
6.20%
发文量
23
审稿时长
>12 weeks
期刊介绍: Theoretical Ecology publishes innovative research in theoretical ecology, broadly defined. Papers should use theoretical approaches to answer questions of ecological interest and appeal to and be readable by a broad audience of ecologists. Work that uses mathematical, statistical, computational, or conceptual approaches is all welcomed, provided that the goal is to increase ecological understanding. Papers that only use existing approaches to analyze data, or are only mathematical analyses that do not further ecological understanding, are not appropriate. Work that bridges disciplinary boundaries, such as the intersection between quantitative social sciences and ecology, or physical influences on ecological processes, will also be particularly welcome. All areas of theoretical ecology, including ecophysiology, population ecology, behavioral ecology, evolutionary ecology, ecosystem ecology, community ecology, and ecosystem and landscape ecology are all appropriate. Theoretical papers that focus on applied ecological questions are also of particular interest.
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