Meta-analysis of a megafish: assessing patterns and predictors of Alligator Gar movement across multiple populations.

IF 3.4 1区生物学 Q2 ECOLOGY

Movement Ecology Pub Date : 2025-03-10 DOI:10.1186/s40462-025-00544-7

Hayden C Roberts, Florian J Kappen, Matthew R Acre, Daniel J Daugherty, Nathan G Smith, Joshuah S Perkin

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引用次数: 0

Abstract

Background: Freshwater megafishes are among some of the most commercially and ecologically important aquatic organisms yet are disproportionately threatened with range and population reduction. Anthropogenic alterations of rivers influencing migrations are among the most significant causes for these declines. However, migratory fishes do not always respond similarly to movement barriers and thus it is necessary to develop models to predict movements of freshwater migratory fishes in the face of anthropogenic alteration. Predicting movement of freshwater fishes is often investigated using statistical packages. However, empirical studies assessing these packages have led to mixed results, questioning its applicability to all taxa. We argue that spatial, temporal, and environmental attributes are more influential for movement of a migratory megafish, the Alligator Gar (Atractosteus spatula), than the current parameters explored in a globally relevant fish movement model.

Methods: This study explored two independent mobile telemetry datasets investigating Alligator Gar movement on the Brazos and Trinity rivers. Environmental associations were investigated to predict Alligator Gar displacement and dispersal using generalized additive models, generalized linear models, and model selection. Leptokurtosis of Alligator Gar populations was also assessed. Predictability of the movement model was tested by comparing observed to model derived stationary and mobile components making up a leptokurtic movement distribution.

Results: Our study suggests that current and antecedent measures of discharge and water temperature are positively correlated with Alligator Gar displacement and dispersal. However, these patterns are only detectable when monthly relocation intervals are explored rather than seasonal scales. Leptokurtosis was observed in both Alligator Gar populations. However, movement was normally distributed (i.e., mesokurtic) under tracking events following high flood pulses. Additionally, predicted Alligator Gar movement was significantly farther under modeled values compared to observed values, in part because the species undergoes cyclical migrations for reproduction that are sensitive to water temperature and discharge.

Discussion: In conclusion, this study provides an alternative framework to assess the movement patterns of migratory fishes, which could be tested on additional freshwater fishes, and suggests that assessing spatial, environmental, and temporal processes simultaneously are necessary to capture the complexities of fish movement which currently are unavailable for the movement model we investigated.

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巨型鱼的荟萃分析：评估多个种群中鳄雀鳝运动的模式和预测因素。

背景：淡水巨型鱼类是商业和生态上最重要的水生生物之一，但它们的分布范围和数量却不成比例地受到威胁。影响迁徙的河流的人为改变是这些减少的最重要原因之一。然而，洄游鱼类并不总是对运动障碍作出类似的反应，因此有必要建立模型来预测淡水洄游鱼类在面对人为改变时的运动。预测淡水鱼的运动通常使用统计软件包进行研究。然而，评估这些包装的实证研究导致了不同的结果，质疑其对所有分类群的适用性。我们认为，空间、时间和环境属性对洄游巨型鱼鳄鳝（Atractosteus spatula）的运动影响比目前在全球相关鱼类运动模型中探索的参数更大。方法：利用两个独立的移动遥测数据集调查鳄鳝在Brazos河和Trinity河上的活动。利用广义加性模型、广义线性模型和模型选择研究了环境关联对鳄鱼Gar迁移和扩散的预测。对鳄黄群体的钩端病进行了评估。运动模型的可预测性是通过比较观察到的模型推导的固定和移动组件组成一个细峰运动分布来测试的。结果：当前和之前的排放和水温措施与鳄鱼鳝的迁移和扩散呈正相关。然而，这些模式只有在探索每月迁移间隔而不是季节性尺度时才能检测到。在两个美洲鳄群体中均观察到钩端病。然而，在高洪水脉冲后的跟踪事件下，运动是正态分布的（即中库）。此外，与观测值相比，预测的鳄雀鳝运动在模型值下明显更远，部分原因是该物种经历了对水温和排放敏感的繁殖周期迁移。讨论：总之，本研究提供了一种评估洄游鱼类运动模式的替代框架，可以在更多的淡水鱼类上进行测试，并表明同时评估空间、环境和时间过程对于捕捉鱼类运动的复杂性是必要的，这是目前我们研究的运动模型所无法获得的。

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

Movement Ecology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics

CiteScore

6.60

自引率

4.90%

发文量

审稿时长

23 weeks

期刊介绍： Movement Ecology is an open-access interdisciplinary journal publishing novel insights from empirical and theoretical approaches into the ecology of movement of the whole organism - either animals, plants or microorganisms - as the central theme. We welcome manuscripts on any taxa and any movement phenomena (e.g. foraging, dispersal and seasonal migration) addressing important research questions on the patterns, mechanisms, causes and consequences of organismal movement. Manuscripts will be rigorously peer-reviewed to ensure novelty and high quality.