一种小型鲦鱼的运动模式表明,它在一条支离破碎的沙漠河流中游牧。

IF 3.4 1区 生物学 Q2 ECOLOGY
Martinique J Chavez, Phaedra Budy, Casey A Pennock, Thomas P Archdeacon, Peter D MacKinnon
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引用次数: 0

摘要

背景:栖息地之间的自由移动对于鱼类获取零散分布的资源并完成其生命周期至关重要,但美国西南部的许多河流景观因水坝和排水而支离破碎。濒危的格兰德河银鲦(Hybognathus amarus,RGSM)在其原分布区(约5%)支离破碎的残余区域内生存,其运动生态学研究不足:从2019年到2022年,我们使用固定式和移动式天线跟踪了孵化育成的RGSM的移动情况。我们量化了在大坝上方和下方释放的RGSM的移动概率和移动总距离。然后,我们评估了两种流行的河流运动理论(即受限运动范式(RMP)和定殖周期假说(CCH))对RGSM运动模式的解释程度:我们检测到 36.8% 被释放的 RGSM(n = 37 215)至少有一次移动。无论是静止的个体(1.7-5.9 米)还是移动的个体(30.3-77.8 米),其移动都是椭圆形的,且大大超过了根据 RMP 的预期。平均而言,红海蓑鲉在一年内有 75 天被探测到,总移动距离为 12.2 rkm。红海蓑鲉的最大移动距离为 103 rkm。同样,我们观察到探测到的活动范围大小呈多模式分布,平均探测到的活动范围为 2.4 rkm,最大探测到的活动范围为 78.2 rkm。我们发现,正如 CCH 所预期的那样,几乎不存在偏向上游的运动,大多数运动(74%)都是向下游进行的:我们的数据表明,红海豚具有很强的移动能力,能够进行长距离移动。我们的研究结果支持游牧运动模式和明显的漂移悖论,这与最近对其他中上层播散产卵小鱼的研究相吻合。要解决漂流悖论问题,可能需要进一步对该物种生活史的不同方面进行有针对性的研究。通过量化 RGSM 的运动,可以深入了解该物种的运动生态,并有助于确定恢复工作的适当规模。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Movement patterns of a small-bodied minnow suggest nomadism in a fragmented, desert river.

Background: Unfettered movement among habitats is crucial for fish to access patchily distributed resources and complete their life cycle, but many riverscapes in the American Southwest are fragmented by dams and dewatering. The endangered Rio Grande silvery minnow (Hybognathus amarus, RGSM) persists in a fragmented remnant of its former range (ca. 5%), and its movement ecology is understudied.

Methods: We tracked movements of hatchery-reared RGSM, tagged with passive integrated transponder tags, using stationary and mobile antennas from 2019 to 2022. We quantified probability of movement and total distance moved by RGSM released above and below a dam. We then assessed how well two prevailing riverine movement theories (i.e., restricted movement paradigm [RMP] and colonization cycle hypothesis [CCH]) explained RGSM movement patterns.

Results: We detected 36.8% of released RGSM (n = 37,215) making at least one movement. Movements were leptokurtic and substantially greater than expected based on the RMP for both stationary (1.7-5.9 m) and mobile (30.3-77.8 m) individuals. On average, RGSM were detected at large for 75 days and moved a total of 12.2 rkm within a year. The maximum total distance moved by RGSM was 103 rkm. Similarly, we observed a multimodal distribution of detected range sizes with a mean detected range of 2.4 rkm and a maximum detected range of 78.2 rkm. We found little support for an upstream movement bias, as expected under the CCH, and most movements (74%) were directed downstream.

Conclusions: Our data suggest RGSM are highly mobile, with the ability to make long-distance movements. Neither movement theory adequately described movement patterns of RGSM; instead, our findings support a nomadic movement pattern and an apparent drift paradox matching recent studies of other pelagic-broadcast spawning minnows where populations persist upstream despite experiencing downstream drift as larvae. Resolution of the drift paradox may be achieved through further, targeted studies into different aspects of the species' life history. Quantification of RGSM movement provides crucial insights into the species' movement ecology and may help define the appropriate scale of recovery efforts.

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来源期刊
Movement Ecology
Movement Ecology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
6.60
自引率
4.90%
发文量
47
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.
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