深海与浅海：GPS 标签揭示了在沿海海湾觅食的蠵龟运动模式的两极分化。

IF 3.4 1区生物学 Q2 ECOLOGY

Movement Ecology Pub Date : 2024-05-30 DOI:10.1186/s40462-024-00480-y

Margaret M Lamont, Daniel Slone, James P Reid, Susan M Butler, Joseph Alday

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引用次数: 0

摘要

背景：觅食蠵龟运动策略的个体差异已被记录在案，在单个海洋盆地内的规模从几十公里到几百公里不等。个体间使用不同策略可能反映了资源、捕食压力或竞争的变化。在单个沿海海湾内，海龟个体在数公里范围内使用不同觅食策略的情况并不常见。我们使用能够回填细小范围位置的 GPS 标签来记录蠵龟在美国佛罗里达州西北部沿海海湾的移动模式：在佛罗里达州西北部的一个觅食地点为蠵龟安装了与铱星相连的 GPS 标签。过滤遥测数据后，将点位置转换为移动线，然后与原始点文件合并，以确定移动路径并评估移动速度。利用核密度函数确定了家域。通过考察海龟运动与太阳时的比较，研究了昼夜行为变化：结果：在被标记的 11 只海龟中，有 3 只被跟踪的海龟几乎在整个跟踪期间都停留在深水区（约 6 米），而其他所有海龟则主要在夜间定时从深水区（位于边缘和水道）移动到浅滩（约 1-2 米）。三只海龟在水温下降时短期进入墨西哥湾，在墨西哥湾的移动速度大于在海湾的移动速度。海龟表现出一种我们称之为漂移的新行为：这项研究强调了全球定位系统标签存储和重新上传数据的能力对海龟等不经常浮出水面的物种进行精细移动研究的价值。未来在其他蠵龟觅食地点使用这些标签，并同时使用潜水和觅食数据，将为更好地了解海龟的精细运动模式提供有力的工具。

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Deep vs shallow: GPS tags reveal a dichotomy in movement patterns of loggerhead turtles foraging in a coastal bay.

Background: Individual variation in movement strategies of foraging loggerhead turtles have been documented on the scale of tens to hundreds of kilometers within single ocean basins. Use of different strategies among individuals may reflect variations in resources, predation pressure or competition. It is less common for individual turtles to use different foraging strategies on the scale of kilometers within a single coastal bay. We used GPS tags capable of back-filling fine-scale locations to document movement patterns of loggerhead turtles in a coastal bay in Northwest Florida, U.S.A.

Methods: Iridium-linked GPS tags were deployed on loggerhead turtles at a neritic foraging site in Northwest Florida. After filtering telemetry data, point locations were transformed to movement lines and then merged with the original point file to define travel paths and assess travel speed. Home ranges were determined using kernel density function. Diurnal behavioral shifts were examined by examining turtle movements compared to solar time.

Results: Of the 11 turtles tagged, three tracked turtles remained in deep (~ 6 m) water for almost the entire tracking period, while all other turtles undertook movements from deep water locations, located along edges and channels, to shallow (~ 1-2 m) shoals at regular intervals and primarily at night. Three individuals made short-term movements into the Gulf of Mexico when water temperatures dropped, and movement speeds in the Gulf were greater than those in the bay. Turtles exhibited a novel behavior we termed drifting.

Conclusions: This study highlighted the value provided to fine-scale movement studies for species such as sea turtles that surface infrequently by the ability of these GPS tags to store and re-upload data. Future use of these tags at other loggerhead foraging sites, and concurrent with diving and foraging data, would provide a powerful tool to better understand fine-scale movement patterns of sea turtles.

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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.