Itakura Hikaru, Wakiya Ryoshiro
Chesapeake Biological Laboratory, University of Maryland Center for Environmental Science, Solomons, MD, United States of America.
Graduate School of Science, Kobe University, Kobe, Hyogo, Japan.
PeerJ. 2020 Nov 3;8:e10187. doi: 10.7717/peerj.10187. eCollection 2020.
Although anguillid eel populations have decreased remarkably in recent decades, few detailed ecological studies have been conducted on tropical eels such as the giant mottled eel whose range extends across the whole Indo-Pacific. This species was studied throughout the entire 0.5 km mainstem reaches of Oganeku River on the subtropical Amami-Oshima Island of Japan over a two-year period using four sampling periods to understand its habitat preference, early life-stage dispersal process, movements, and annual growth using a mark-recapture experiment conducted with quantitative electrofishing. A total of 396 juvenile growth-phase eels were caught and tagged, with 48 individuals being recaptured at least once. Their density irrespective of size of eels was most strongly determined by distance from the river mouth, followed by riverbank type according to random forest models. Eel density decreased with increasing distance from the freshwater tidal limit located about 100-150 m from the river mouth. Eels preferred vegetated riverbanks, while they avoided those of concrete and sand. The density of small eels (total length: TL < 240 mm) was also associated with depth and velocity, with small eels tending to prefer riffle or run habitats. In contrast, large eels (TL ≥ 240 mm) were found in habitats of any depth and velocity. The TL of eels had a minimum peak at around the tidal limit, and it increased with increasing distance from the tidal limit. The observed density and size gradients of eels in relation to the distance from the river mouth suggested that initially recruited to freshwater tidal limit areas and then dispersed in both downstream and upstream directions. The growth rate of eels varied greatly among individuals that were at large for various periods of time and ranged from 0 to 163.2 mm/year (mean ± SD of 31.8 ± 31.0 mm/year). Of the recaptured eels, 52.1% were recaptured in a section that was different from the original capture section, and their mean ± SD distance travelled was 46.5 ± 72.5 m (median = 20 m). 47.9% of the eels were recaptured from the original section of capture (i.e., <10 m distances travelled), suggesting that they had strong fidelity to specific habitats with limited movements. The distance travelled of eels that had moved was greater for small eels (range = 10-380 m; mean ± SD = 84.4 ± 121.9 m) than large individuals (range = 10-120 m; mean ± SD = 30.9 ± 31.0 m), which indicates that the mobility of the eels declines as they grow. This is the first clear detailed documentation of the spatial distribution, growth, and movements of tropical eels in a small river system in relation to environmental conditions that provides an example of how future studies can be conducted in other areas to understand how conservation efforts can be most efficiently targeted for maximum success.
尽管近几十年来鳗鲡种群数量显著减少,但针对热带鳗鱼,如分布于整个印度-太平洋地区的巨斑花鳗,却鲜有详细的生态学研究。本研究在日本亚热带奄美大岛的小兼久川全长0.5公里的干流区域,历经两年时间,分四个采样期,通过定量电捕鱼进行标记重捕实验,以了解巨斑花鳗的栖息地偏好、幼体早期扩散过程、移动情况和年度生长。共捕获并标记了396条幼鳗生长阶段的鳗鱼,其中48条至少被重新捕获过一次。根据随机森林模型,无论鳗鱼大小,其密度受距河口距离的影响最大,其次是河岸类型。鳗鱼密度随着距河口约100 - 150米处的淡水潮汐界限距离增加而降低。鳗鱼更喜欢有植被的河岸,而避开混凝土和沙地河岸。小鳗鱼(全长:TL < 240毫米)的密度也与深度和流速有关,小鳗鱼倾向于偏好浅滩或径流栖息地。相比之下,大鳗鱼(TL≥240毫米)在任何深度和流速的栖息地都有发现。鳗鱼的全长在潮汐界限附近有一个最小峰值,并随着距潮汐界限距离的增加而增加。观察到的鳗鱼密度和大小与距河口距离的梯度表明,它们最初在淡水潮汐界限区域被招募,然后向下游和上游两个方向扩散。鳗鱼个体之间的生长速率差异很大,在不同时间段内,生长速率范围为0至163.2毫米/年(平均值±标准差为31.8±31.0毫米/年)。在重新捕获的鳗鱼中,52.1%是在与原始捕获区域不同的区域被重新捕获的,其平均移动距离±标准差为46.5±72.5米(中位数 = 20米)。47.9%的鳗鱼是在原始捕获区域被重新捕获的(即移动距离<10米),这表明它们对特定栖息地有很强的忠诚度,移动有限。小鳗鱼(移动距离范围 = 10 - 380米;平均值±标准差 = 84.4±121.9米)移动的距离比大鳗鱼(移动距离范围 = 10 - 120米;平均值±标准差 = 30.9±31.0米)更大,这表明鳗鱼的移动性随着生长而下降。这是首次对热带鳗鱼在一个小河流系统中的空间分布、生长和移动情况进行的清晰详细记录,并与环境条件相关联,为未来在其他地区进行研究提供了一个范例,以了解如何最有效地开展保护工作以取得最大成功。
