多年代水下调查显示海龟数量下降

IF 2.8 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Julia Saltzman, Alex R. Hearn, Mariana M. P. B. Fuentes, Todd Steiner, Randall Arauz, Catherine Macdonald, Maike Heidemeyer, Easton R. White
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引用次数: 0

摘要

海龟是一类濒临灭绝的海洋巨型动物,特别容易受到人为压力的影响。大多数关于海龟的长期研究都是基于筑巢调查,重点是卵、幼体和筑巢雌龟的数量。然而,我们对海洋环境中未成年海龟和成年海龟的长期数量趋势了解较少。为了弥补这一数据缺口,我们研究了哥斯达黎加科科斯岛 35,000 次水下目测普查(UVC)潜水(1993-2019 年)的记录和短期水下海龟调查数据(2009-2014 年)。在水下目测普查期间,UnderSea Hunter 训练有素的潜水长记录了对两种海龟--绿海龟 Chelonia mydas 和玳瑁 Eretmochelys imbricata 的观察结果。我们的短期水下调查显示,科科斯群岛的大多数海龟都是绿海龟,但未成年和成熟的绿海龟在科科斯群岛都有出现。我们使用分层建模法分析了长期的 UVC 数据,并模拟出每年潜水观察到的海龟相对丰度下降了 26%。我们的模型还揭示了虎鲨与海龟之间潜在的相互作用,发现在潜水过程中每多出现一条虎鲨,海龟的预测相对数量就会减少 43%。最后,我们的模型显示了环境变化对海龟相对丰度的影响;海面温度(SST)每升高 1°C,海龟的预测相对丰度就会降低 7%。我们的研究结果表明,海龟对长期的环境和海洋变化很敏感,它们可能会避开某些区域,以减少与虎鲨的接触。鉴于我们的研究区域已经受到保护,因此需要更加关注成年海龟在东热带太平洋移动过程中的保护问题。我们的工作还强调了长期水下调查对监测成年海龟的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multidecadal underwater surveys reveal declines in marine turtles

Multidecadal underwater surveys reveal declines in marine turtles

Marine turtles are a group of imperiled marine megafauna particularly vulnerable to anthropogenic stressors. Most long-term studies of marine turtles are based on nesting surveys which focus on numbers of eggs, hatchlings, and nesting females. However, we know less about long-term abundance trends of immature and adult turtles in the marine environment. To address this data gap, we examined records from 35,000 underwater visual census (UVC) dives (1993–2019) and short-term in-water turtle survey data (2009–2014) at Cocos Island, Costa Rica. During UVCs, trained divemasters from UnderSea Hunter recorded observations of two species of marine turtles—green Chelonia mydas and hawksbill Eretmochelys imbricata. Our short-term in-water surveys revealed that most turtles at Cocos are greens, but both immature and mature greens occur at Cocos. We analyzed long-term UVC data using a hierarchical modeling approach and we modeled a 26% decrease in the relative abundance of turtles observed on dives each year. Our model also revealed potential interactions between tiger sharks and turtles, finding that for each additional tiger shark present during a dive, the predicted relative abundance of turtles decreased by 43%. Lastly, our model suggested the influence of environmental variation on marine turtle relative abundance; a 1°C increase in sea surface temperature (SST) decreased the predicted relative abundance of turtles by 7%. Our results suggest that marine turtles are sensitive to long-term environmental and oceanographic changes, and potentially avoid certain areas to reduce exposure to tiger sharks. Given our study area is already protected, there needs to be more focus on protecting adult turtles during their movements across the Eastern Tropical Pacific. Our work also highlights the importance of long-term underwater surveys to monitor adult turtles.

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来源期刊
Conservation Science and Practice
Conservation Science and Practice BIODIVERSITY CONSERVATION-
CiteScore
5.50
自引率
6.50%
发文量
240
审稿时长
10 weeks
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