Integrating climate change and management scenarios in population models to guide the conservation of marine turtles

IF 1.5 4区地球科学 Q3 MARINE & FRESHWATER BIOLOGY

Bulletin of Marine Science Pub Date : 2022-01-01 DOI:10.5343/bms.2021.0033

M. Jensen, Tomoharu Eguchi, N. FitzSimmons, M. McCarthy, M. Fuentes, Mark Hamann, C. Limpus, I. Bell, M. Read

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引用次数: 8

Abstract

The globally significant green turtle (Chelonia mydas) population in the northern Great Barrier Reef is threatened by anthropogenic pressures, including climate change, habitat degradation, and indigenous harvest. Evidence suggesting the population is producing an extreme proportion of females due to increasing temperatures, coupled with temperature-dependent sex determination, is concerning. In response, and to explore management options, we developed two density-independent, stochastic stage-structured metapopulation models: a “Moderate Climate Model” and an “Extreme Climate Model”. The models differ based on climate change projections by incorporating increased female hatchling sex ratios due to global warming and loss of nesting habitat due to sea level rise. The models were based on demographic data from field studies at major rookeries and regional foraging grounds and allowed for variation in operational sex ratios, management actions, and levels of indigenous harvest. Under the Moderate Climate Model, population size increased but could be vulnerable to overharvest of adult females. If overharvest was indicated, the harvest of a proportion of subadults rather than only adult females reduced population declines. Under the Extreme Climate Model, there was a steep population decline even without any harvest, and harvesting subadults accelerated population decline due to the inclusion of subadult males. In the Extreme Climate Model, reversal of population decline depended on male turtles mating with an increased number of females, or management actions to substantially increase the number of male hatchlings produced.

查看原文本刊更多论文

在种群模型中整合气候变化和管理情景，以指导海龟保护

大堡礁北部全球重要的绿海龟(Chelonia mydas)种群受到人为压力的威胁，包括气候变化、栖息地退化和本土捕捞。有证据表明，由于气温升高，再加上温度依赖性的性别决定，种群中产生的雌性比例过高，这令人担忧。为此，为了探索管理方案，我们开发了两个密度独立的随机阶段结构元种群模型:“温和气候模型”和“极端气候模型”。这些模型的不同之处在于对气候变化的预测，其中包括由于全球变暖和海平面上升导致的筑巢栖息地减少而导致的雌性幼雏性别比增加。这些模型基于在主要栖息地和区域觅食地进行的实地研究所得的人口统计数据，并考虑到实际性别比、管理行动和本地收获水平的变化。在温和气候模式下，种群规模增加，但容易受到成年雌性过度捕捞的影响。如果过度捕捞，一定比例的亚成虫而不是仅仅成年雌虫的捕捞减少了种群的下降。在极端气候模式下，即使没有收获，种群数量也会急剧下降，而亚成虫的收获由于包含亚成虫雄虫而加速了种群数量的下降。在极端气候模型中，种群数量下降的逆转取决于雄性海龟与雌性海龟交配数量的增加，或者管理措施大幅增加雄性海龟的孵化数量。

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

Bulletin of Marine Science 地学-海洋学

CiteScore

2.90

自引率

6.70%

发文量

审稿时长

6-12 weeks

期刊介绍： The Bulletin of Marine Science is a hybrid open access journal dedicated to the dissemination of research dealing with the waters of the world’s oceans. All aspects of marine science are treated by the Bulletin of Marine Science, including papers in marine biology, biological oceanography, fisheries, marine policy, applied marine physics, marine geology and geophysics, marine and atmospheric chemistry, meteorology, and physical oceanography. In most regular issues the Bulletin features separate sections on new taxa, coral reefs, and novel research gear, instrument, device, or system with potential to advance marine research (“Research Tools in Marine Science”). Additionally, the Bulletin publishes informative stand-alone artwork with accompany text in its section "Portraits of Marine Science."