Growth and longevity of the endangered freshwater pearl mussel (Margaritifera margaritifera): Implications for conservation and management

IF 2.5 3区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Aquatic Conservation-Marine and Freshwater Ecosystems Pub Date : 2024-06-14 DOI:10.1002/aqc.4205
Sabrina Nykänen, Jouni Taskinen, Mahsa Hajisafarali, Anna Kuparinen
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Abstract

Key life-history data, such as growth and age, are necessary to effectively manage and conserve threatened freshwater mussel species. Traditionally growth and age studies require large yet destructive sample sizes covering all age classes. Such methods pose a risk to populations of conservation concern, and therefore, alternative methods that need only limited sample sizes are necessitated to prevent further threats to such populations. We applied retrospective shell growth at age reconstructions to 98 critically endangered freshwater pearl mussel (FPM) individuals from 34 populations across Finland and Sweden, enabling the use of extremely small sample sizes (n = 1–6 per population). We compared the performance of six different growth models with the reconstructed size-at-age data across FPM juvenile (<20 years old) and adult life stages. The growth reconstruction model showed reasonable skill in reconstructing FPM growth patterns. The von Bertalanffy model showed to be a good general descriptor of growth for FPM, but it systematically underestimated the asymptotic size. The power law model was the most accurate in estimating juvenile growth (lowest deviances from the size-at-age data). FPM showed great variability in longevity (Amax = 54–254 years) and growth constant k (0.018–0.057 year−1). Our results show that reasonable estimates of growth can be attained even when sample sizes are extremely limited. The results can be further applied to gain knowledge on the population's age structure, size at maturation, and recovery potential. The methodology is applicable to other freshwater mussel species of conservation concern.

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濒危淡水珍珠贝(Margaritifera margaritifera)的生长和寿命:对保护和管理的影响
关键的生命史数据,如生长和年龄,对于有效管理和保护受威胁的淡水贻贝物种十分必要。传统的生长和年龄研究需要大量涵盖所有龄级的破坏性样本。这种方法会给受保护的种群带来风险,因此有必要采用只需有限样本量的替代方法,以防止此类种群受到进一步威胁。我们对来自芬兰和瑞典 34 个种群的 98 个极度濒危淡水珍珠贻贝(FPM)个体进行了年龄贝壳生长回溯重建,从而实现了极小样本量(每个种群 1-6 个样本)的使用。我们比较了六种不同的生长模型与重建的淡水珠蚌幼体(20 岁)和成体生命阶段年龄大小数据的性能。生长重建模型在重建 FPM 生长模式方面表现出了合理的技能。von Bertalanffy 模型显示出是一种很好的蛙类生长的一般描述方法,但它系统性地低估了渐进大小。幂律模型在估计幼体生长方面最为准确(与年龄大小数据的偏差最小)。幂律模型在寿命(Amax = 54-254 年)和生长常数 k(0.018-0.057 年-1)方面表现出很大的差异性。我们的研究结果表明,即使样本量极其有限,也可以对生长进行合理的估计。这些结果可进一步用于了解种群的年龄结构、成熟时的大小和恢复潜力。该方法适用于其他受保护的淡水贻贝物种。
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来源期刊
Aquatic Conservation-Marine and Freshwater Ecosystems
Aquatic Conservation-Marine and Freshwater Ecosystems 环境科学-海洋与淡水生物学
CiteScore
5.50
自引率
4.20%
发文量
143
审稿时长
18-36 weeks
期刊介绍: Aquatic Conservation: Marine and Freshwater Ecosystems is an international journal dedicated to publishing original papers that relate specifically to freshwater, brackish or marine habitats and encouraging work that spans these ecosystems. This journal provides a forum in which all aspects of the conservation of aquatic biological resources can be presented and discussed, enabling greater cooperation and efficiency in solving problems in aquatic resource conservation.
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