评估多年生两栖鱼类生活阶段内和生活阶段间的密度动态管理。

IF 4.3 2区 环境科学与生态学 Q1 ECOLOGY Ecological Applications Pub Date : 2024-10-03 DOI:10.1002/eap.3038
Ben R J Crichton, Michael J H Hickford, Angus R McIntosh, David R Schiel
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引用次数: 0

摘要

依赖密度的补偿过程(DD)是基本种群人口统计学的基础,在渔业管理中发挥着不可或缺的作用。然而,DD 过程通常只针对特定生命阶段进行评估,这可能会导致对种群限制的误导性评估。在此,我们评估了生命阶段内和生命阶段间的 DD 相互作用在形成具有开放种群的多年生淡水鱼种群动态中的相对作用。具体而言,我们在新西兰南岛五条捕捞洄游后代的溪流和三条禁捕("封闭")溪流中监测了两栖带鱼(Galaxias fasciatus)、巨带鱼(Galaxias argenteus)和短颌带鱼(Galaxias postvectis)的种群,为期两年。利用标记再捕获数据,我们研究了捕捞是否改变了 "小"(≤1岁的非领地新鱼类)和 "大"(大于1岁的领地鱼类)kōkopu大小等级的密度,以及在控制其他混杂因素(如栖息地特征)的情况下,随后的密度变化如何影响每个等级的表观存活率和生长率。我们发现,禁渔区的小型 Kōkopu 生物量要大得多,尤其是在两个月的捕捞季节之后。尽管有更多的新生物涌入,但在物种水平上,或在不同溪流类型的组合中,大型 Kōkopu 的生物量并无差异。这表明,尽管捕捞后幼体减少了新生物涌入成鱼栖息地,但并没有证据表明成鱼种群内部存在新生物限制。相反,Kōkopu的人口结构受到生命阶段内和生命阶段间DD竞争和捕食的影响。较大的大型鱼类密度在调节不同等级kōkopu的生存、生长和/或存在方面起着关键作用。相反,较高的小鱼密度对机会性和食虫同系鱼的生长有积极影响,这可能分别是由于食人和觅食行为的改变。我们的研究详细说明了生活阶段内和生活阶段间DD相互作用在调节多年生洄游淡水鱼类种群动态中的重要作用,即使在新鱼和幼鱼供应受到抑制的种群中也是如此。我们强调了渔业管理的重要性,即在不同的生命阶段之间,实施新鱼种的依赖性和复杂的相互作用,以避免有害的DD反应,确保种群的持久性。
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Evaluating intra- and inter-life stage density-dependent dynamics for management of perennial amphidromous fish.

Compensatory density-dependent (DD) processes play an integral role in fisheries management by underpinning fundamental population demographics. However, DD processes are often assessed only for specific life stages, likely resulting in misleading evaluations of population limitations. Here, we assessed the relative roles of intra- and inter-life stage DD interactions in shaping the population dynamics of perennial freshwater fish with demographically open populations. Specifically, we monitored populations of amphidromous banded kōkopu (Galaxias fasciatus), giant kōkopu (Galaxias argenteus), and shortjaw kōkopu (Galaxias postvectis) in five streams where migratory post-larvae are fished and in three no-take ("closed") streams located on New Zealand's South Island for two years. Using mark-recapture data, we investigated whether fishing altered densities of "small" (non-territorial recruits ≤1-year-old) and "large" (territorial fish >1-year-old) kōkopu size classes, and how subsequent density shifts affected the apparent survival and growth of each class while controlling for other confounding factors (e.g., habitat characteristics). We found that closed areas had substantially greater biomass of small kōkopu, particularly following the two-month fishing season. Despite this greater influx of recruits, there was no difference in the biomass of large kōkopu at the species level, or as a combined assemblage between stream types. This indicated that although fishing of post-larvae reduced recruit influxes into adult habitats, there was no subsequent evidence of recruitment-limitation within adult populations. Instead, kōkopu demographics were underpinned by intra- and inter-life stage DD competition and predation. Greater large fish densities played a key role in regulating the survival, growth, and/or presence of various kōkopu classes. In contrast, greater small fish densities had positive effects on the growth of opportunistic and insectivorous congeners, likely due to cannibalism and altered foraging behaviors, respectively. Our study details the prominent role of intra- and inter-life stage DD interactions in regulating the population dynamics of perennial migratory freshwater fishes, even in populations with inhibited recruit and juvenile availability. We emphasize the importance for fisheries management to implement recruitment dependencies and complex interactions between distinct life stages to avoid deleterious DD responses and ensure population persistence.

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来源期刊
Ecological Applications
Ecological Applications 环境科学-环境科学
CiteScore
9.50
自引率
2.00%
发文量
268
审稿时长
6 months
期刊介绍: The pages of Ecological Applications are open to research and discussion papers that integrate ecological science and concepts with their application and implications. Of special interest are papers that develop the basic scientific principles on which environmental decision-making should rest, and those that discuss the application of ecological concepts to environmental problem solving, policy, and management. Papers that deal explicitly with policy matters are welcome. Interdisciplinary approaches are encouraged, as are short communications on emerging environmental challenges.
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