Growth and Recruitment of Nonnative Smallmouth Bass along the Upstream Edge of Its Riverine Distribution

IF 0.5 4区 环境科学与生态学 Q4 ECOLOGY
Erika S. Rubenson, J. Olden
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引用次数: 3

Abstract

Abstract Nonnative species have been widely introduced, and once established, often exhibit secondary spread to new areas. For instance, after its initial introduction in the John Day River, Oregon, smallmouth bass (Micropterus dolomieu) has expanded upstream into headwater habitats. Recruitment is a key component of successful range expansion and has been highlighted as a potential bottleneck to continued expansion by smallmouth bass. We explored growth, body lengths, and survival of young-of-the-year (YOY) smallmouth bass in the North Fork John Day River to better understand the recruitment dynamics near its invasion boundary. In 2014–2015, we collected YOY across the upstream 63 km of smallmouth bass distribution at the end of the first growth season and after a winter starvation period. We found that growth, body length, and survival showed varied correspondence with patterns in water temperature. Specifically, body lengths matched temperature predictions in upstream sites (after accounting for spawning delays) where smallmouth bass density is low. By contrast, individuals achieved smaller than predicted body lengths in downstream sites where density is relatively high. Model selection revealed that temperature and age ≥ 1 density were the most important predictors of body length. Additionally, individuals predicted to be too small to survive a winter starvation period were present. Our findings reveal nuanced recruitment dynamics at the invasion boundary, where departures from temperature-based predictions point to multiple mechanisms affecting growth and survival. Understanding mechanisms operating at invasion boundaries may help develop management strategies to prevent future spread of smallmouth bass into headwater salmon habitat.
非本地Smallmouth Bass在其河流分布上游边缘的生长和招募
摘要非本地物种已被广泛引入,一旦建立,通常会表现出向新地区的二次传播。例如,在俄勒冈州约翰戴河首次引入后,小嘴鲈鱼(Micropterus dolomieu)已向上游扩展到源头栖息地。招聘是成功扩大范围的关键组成部分,并被强调为小嘴鲈鱼持续扩张的潜在瓶颈。我们探索了北福克约翰-戴河年度最佳小嘴鲈鱼的生长、体长和存活情况,以更好地了解其入侵边界附近的招募动态。2014-2015年,我们在第一个生长季节结束和冬季饥饿期后,在上游63公里的小嘴鲈鱼分布区收集了YOY。我们发现,生长、体长和存活率与水温模式有不同的对应关系。具体来说,在小口鲈鱼密度较低的上游地区(考虑到产卵延迟后),身体长度与温度预测相匹配。相比之下,在密度相对较高的下游地区,个体的体长比预测的要小。模型选择表明,温度和年龄≥1的密度是预测体长的最重要因素。此外,还出现了被预测为太小而无法度过冬季饥饿期的个体。我们的发现揭示了入侵边界的细微招募动态,与基于温度的预测不同,表明了影响生长和生存的多种机制。了解入侵边界的机制可能有助于制定管理策略,以防止小嘴鲈鱼未来扩散到源头鲑鱼栖息地。
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来源期刊
Northwest Science
Northwest Science 环境科学-生态学
CiteScore
1.30
自引率
0.00%
发文量
23
审稿时长
>36 weeks
期刊介绍: The pages of Northwest Science are open to original and fundamental research in the basic, applied, and social sciences. All submissions are refereed by at least two qualified peer reviewers. Papers are welcome from authors outside of the Pacific Northwest if the topic is suitable to our regional audience.
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