Reproduction of grass carp (Ctenopharyngodon idella) in the Maumee River, Ohio: Part 2—Optimal river conditions for egg and larval drift

IF 2.4 3区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Jessica Z. LeRoy , Henry F. Doyle , P. Ryan Jackson , Charles V. Cigrand
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Abstract

This study uses a one-dimensional steady-state hydraulic model and the Fluvial Egg Drift Simulator (FluEgg) to model the drift and dispersion of grass carp eggs and larvae in the Maumee River, Ohio, for 180 scenarios representing different combinations of 10 river flows, 6 water temperatures, and 3 spawning locations. The FluEgg simulations were used to quantify in-river suspended hatching rates (the percentage of eggs that hatch within the river and in suspension) and in-river larval retention rates (the percentage of larvae that reach the gas bladder inflation stage within the river after hatching in suspension), and identify which scenarios produce the highest likelihood of recruitment. The simulations indicate that at low flows, in-river suspended hatching and larval retention rates in the Maumee River are limited by the capacity of the flow to keep fertilized eggs in suspension, whereas at high flows, the limiting factor is the distance available for the eggs/larvae to drift in the river. A wide range of scenarios result in eggs hatching within the river, but all larvae drift into Maumee Bay prior to the gas bladder inflation stage when flows exceed the mean annual flow. The simulations were assessed in the context of the hydraulic conditions that trigger spawning and maximize egg fertilization and the nursery habitat requirements for larval grass carp. The results indicate that the Maumee River, although suitable for grass carp spawning, may not be an ideal setting for recruitment unless Maumee Bay provides adequate nursery habitat for larvae.

俄亥俄州毛米河草鱼(Ctenopharyngodon idella)的繁殖:第二部分-卵和幼体漂流的最佳河流条件
本研究使用一维稳态水力模型和冲积卵漂流模拟器(FluEgg),模拟俄亥俄州毛米河中草鱼卵和幼体的漂流和扩散情况,共 180 种情景,分别代表 10 种河流流量、6 种水温和 3 个产卵地点的不同组合。FluEgg 模拟用于量化河内悬浮孵化率(在河内和悬浮状态下孵化的卵的百分比)和河内幼虫滞留率(在悬浮状态下孵化后在河内达到气囊充气阶段的幼虫的百分比),并确定哪种方案产生的繁殖可能性最大。模拟结果表明,在低流量情况下,毛米河的河内悬浮孵化率和幼虫保留率受到水流将受精卵保持在悬浮状态的能力的限制,而在高流量情况下,限制因素则是卵/幼虫在河中漂流的距离。在各种情况下,受精卵都会在河中孵化,但所有幼体都会在气囊膨胀阶段之前漂流到毛米湾,此时的流量会超过年平均流量。对模拟结果进行评估时,考虑到了触发产卵和使鱼卵受精最大化的水力条件,以及草鱼幼体对育苗栖息地的要求。结果表明,尽管毛米河适合草鱼产卵,但除非毛米湾为幼鱼提供足够的育苗栖息地,否则毛米河可能不是草鱼繁殖的理想环境。
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
Journal of Great Lakes Research
Journal of Great Lakes Research 生物-海洋与淡水生物学
CiteScore
5.10
自引率
13.60%
发文量
178
审稿时长
6 months
期刊介绍: Published six times per year, the Journal of Great Lakes Research is multidisciplinary in its coverage, publishing manuscripts on a wide range of theoretical and applied topics in the natural science fields of biology, chemistry, physics, geology, as well as social sciences of the large lakes of the world and their watersheds. Large lakes generally are considered as those lakes which have a mean surface area of >500 km2 (see Herdendorf, C.E. 1982. Large lakes of the world. J. Great Lakes Res. 8:379-412, for examples), although smaller lakes may be considered, especially if they are very deep. We also welcome contributions on saline lakes and research on estuarine waters where the results have application to large lakes.
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