University of Maryland Center for Environmental Science, Chesapeake Biological Laboratory, Solomons, Maryland, United States of America.
Massachusetts Division of Marine Fisheries, Gloucester, Massachusetts, United States of America.
PLoS One. 2020 Nov 25;15(11):e0242797. doi: 10.1371/journal.pone.0242797. eCollection 2020.
Multiple spawning run contingents within the same population can experience varying demographic fates that stabilize populations through the portfolio effect. Multiple spawning run contingents (aka run timing groups) are reported here for the first time for striped bass, an economically important coastal species, which is well known for plastic estuarine and shelf migration behaviors. Adult Hudson River Estuary striped bass (n = 66) were tagged and tracked with acoustic transmitters from two known spawning reaches separated by 90 km. Biotelemetry recaptures for two years demonstrated that each river reach was associated with separate contingents. Time series of individual spawning phenologies were examined via nonparametric dynamic time warping and revealed two dominant time series centroids, each associated with a separate spawning reach. The lower spawning reach contingent occurred earlier than the higher reach contingent in 2017 but not in 2018. The majority (89%) of returning adults in 2018 showed the same contingent behaviors exhibited in 2017. Spawning contingents may have been cued differently by temperatures, where warming lagged 1-week at the higher reach in comparison to the lower reach. The two contingents exhibited similar Atlantic shelf migration patterns with strong summer fidelity to Massachusetts Bay and winter migrations to the southern US Mid-Atlantic Bight. Still, in 2017, differing times of departure into nearby shelf waters likely caused the early lower reach contingent to experience substantially higher mortality than the later upper reach contingent. Anecdotal evidence suggests that higher fishing effort is exerted on the early-departing individuals as they first enter shelf fisheries. Thus, as in salmon, multiple spawning units can lead to differential demographic outcomes, potentially stabilizing overall population dynamics.
同一群体中的多次产卵群体可能会经历不同的人口命运,从而通过投资组合效应稳定种群。这里首次报道了条纹鲈鱼的多次产卵群体(又名产卵时间组),条纹鲈鱼是一种经济上重要的沿海物种,以其在河口和陆架的迁徙行为而闻名。对来自两个已知产卵区的 90 公里的哈德逊河口条纹鲈鱼(n=66)进行了标记和声学传输追踪。两年的生物遥测再捕获表明,每个河流区域都与独立的群体有关。通过非参数动态时间规整检查个体产卵物候的时间序列,揭示了两个主要的时间序列质心,每个质心都与一个单独的产卵区相关。2017 年,较低的产卵区群体比较高的产卵区群体更早产卵,但 2018 年并非如此。2018 年返回的大多数成年个体表现出与 2017 年相同的群体行为。产卵群体可能受到温度的不同提示,在较高的区域,温度滞后于较低的区域 1 周。这两个群体表现出相似的大西洋陆架迁徙模式,夏季对马萨诸塞湾有强烈的忠诚度,冬季迁徙到美国中大西洋湾。尽管如此,在 2017 年,由于进入附近陆架水域的时间不同,早期的低区群体经历了比后期的高区群体高得多的死亡率。轶事证据表明,由于它们首先进入陆架渔业,早期离开的个体受到更高的捕捞压力。因此,与鲑鱼一样,多个产卵单位可能导致不同的人口结果,从而可能稳定整体人口动态。
