Reef fish community structure along the southeastern US Atlantic continental shelf break and upper slope appears resistant to increasing lionfish (Pterois volitans/miles) density

IF 1.5 4区 地球科学 Q3 MARINE & FRESHWATER BIOLOGY Bulletin of Marine Science Pub Date : 2021-01-01 DOI:10.5343/bms.2021.0008
N. Bacheler, Christina M. Schobernd, S. Harter, A. W. David, G. Sedberry, G. T. Kellison
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Abstract

Temperate reefs host diverse fish communities along the southeast United States Atlantic coast (SEUS), yet the sustainable management of reef fishes faces myriad challenges. One challenge has been the introduction of Indo-Pacific lionfish (Pterois volitans/miles; hereafter “lionfish”), which have spread quickly throughout the SEUS since their introduction in the late 1900s. We analyzed long-term (2001–2019) video data along the continental shelf break and upper slope (45–125 m deep) of the SEUS to assess changes in lionfish densities over time, characterize reef fish community structure, and determine if native reef fish community structure has changed due to lionfish. Lionfish densities increased substantially during the study, from zero individuals observed in 2001 to approximately 1.2 individuals observed per 100 m3 (and present in all included transects) by 2019, yet no fish community metrics were negatively related to lionfish density. Demersal habitat influenced fish community structure more than any other variable examined, with more individuals and different fish communities occurring on high-relief compared to low-relief hardbottom habitats. The effects of latitude, depth, and bottom temperature on reef fish community structure were generally weak or nonexistent. Although previous empirical work has found that lionfish negatively affect native fishes at small scales (<30 km2), it is unclear why we did not find similar results in our larger-scale study. It may be related to vagaries of the spatial scale of observation, lionfish effects being primarily limited to high-relief habitats, time lags, or lionfish densities not being high enough yet to cause observable ecological effects.
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沿美国东南部大西洋大陆架断裂和上部斜坡的珊瑚鱼群落结构似乎对狮子鱼(Pterois volitans/miles)密度的增加具有抵抗力
温带珊瑚礁在美国东南大西洋沿岸(SEUS)拥有多种鱼类群落,但珊瑚礁鱼类的可持续管理面临着无数挑战。其中一个挑战是引进印度太平洋狮子鱼(Pterois volitans/miles;(以下简称“狮子鱼”),自20世纪后期被引入以来,它们在整个SEUS迅速传播。我们分析了沿大陆架断裂和SEUS上部斜坡(45-125 m深)的长期(2001-2019)视频数据,以评估狮子鱼密度随时间的变化,表征珊瑚鱼群落结构,并确定原生珊瑚鱼群落结构是否因狮子鱼而发生变化。在研究期间,狮子鱼的密度大幅增加,从2001年的零个体观察到到2019年每100立方米观察到约1.2个体(并且存在于所有包括的样带中),但没有鱼类群落指标与狮子鱼密度负相关。底栖栖息地对鱼类群落结构的影响比其他任何变量都要大,与低起伏的硬底栖息地相比,高起伏的硬底栖息地有更多的个体和不同的鱼类群落。纬度、深度和底温对珊瑚礁鱼类群落结构的影响一般较弱或不存在。虽然以前的实证研究发现狮子鱼在小尺度(<30 km2)对本地鱼类产生负面影响,但尚不清楚为什么我们在更大规模的研究中没有发现类似的结果。这可能与观察的空间尺度的变幻莫测有关,狮子鱼的影响主要局限于高地形栖息地,时间滞后,或者狮子鱼的密度还不够高,不足以引起可观察到的生态效应。
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来源期刊
Bulletin of Marine Science
Bulletin of Marine Science 地学-海洋学
CiteScore
2.90
自引率
6.70%
发文量
25
审稿时长
6-12 weeks
期刊介绍: The Bulletin of Marine Science is a hybrid open access journal dedicated to the dissemination of research dealing with the waters of the world’s oceans. All aspects of marine science are treated by the Bulletin of Marine Science, including papers in marine biology, biological oceanography, fisheries, marine policy, applied marine physics, marine geology and geophysics, marine and atmospheric chemistry, meteorology, and physical oceanography. In most regular issues the Bulletin features separate sections on new taxa, coral reefs, and novel research gear, instrument, device, or system with potential to advance marine research (“Research Tools in Marine Science”). Additionally, the Bulletin publishes informative stand-alone artwork with accompany text in its section "Portraits of Marine Science."
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