The Organisms Living Around Energized Submarine Power Cables, Pipe, and Natural Sea Floor in the Inshore Waters of Southern California

Bulletin (Southern California Academy of Sciences) Pub Date : 2017-08-24 DOI:10.3160/soca-116-02-61-87.1

M. Love, M. Nishimoto, Scott Clark, M. McCrea, A. S. Bull

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引用次数: 5

Abstract

Abstract Between 1 February 2012 and 26 February 2014 using scuba, we surveyed the fishes, invertebrates, and macrophytes living on two energized submarine power cables, an adjacent pipe, and nearby natural habitat in southern California at bottom depths of 10–11 m and 13–14 m. Over the course of the study, average electromagnetic field (EMF) levels at the two cables (A and B) were statistically similar (Cable A = 73.0µT, Cable B = 91.4µT) and were much higher at these two cables than at either the pipe (average = 0.5µT) or sand (0µT). Overall, our study demonstrated that 1) the fish and invertebrate communities on cables, pipe, and natural habitat strongly overlapped and 2) there were no differences between the shallower and deeper fish and invertebrate communities. We saw no evidence that fishes or invertebrates are either preferentially attracted to, or repelled by, the EMF emitted by the cables. Any differences in the fish or invertebrate densities between cables, pipe, and natural habitat taxa were most likely due to the differences in the physical characteristics of these habitats. As with the fishes and invertebrates, macrophytes did not appear to be responding to the EMF emitted by the cables. Rather, it is likely that differences in the plant communities were driven by site depth and habitat type.

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生活在南加州近岸水域带电海底电缆、管道和自然海底周围的生物

在2012年2月1日至2014年2月26日期间，我们使用水肺调查了生活在南加州10-11米和13-14米海底深处的两条通电海底电缆、一条相邻管道和附近自然栖息地上的鱼类、无脊椎动物和大型植物。在整个研究过程中，两根电缆(A和B)的平均电磁场(EMF)水平在统计上相似(电缆A = 73.0µT，电缆B = 91.4µT)，并且这两根电缆的电磁场(EMF)水平远高于管道(平均= 0.5µT)或沙子(0µT)。总体而言，研究表明:(1)海底电缆、管道和自然生境上的鱼类和无脊椎动物群落高度重叠;(2)浅层和深层鱼类和无脊椎动物群落之间没有差异。我们没有看到任何证据表明鱼类或无脊椎动物会优先被电缆发出的电磁场吸引或排斥。电缆、管道和自然生境分类群之间鱼类或无脊椎动物密度的差异很可能是由于这些生境的物理特征的差异。与鱼类和无脊椎动物一样，大型植物似乎对电缆发出的EMF没有反应。相反，植物群落的差异很可能是由地点深度和生境类型驱动的。

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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Bulletin (Southern California Academy of Sciences)

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