Application of Ferromanganese Slag of Different Sizes as Seaweed Bed Substratum

K. Sugimoto, Takanori Sugano, Shigemori Takahama, Hikaru Takashima, Yoichi Takata, M. Okada
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Abstract

The purpose of this study is to investigate the formation of seaweed bed substrata using different sizes of Ferromanganese slag and Ferromanganese slag block in the sea area and by comparing them with the surrounding natural seaweed bed. We were unable to confirm any changes in pH or manganese concentration in seawater as a result of using FMS and FMSB. Small seaweed such as Hypnea grew five months after the material was set up. After 17 months, Sargassum horneri , Myagropsis myagroides , Undaria pinnatifida , and Ecklonia kurome grew on FMS, whereas S . horneri , Sargassum piluliferum , and Ecklonia kurome grew on FMSB. The vegetation transition progressed from undergrowth seaweed to large seaweed. About one year after the installation of the FMS and FMSB substrata, there was no significant difference in the number of seaweed species that grew on FMS and FMSB and the nearby natural seaweed bed. However, there was a small difference in the seaweed biomass between the FMS ( 30-75 mm ) and the surrounding natural seaweed bed. We found that when using smaller material, FMS ( 30-75 mm ) has higher seaweed biomass except in November 2017. By installing FMS and FMSB seaweed beds, we were able to confirm that the gathering fish are similar to those that gather around the nearby natural seaweed bed, but we were unable to confirm the relationship between seaweed biomass, material size, and fish density.
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不同粒径锰铁渣作为海藻床基质的应用
本研究的目的是利用该海域不同尺寸的锰铁渣和锰铁渣块体来研究海藻床基底的形成,并将其与周围天然海藻床进行比较。我们无法证实使用FMS和FMSB后海水中的pH值或锰浓度有任何变化。像Hypnea这样的小海藻在材料放置5个月后生长。17个月后,马尾藻、myagrosis myagroides、裙带菜和Ecklonia kurome在FMS上生长;在FMSB上生长的有角藻、马尾藻和黑Ecklonia。植被由林下海藻向大型海藻过渡。在FMS和FMSB基材铺设约一年后,FMS和FMSB基材与附近天然海藻床上生长的海藻种类数量没有显著差异。然而,FMS (30-75 mm)与周围天然海藻床之间的海藻生物量差异较小。我们发现,当使用较小的材料时,除了2017年11月外,FMS (30-75 mm)的海藻生物量更高。通过安装FMS和FMSB海藻床,我们能够确认聚集的鱼类与附近天然海藻床周围聚集的鱼类相似,但我们无法确认海藻生物量,材料大小和鱼类密度之间的关系。
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