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加贝斯湾(突尼斯东南部)沿海污染的生物监测:利用海洋草作为生物指标及其垫作为沿海金属污染的档案。

Biomonitoring of coastal pollution in the Gulf of Gabes (SE, Tunisia): use of Posidonia oceanica seagrass as a bioindicator and its mat as an archive of coastal metallic contamination.

机构信息

Géosciences Environnement Toulouse (GET), Université de Toulouse, UMR 5563 CNRS/UPS/IRD/CNES, 14 Avenue Edouard Belin, 31400, Toulouse, France.

Institut National Agronomique de Tunis (INAT), Université de Carthage, 43 Avenue Charles Nicolle, 1082, Tunis, Maharajène, Tunisia.

出版信息

Environ Sci Pollut Res Int. 2017 Oct;24(28):22214-22225. doi: 10.1007/s11356-017-9856-x. Epub 2017 Aug 10.

DOI:10.1007/s11356-017-9856-x
PMID:28795327
Abstract

Within the framework of a study on the extent and history of marine pollution in the central area of Gabes Gulf, the concentrations of four trace metals (Cd, Cu, Pb, and Zn) were assessed in three different tissues of the seagrass species, Posidonia oceanica (leaves, rhizomes, and roots), in the mat of P. oceanica meadows at different depths from the sea floor (- 30 to - 150 cm) and in sediments. The results showed that P. oceanica leaves accumulate more Cd, Cu, and Zn, whereas Pb was found to be more concentrated in roots. The analysis of P. oceanica mat highlighted a clear decreasing gradient of trace metal concentrations from lower (- 30 cm) to higher (- 150 cm) depths. Considering that P. oceanica mat continuously rises above the initial level, with a rate of 1 m per century (~1 cm year; Molinier and Picard Ann Inst Océanogr Fr 27:157-234, 1952), the latter observation suggested that the pollution level in Gabes Gulf increased continuously during the last few decades. The results of the P. oceanica mapping in the study area showed a continuous regression of its meadows as well as its local disappearance from various areas in the central part of Gabes Gulf. The current status of P. oceanica is most likely due to the cumulative effects of the discharges from the coastal industrial complex of Gabes-Ghannouche represented mainly by the phosphogypsum discharges. This study confirms the usefulness of P. oceanica not only as a bioindicator of the "health status" of coastal ecosystems but also as a record register tracing back the history and temporal evolution of coastal contamination level.

摘要

在对加贝斯湾中部海域海洋污染程度和历史的研究框架内,评估了三种不同组织(叶片、根茎和根)中的四种痕量金属(Cd、Cu、Pb 和 Zn)在海草波西多尼亚海草(Posidonia oceanica)草丛中的浓度,这些组织来自海底不同深度(-30 至-150 厘米)的波西多尼亚海草草丛垫和沉积物。结果表明,波西多尼亚海草叶片积累了更多的 Cd、Cu 和 Zn,而 Pb 则更多地集中在根部。波西多尼亚海草草丛垫的分析突出显示,痕量金属浓度从较低(-30 厘米)到较高(-150 厘米)深度呈现明显的递减梯度。考虑到波西多尼亚海草草丛垫持续高于初始水平上升,速度为 1 米每世纪(~1 厘米/年;Molinier 和 Picard Ann Inst Océanogr Fr 27:157-234, 1952),后一观察结果表明,过去几十年加贝斯湾的污染水平持续增加。研究区波西多尼亚海草的测绘结果表明,其草丛垫不断退缩,其在加贝斯湾中部的多个区域消失。目前波西多尼亚海草的状况很可能是由于加贝斯-加努什沿海工业综合体的排放造成的,主要是磷石膏的排放。这项研究证实了波西多尼亚海草不仅作为沿海生态系统“健康状况”的生物指标,而且作为记录追溯沿海污染水平历史和时间演变的记录器非常有用。

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