海草上铁质斑块的形成:为什么不?

K. Povidisa, M. Holmer
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引用次数: 2

摘要

铁(Fe)斑块的形成是湿地、淡水和盐沼物种中众所周知的现象;但海草中没有铁斑的报道。本文综述了还原性沉积物/土壤中调控植物根和根茎铁沉积的主要因素,并讨论了这些因素与海洋环境的关系。此外,我们还对热带海草Cymodocea serrulata上的铁斑块进行了一些早期观察和量化。基于这些初步结果和文献数据,我们比较了海草C. serrulata和淡水大型植物半边莲(Lobelia dortmanna)在斑块形成方面的性能和效率。对比表明,无论向沉积物释放的氧较低,以及在高pH、低有机质含量、高碳酸盐含量和硫酸盐积极还原的不利沉积条件下,海草都能够在根和根茎上形成显著的铁斑块。因此,我们认为海草具有斑块形成的必要特征,海洋沉积物可能是铁斑块发育的有利环境。此外,我们建议在其他物种和其他地理位置也可能发现铁矿床。
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Iron plaque formation on seagrasses: Why not?
Iron (Fe) plaque formation is a well known phenomenon in wetland, freshwater and salt marsh species; however there are no reports about Fe plaque occurrence in seagrasses. Here we review the main factors regulating Fe deposition on the roots and rhizomes of plants from reduced sediments/soils, and discuss these factors in relation to marine environment. Moreover, we present some early observations and quantification of Fe plaque on the tropical seagrass Cymodocea serrulata. Based on these first results and literature data, we compare the seagrass C. serrulata with the freshwater macrophyte Lobelia dortmanna performance and efficiency with regard to plaque formation. The comparison shows that regardless of the lower oxygen release to the sediment and less favourable sediment conditions with high pH, low organic matter content, high carbonate content and actively ongoing sulphate reduction, the seagrass is able to develop significant Fe plaques on roots and rhizomes. Thus we conclude that seagrasses have the necessary characteristics for plaque formation, and that marine sediments may be a favourable environment for Fe plaque development. Moreover, we suggest the likelihood of finding Fe deposits also on other species than C. serrulata and in other geographical locations.
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