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Long-term changes of marine subtidal benthic communities in North East Asia (Yellow and Japan seas) in a global change context: A review 期刊论文
AQUATIC CONSERVATION-MARINE AND FRESHWATER ECOSYSTEMS, 2020, 页码: 25
作者:  Chen, Linlin;  Lutaenko, Konstantin A.;  Li, Xiaojing;  Li, Xinzheng;  Zhou, Zhengquan;  Li, Baoquan;  Pavlyuk, Olga N.;  Tarasova, Tatyana S.
Adobe PDF(5798Kb)  |  收藏  |  浏览/下载:403/117  |  提交时间:2020/07/08
PETER GREAT BAY  AMURSKY BAY  BOHAI SEA  MACROBENTHIC COMMUNITY  BOTTOM SEDIMENTS  SPATIAL SCALES  AQUACULTURE  POLLUTION  BIODIVERSITY  DIVERSITY  
烟台夹河口外柱状沉积物还原性无机硫、活性铁的变化特征及其相互关系 期刊论文
海洋科学, 2018, 卷号: 42, 期号: 8, 页码: 90-97
作者:  姜明;  赵国强;  李兆冉;  盛彦清
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还原性无机硫  活性铁  深层柱状沉积物  硫化度  矿化度  Reduced inorganic sulfur  Reactive iron  Deep core sediments  Degree of pyritization  Degree of sulfidity  The distribution characteristics and coupling mechanism of reduced inorganic sulfur (RIS)and reactive iron in marine core sediments are closely related to the evolution of environment quality.In this study,an improved cold diffusion method and hydrochloric acid extraction method were applied to the acid-volatile sulfur (AVS),pyrite sulfur (CRS),elemental sulfur (ES),and reactive iron [Fe (Ⅱ)and Fe (III)] analyses.The distribution characteristics and coupling mechanism of S and Fe were investigated based on a core sediment 4 meters deep collected in the northern sea area of the mouth of Jiahe River,Yantai.The results showed that the RIS in sediments was dominated by CRS,followed by AVS and ES.The content of AVS presented a narrow range with depth,whereas the CRS and ES were higher at the top and bottom layers than the middle layer  reactive iron was dominated by Fe (II),which increased with depth,while Fe (Ⅲ)gradually decreased with depth.Most of the Fe (III)was reduced to the disssolved Fe(II),which was combined with the soluble H_2S of the sulfate-reducing bacteria to produce CRS and ES in the deep layer,resulting in their accumulation at the bottom of core sediments.Furthermore,this study showed that reactive iron was not a limiting factor for the accumulation of RIS with lower degree of pyritization and degree of sulfidity.