中国综合性科技类核心期刊(北大核心)

中国科学引文数据库来源期刊(CSCD)

美国《化学文摘》(CA)收录

美国《数学评论》(MR)收录

俄罗斯《文摘杂志》收录

Message Board

Respected readers, authors and reviewers, you can add comments to this page on any questions about the contribution, review, editing and publication of this journal. We will give you an answer as soon as possible. Thank you for your support!

Name
E-mail
Phone
Title
Content
Verification Code
Issue 2
Mar.  2021
Turn off MathJax
Article Contents
HUANG Jing, ZHENG Tongtong, WANG Aihua, LI Wenjing, WANG Zhanghua. Comparison of different extraction methods for alkaline earth metals and its implications: A case study of the surficial sediments from Ningbo Plain[J]. Journal of East China Normal University (Natural Sciences), 2021, (2): 73-84. doi: 10.3969/j.issn.1000-5641.2021.02.008
Citation: HUANG Jing, ZHENG Tongtong, WANG Aihua, LI Wenjing, WANG Zhanghua. Comparison of different extraction methods for alkaline earth metals and its implications: A case study of the surficial sediments from Ningbo Plain[J]. Journal of East China Normal University (Natural Sciences), 2021, (2): 73-84. doi: 10.3969/j.issn.1000-5641.2021.02.008

Comparison of different extraction methods for alkaline earth metals and its implications: A case study of the surficial sediments from Ningbo Plain

doi: 10.3969/j.issn.1000-5641.2021.02.008
  • Received Date: 2020-03-26
  • Publish Date: 2021-03-30
  • The concentrations and relative ratios of alkaline earth metals, such as Sr, Ba, and Ca, in sediments are widely used to discriminate marine and terrestrial environments in paleoenvironmental research. However, geochemical elements occur mostly in mineral crystal lattices (namely, the residual phase after acid extraction), which is not linked to the physical, biological, or chemical environments of the deposition processes. Hence, only selective extraction of phases can be used to interpret changes in the sedimentary environment. In this study, we collected surficial sediments from the present-day saltmarsh-tidal flat, alluvial plain, and tidal river (Yaojiang River) in Ningbo Plain and used a plasma spectrometer to measure the concentrations of Sr, Ba, and Ca in: the leachates extracted by diluted acetic acid (HAc) and diluted hydrochloric acid (HCl), the residues after acid extraction, and the bulk samples. The results showed that alkaline earth metals in the HAc-leachates were most sensitive to changes in the sedimentary environment, followed by the HCl-leachates. No variation in Sr/Ba (molar ratio) could be distinguished in the bulk samples of surficial sediments collected from different sedimentary settings. Furthermore, consistent results were obtained by using different sample amounts and measuring instruments when applying the HAc method. Significant variations in alkaline earth metals in the HAc-leachates were observed for the surficial sediments in this study. Ca and Sr showed the highest concentrations in the saltmarsh-tidal flat sediments and the lowest concentrations in the alluvial sediments; Ba concentration showed the opposite trend. We thus suggest that end-member analyses of the alkaline earth metals in HAc leachates can be used to effectively identify transgression/regression recorded in sedimentary stratigraphy in the coastal zone.
  • loading
  • [1]
    ENTWISTLE J A, ABRAHAMS P W, DODGSHON R A. Multi-element analysis of soils from scottish historical sites. Interpreting land-use history through the physical and geochemical analysis of soil [J]. Journal of Archaeological Science, 1998, 25(1): 1-68.
    [2]
    MIDDLETON W D. Identifying chemical activity residues on prehistoric house floors: A methodology and rationale for multi-elemental characterization of a mild acid extract of anthropogenic sediments [J]. Archaeometry, 2004, 46(1): 47-65.
    [3]
    WELLS E C. Investigating activity patterns in prehispanic plazas: Weak acid-extraction ICP-AES analysis of anthrosols at classic period el coyote, northwestern honduras [J]. Archaeometry, 2004, 46(1): 67-84.
    [4]
    BOWEN H J M. Strontium and Barium in sea water and marine organisms [J]. Journal of the Marine Biological Association of the United Kingdom, 1956, 35: 451-460.
    [5]
    吴明清, 王贤觉. 东海沉积物的稀土和微量元素 [J]. 地球化学, 1991(1): 40-46.
    [6]
    COFFEY M, DEHAIRS F, COLLETTE O, et al. The behaviour of dissolved Barium in estuaries [J]. Estuarine, Coastal and Shelf Science, 1997, 45: 113-121.
    [7]
    CHO Y G, LEE C B, CHOI M S. Geochemistry of surface sediments off the southern and western coasts of Korea [J]. Marine Geology, 1999, 159: 111-129.
    [8]
    ZWOLSMAN J J G, VAN-ECK G T M. Geochemistry of major elements and trace metals in suspended matter of the Scheldt estuary, southwest Netherlands [J]. Marine Chemistry, 1999, 66: 91-111.
    [9]
    WANG Z, CHEN Z, LI L, et al. Temporal and spatial distribution of trace elements in China’s Yangtze subaqueous delta: A transit between land and sea [J]. Chinese Science Bulletin, 2001, 46(supp.): 65-72.
    [10]
    DORVAL E, JONES C M, HANNIGAN R. Chemistry of surface waters: Distinguishing fine-scale differences in sea grass habitats of Chesapeake Bay [J]. Limnology and Oceanography, 2005, 50: 1073-1083.
    [11]
    MOHAN J A, WALTHER B D. Spatiotemporal variation of trace elements and stable isotopes in subtropical estuaries: II. Regional, local, and seasonal salinity-element relationships [J]. Estuaries and Coasts, 2015, 38: 769-781.
    [12]
    ALFONSO J A, MARTINEZ M, FLORES S, et al. Distribution of trace elements in offshore sediments of the Orinoco Delta [J]. Journal of Coastal Research, 2006, 22: 502-510.
    [13]
    王爱华. 不同形态锶钡比的沉积环境判别效果比较 [J]. 沉积学报, 1996, 14(4): 168-173.
    [14]
    史忠生, 陈开远, 史军, 等. 运用锶钡比判定沉积环境的可行性分析 [J]. 断块油气田, 2003, 10(2): 12-16.
    [15]
    王益友, 郭文莹, 张国栋. 几种地球化学标志在金湖凹陷阜宁群沉积环境中的应用 [J]. 同济大学学报(自然科学版), 1979(2): 51-60.
    [16]
    刘英俊, 曹励明, 李兆麟, 等. 元素地球化学 [M]. 北京: 科学出版社, 1984: 360-372.
    [17]
    钱利军, 陈洪德, 林良彪, 等. 四川盆地西缘地区中侏罗统沙溪庙组地球化学特征及其环境意义 [J]. 沉积学报, 2012, 30(6): 1061-1071.
    [18]
    蓝先洪, 马道修, 徐明广, 等. 珠江三角洲若干地球化学标志及指相意义 [J]. 海洋地质与第四纪地质, 1987(1): 41-51.
    [19]
    李明霖, 莫多闻, 毛龙江, 等. 浙江田螺山遗址古盐度及其环境背景同河姆渡文化演化的关系 [J]. 地理学报, 2010, 64(3): 807-816.
    [20]
    YANDOKA B M S, ABDULLAH W H, ABUBAKAR M B, et al. Geochemical characterisation of Early Cretaceous lacustrine sediments of Bima Formation, Yola Sub-basin, Northern Benue Trough, NE Nigeria: organic matter input, preservation, paleoenvironment and palaeoclimatic conditions [J]. Marine and Petroleum Geology, 2015, 61: 82-94.
    [21]
    WOODRUFF J D, DONNELLY J P, OKUSU A. Exploring typhoon variability over the mid-to-late Holocene: Evidence of extreme coastal flooding from Kamikoshiki, Japan [J]. Quaternary Science Reviews, 2009, 28(17/18): 1774-1785.
    [22]
    YANG D Y, HAN M, KIM J C, et al. Shell and gravel layers caused by storm-induced rip currents during the Medieval Warm Period and Little Ice Age in South Korea [J]. Palaeogeography Palaeoclimatology Palaeoecology, 2017, 487: 204-215.
    [23]
    TIAN Y, FAN D, ZHANG X, et al. Event deposits of intense typhoons in the muddy wedge of the East China Sea over the past 150 years [J]. Marine Geology, 2019, 410: 109-121.
    [24]
    ZHOU L, GAO S, JIA J, et al. Extracting historic cyclone data from coastal dune deposits in eastern Hainan Island, China [J]. Sedimentary Geology, 2019, 392: 105524.
    [25]
    TESSIER A P, CAMPBELL P G C, BISSON M X. Sequential extraction procedure for the speciation of trace metals [J]. Analytical Chemistry, 1979, 51(7): 844-851.
    [26]
    VOUTSINOU-TALIADOUR F. A weak acid extraction method as a tool for the metal pollution assessment in surface sediments [J]. Microchimica Acta, 1995, 119(3/4): 243-249.
    [27]
    DAVIDSON C M, THOMAS R P, MCVEY S E, et al. Evaluation of a sequential extraction procedure for the speciation of heavy metals in sediments [J]. Analytica Chimica Acta, 1994, 291: 277-286.
    [28]
    YANG S, DING Z, GU Z. Acetic acid-leachable elements in pedogenic carbonate nodules and links to the East-Asian summer monsoon [J]. Catena, 2014, 117: 73-80.
    [29]
    LYLE M, HEATH G R, ROBBINS J M. Transport and release of transition elements during early diagenesis: Sequential leaching of sediments from MANOP Sites M and H. Part I. pH 5 acetic acid leach [J]. Geochimica et Cosmochimica Acta, 1984, 48(9): 1705-1715.
    [30]
    GE L, JIANG S Y, SWENNEN R, et al. Chemical environment of cold seep carbonate formation on the northern continental slope of South China Sea: Evidence from trace and rare earth element geochemistry [J]. Marine Geology, 2010, 277(1): 21-30.
    [31]
    王爱华, 刘建坤, 许乃岑, 等. 陆源碎屑沉积物中沉积成因锶钡的选择性提取新技术 [J]. 中国地质, 2019, 46(3): 670-671.
    [32]
    王爱华, 刘建坤, 李华玲, 等. 陆源碎屑沉积物中沉积成因锶钡的选择性提取方法: 中国, ZL 201611260917.0 [P]. 2019-03-05.
    [33]
    宁波市水利志编纂委员会. 宁波市水利志 [M]. 北京: 中华书局, 2006: 60-64.
    [34]
    茅泽育, 赵雪峰, 江春波. 感潮河段盐水入侵的河口水质模型 [J]. 水利学报, 2009, 40(5): 520-528.
    [35]
    栗文静. 浙江宁波大榭岛榭北盆地全新世环境演变及史前制盐环境适宜性探讨 [D]. 上海: 华东师范大学, 2019.
    [36]
    王文森. 变异系数—一个衡量离散程度简单而有用的统计指标 [J]. 中国统计, 2007(6): 41-42.
    [37]
    张朝生, 章申, 王立军, 等. 长江与黄河沉积物金属元素地球化学特征及其比较 [J]. 地理学报, 1998(4): 314-322.
    [38]
    陈琳莹, 李崇瑛, 陈多福. 泥灰炭中自生方解石的稀土元素酸溶方法研究 [J]. 地球化学, 2014, 43(6): 647-654.
    [39]
    周婷. 碳酸盐岩稀土元素的酸溶分馏研究 [D]. 成都: 成都理工大学, 2018.
    [40]
    NOVÁK I, ČIČEL B. Dissolution of smectites in hydrochloric acid: Ⅱ. Dissolution rate as a function of crystallochemical composition [J]. Clays and Clay Minerals, 1978, 26(5): 341-344.
    [41]
    GONNEEA M E, PAYTAN A. Phase associations of barium in marine sediments [J]. Marine Chemistry, 2006, 100(1/2): 124-135.
    [42]
    王爱华, 叶思源, 刘建坤, 等. 不同选择性提取方法锶钡比的海陆相沉积环境判别探讨—以现代黄河三角洲为例 [J]. 沉积学报, 2020(6): 1226-1238.
    [43]
    张朝生, 王立军, 章申. 长江中下游河流沉积物和悬浮物中金属元素的形态特征 [J]. 中国环境科学, 1995, 15(5): 342-347.
    [44]
    宫少军, 秦志亮, 叶思源, 等. 黄河三角洲ZK5钻孔沉积物地球化学特征及其沉积环境 [J]. 沉积学报, 2014, 32(5): 855-862.
    [45]
    WATABE N. Crystal growth of calcium carbonate in biological systems [J]. Journal of Crystal Growth, 1974, 24/25: 116-122.
    [46]
    NEHRKE G, POIGNER H, WILHELMS-DICK D, et al. Coexistence of three calcium carbonate polymorphs in the shell of the Antarctic clam Laternula elliptica [J]. Geochemistry Geophysics Geosystems, 2013, 13(5): 1-8.
    [47]
    THORPE C L, LLOYD J R, LAW G T W, et al. Strontium sorption and precipitation behaviour during bioreduction in nitrate impacted sediments [J]. Chemical Geology, 2012, 306: 114-122.
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Figures(6)  / Tables(1)

    Article views (62) PDF downloads(2) Cited by()
    Proportional views

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return