Identification of newly generated iron phases in recent anoxic sediments: Fe-57 Mossbauer and microRaman spectroscopic studies

被引:56
|
作者
Boughriet, A
Figueiredo, RS
Laureyns, J
Recourt, P
机构
[1] UFC,DEPT FIS,L3M,BR-60451970 FORTALEZA,CEARA,BRAZIL
[2] LAB SPECTROCHIM INFRA ROUGE & RAMAN,CNRS,UPR 2631,F-59655 VILLENEUVE DASCQ,FRANCE
[3] LAB SEDIMENTOL & GEODYNAM,CNRS,URA 719,F-59655 VILLENEUVE DASCQ,FRANCE
来源
JOURNAL OF THE CHEMICAL SOCIETY-FARADAY TRANSACTIONS | 1997年 / 93卷 / 17期
关键词
D O I
10.1039/a701068k
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Both biota (primarily bacteria) and conditions of low natural redox potential and pH involved in surface sediments from the Seine estuary (in Northern France) are responsible for the reduction of sedimentary oxidized forms of iron into iron(II). Such processes generate insoluble inorganic compounds. Iron-57 Mossbauer spectroscopy has been used to characterize newly generated iron(II) carbonates [solid solution FexCa1-xCO3 and 'green rusts', (FeFeII)-Fe-III(CO3)(OH)] in these recent anoxic sediments. It is also demonstrated that sedimentary iron reductions occurring in these sediments play an important role in the biogeochemical cycles of sulfur. Thus, using X-ray diffraction, pyrite was detected in sulfide-rich sediments (1.5-1.8 wt.%). Furthermore, laser Raman microprobe spectroscopy has helped us to establish the existence of small quantities of pyrite and amorphous iron sulfide(s), scarcely detectable by conventional macroanalysis techniques, and to visualize/discriminate them on the anoxic sediment surface.
引用
收藏
页码:3209 / 3215
页数:7
相关论文
共 50 条
  • [1] FE-57 MOSSBAUER SPECTROSCOPIC STUDIES OF IRON SILICATES WITH THE MORDENITE TOPOLOGY
    CHANDWADKAR, AJ
    DATE, SK
    BILL, E
    TRAUTWEIN, A
    ZEOLITES, 1992, 12 (02): : 180 - 182
  • [2] Backscatter Fe-57 Mossbauer studies of iron(II) phthalocyanine
    Bell, NA
    Brooks, JS
    Forder, SD
    Robinson, JK
    Thorpe, SC
    POLYHEDRON, 2002, 21 (01) : 115 - 118
  • [3] FE-57 AND IR-193 MOSSBAUER SPECTROSCOPIC STUDIES OF SUPPORTED IRON-IRIDIUM CATALYSTS
    BERRY, FJ
    JOBSON, S
    HYPERFINE INTERACTIONS, 1988, 41 (1-4): : 613 - 616
  • [4] FE-57 MOSSBAUER SPECTROSCOPIC STUDIES OF ELECTRON-HOPPING PROCESSES IN VESUVIANITES
    TRICKER, MJ
    VAISHNAVA, PP
    MANNING, PG
    JOURNAL OF INORGANIC & NUCLEAR CHEMISTRY, 1981, 43 (06): : 1169 - 1174
  • [5] FE-57 MOSSBAUER SPECTROSCOPIC STUDIES OF THE WEATHERING OF L-CHONDRITE METEORITES
    BERRY, FJ
    BLAND, PA
    OATES, G
    PILLINGER, CT
    HYPERFINE INTERACTIONS, 1994, 91 (1-4): : 577 - 581
  • [6] FE-57 MOSSBAUER SPECTROSCOPIC STUDIES OF THE FERROCENYLRUTHENOCENIUM +BF4-SALTS
    WATANABE, M
    SANO, H
    CHEMISTRY LETTERS, 1989, (08) : 1345 - 1348
  • [7] FE-57 MOSSBAUER STUDIES OF FE1-TTTAS PHASES WITH MNP TYPE STRUCTURE
    SELTE, K
    KJEKSHUS, A
    RAKKE, T
    ACTA CHEMICA SCANDINAVICA SERIES A-PHYSICAL AND INORGANIC CHEMISTRY, 1976, 30 (05): : 340 - 342
  • [8] Fe-57 Mossbauer spectroscopic study of estuarine sediments taken from the Tama River in Tokyo
    Matsuo, M
    Takano, B
    Sugimori, K
    INTERNATIONAL CONFERENCE ON THE APPLICATIONS OF THE MOSSBAUER EFFECT - ICAME-95, 1996, 50 : 757 - 760
  • [9] FE-57 MOSSBAUER STUDIES OF AROMATIC-HYDROCARBONS AND GRAPHITE INTERCALATED WITH IRON CHLORIDES AND IRON
    JADHAO, VG
    SINGRU, RM
    JOSHI, GM
    PISHARODY, KP
    RAO, CNR
    ZEITSCHRIFT FUR PHYSIKALISCHE CHEMIE-FRANKFURT, 1974, 92 (1-3): : 139 - 147
  • [10] FE-57 MOSSBAUER SPECTROSCOPIC STUDY OF THE THERMAL-DECOMPOSITION OF BASIC IRON(III) SULFATE
    MUSIC, S
    VERTES, A
    SIMMONS, GW
    CZAKONAGY, I
    LEIDHEISER, H
    RADIOCHEMICAL AND RADIOANALYTICAL LETTERS, 1981, 49 (05): : 315 - 322
12345