Your search keyword '"Xiangwen Ren"' showing total 23 results

1. Thorium isotope evidence for glacial–interglacial dust storminess and productivity in the North Pacific gyre

Author

Tianyu Chen, Jianfan Zheng, Tao Li, Xuefa Shi, Laura F. Robinson, Maoyu Wang, Gaojun Li, Hongfei Ling, Xiangwen Ren, and Junfeng Ji

Subjects

Geochemistry and Petrology

Published

2023

2. Content and Composition of Rare Earth Elements in Ferromanganese Formations from the East Siberian Sea as an Indicator of Recent Sedimentation and Diagenesis Conditions

Author

O. N. Kolesnik, A. N. Kolesnik, A. S. Astakhov, S. A. Selutin, Xiangwen Ren, and Xuefa Shi

Subjects

Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences

Published

2022

3. A Position Fixing Method for Near-Bottom Camera Data on the Seafloor

Author

Xinyu Shi, Shijuan Yan, Chuanshun Li, Gang Yang, Yue Zhao, Dewen Du, Qiukui Zhao, Xiangwen Ren, and Fengdeng Shi

Subjects

Geology, Geotechnical Engineering and Engineering Geology, deep-sea visualization, near-bottom photography, big data matching on topographic profiles, position fixing method, DTW algorithm

Abstract

The submarine camera system is one of the most effective detection methods for detecting seabed hydrothermal sulfide. The position fixing of camera equipment is generally achieved by the ultra-short baseline (USBL) positioning systems. The dynamic changes in the marine environment and the loss of acoustic signals lead to many abnormal points in the USBL positioning data. The existing methods cannot perform position fixing correction for USBL positioning data with many scattered abnormal points. This paper selects and focuses on the seabed camera data of the XunMei mineralization area acquired from the China South Atlantic voyage and employs the DTW optimization algorithm to solve this problem. This method is implemented based on Python language and an ArcGIS technical environment, and a total of 97,469 topographic profiles with 10 m spacing are extracted from the topographic data of the object area with 1m accuracy. Moreover, the highest similarity (95.9%) is obtained between the bathymetric profile of the camera survey line and the above topographic profile. The results indicate that the proposed algorithm is fast and effective, and the positioning correction accuracy of the deep-sea near-bottom camera data can reach the meter level (determined by the topographic data accuracy). Moreover, the solution can provide services for accurately position fixing near-bottom exploration equipment and its exploration data. It can also solve the problem of underwater position fixing problem that a GPS cannot solve.

Published

2022

4. First Data on the Distribution of Rare-Earth Elements in Ferromanganese Deposits of the Laptev Sea

Author

Xuefa Shi, O. N. Kolesnik, A. S. Astakhov, A. N. Kolesnik, A. A. Karabtsov, and Xiangwen Ren

Subjects

010504 meteorology & atmospheric sciences, Rare earth, Geochemistry, chemistry.chemical_element, Yttrium, 010502 geochemistry & geophysics, 01 natural sciences, Ferromanganese, Silicate, Diagenesis, chemistry.chemical_compound, chemistry, visual_art, Earth and Planetary Sciences (miscellaneous), visual_art.visual_art_medium, General Earth and Planetary Sciences, Scandium, Bioturbation, Geology, 0105 earth and related environmental sciences, Limonite

Abstract

The distribution of rare-earth elements (REEs) in ferromanganese deposits (FMDs) from the southeastern Laptev Sea is considered. The ore part of FMDs consisting mainly of iron hydroxides (limonite) results from the process of suboxic diagenesis enhanced by bioturbation. It is responsible in FMDs for the deficiency in Ce and some enrichment in middle REEs (MREEs). The (alumino)silicate part of FMDs is genetically related with bottom sediments, corresponds to their REE composition, and most likely controls the scandium content. Because of the high formation rate of hydroxides, the total REE content in FMDs is lower than that in bottom sediments.

Published

2021

5. A possible link between seamount sector collapse and manganese nodule occurrence in the abyssal plains, NW Pacific Ocean

Author

Mingwei Wang, Zhaocai Wu, Zhenggang Li, Huaiming Li, Yanhui Dong, James R. Hein, Xiangwen Ren, Fengyou Chu, and Xiaohu Li

Subjects

Nodule (geology), geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Lineament, Seamount, Geochemistry, Abyssal plain, Geology, engineering.material, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Debris, Geochemistry and Petrology, engineering, Economic Geology, Bathymetry, Manganese nodule, 14. Life underwater, 0105 earth and related environmental sciences

Abstract

Manganese nodules are a potential source of critical metals such as Cu, Ni, and Co and are widely distributed on the abyssal plains of the global oceans. A polymetallic nodule metallogenic belt with a heterogeneous and spatially clustered nodule distribution was recently discovered in NW Pacific inter-seamount basin (NPIB) areas. However, the geological processes that regulate the nodule occurrence in that region are unresolved. Here, we report on the characteristics of a high-density field of manganese nodules in the abyssal plain north of Suda Seamount. Ship-borne multibeam bathymetric data reveal a typical seamount sector-collapse topography characterized by radial lineaments of debris channels and ridges formed by rapid debris-avalanche flow. Backscatter data linked with underwater observation indicate that manganese nodules are more concentrated (50%–80% areal coverage) along the main body of the debris apron compared to adjacent neighboring areas (

Published

2021

6. A Method for Assessing the Thickness of Cobalt-Rich Crust on Seamounts and Its Application on the Il’ichev Guyot

Author

Shijuan Yan, Xinyu Shi, Gang Yang, Dewen Du, Yonggang Liu, Jun Ye, Xiangwen Ren, Zhiwei Zhu, and Yue Hao

Subjects

Geology, crust thickness, cobalt-rich crust resources evaluation, mineralization stage, division of geostatistical units, grid unit, ArcGIS, Geotechnical Engineering and Engineering Geology

Abstract

Seamount cobalt-rich crusts are rich in cobalt resources and are sought after worldwide. Among different affecting parameters, crust thickness is the most important in evaluating cobalt-rich crust resources in seamounts. Generally, there are two challenges to crust thickness evaluation: firstly, due to high operating costs, most geological stations for seamount exploration have sparse sampling distributions so there are insufficient data to estimate the crust thickness distribution; secondly, a single evaluation method has advantages and disadvantages, and it is not feasible to benefit from the advantages only. These methods cannot simultaneously make full use of the sampling data in local areas, providing a more appropriate evaluation of the whole area. As a result, the estimated results cannot fully reflect the thickness distribution. Based on the thickness data of the station survey and topographic data, geostatistical units are divided, and a comprehensive crust thickness assessment scheme is established on the ArcGIS platform. To this end, the adjacent area method is applied to calculate the crust thickness within the influence range of the station. Combined with the station buffer radius and Thiessen polygon method, the crust thickness within 1.5 km of the survey station was estimated. Then the “slope–distance” Kriging interpolation method was used to calculate the crust thickness in the study area, and the crust thickness in the optimal effective radius area was given to compensate for the missing part in the first step. Finally, the geological blocks were divided using the topographic classification method, and the crust thickness of the remaining unassigned regions was estimated using the mathematical expectation method. The proposed method was applied to evaluate the Il’ichev Guyot’s crust thickness and reasonable results were achieved. It was found that the thickness estimation of the area near the station is consistent with the measured values. Since finer topographic data are used in the calculation, the thickness estimation result is more detailed. In this regard, a simple and effective calculation method was established on the ArcMap platform. The mathematical expectation estimation method of the crust thickness, based on the topographic and geomorphological classification from the perspective of the mineralization mechanism, compensates for the drawbacks of the first two methods originating from the lack of data points. The results show that the proposed method is an appropriate scheme to evaluate seamount crust thickness without comprehensive investigation.

Published

2022

7. Highly doped N, S-Codoped carbon nanomeshes for excellent electrocapacitive performance

Author

Lifeng Cui, Pan Jiang, Xiaochang Qiao, Xiangwen Ren, Jutao Jin, and Wenlong Wan

Subjects

Supercapacitor, Materials science, Dopant, Carbonization, Mechanical Engineering, Doping, Heteroatom, Metals and Alloys, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Capacitance, Pseudocapacitance, 0104 chemical sciences, Chemical engineering, Mechanics of Materials, Specific surface area, Materials Chemistry, 0210 nano-technology

Abstract

Porous carbon nanomeshes with large specific surface area and pore volume are successfully synthesized through a one-step carbonization process. Notably, these porous carbon nanomeshes are highly doped with N in the carbon lattice and S at the edge of carbon lattice. The binary doped porous carbon nanomeshes synthesized at the optimized condition show high specific capacitance (delivers a specific capacitance of 340 F g−1 at discharge rate of 0.5A g−1), excellent rate performances (retains the capacitance of 260 F g−1 at discharge rate of 10 A g−1) and long cycle stability (92% of its initial capacitance after 10000 cycles). The synergetic effect of heteroatom doping and pore structure on the supercapacitor performance is investigated. Abundant nitrogen and sulfur dopants provide pseudocapacitance via rapid Faradaic reactions, while the in-plane pores offer additional ion channels to accelerate the diffusion rate across the thin sheets and afford abundant edge atoms to further increase the pseudocapacitance.

Published

2019

8. Quaternary sedimentary record in the northern Okinawa Trough indicates the tectonic control on depositional environment change

Author

Shijun Jiang, Lina Zhai, Jin Zhang, Shunxi Shen, Sidonie Révillon, Xiangwen Ren, Jiang Dong, Anchun Li, Shiming Wan, Xuefa Shi, and Debo Zhao

Subjects

010506 paleontology, geography, Provenance, geography.geographical_feature_category, Pleistocene, Trough (geology), Paleontology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, River mouth, Sedimentary rock, Quaternary, Ecology, Evolution, Behavior and Systematics, Geology, Sea level, 0105 earth and related environmental sciences, Earth-Surface Processes, Marine transgression

Abstract

During the Quaternary, global sea level was characterized by large fluctuations in amplitude and increased frequency. However, the eastern marginal seas of China, especially the northern East China Sea and Yellow Sea did not experience large-scale transgression until the middle Pleistocene. The Zhe-Min (Zhejiang-Fujian) Uplift was an important barrier in the East China Sea preventing transgression of sea water into the northern marginal seas of China, but its Quaternary evolution is still poorly constrained. Here we present a thick sand layer record (the top age is ~416 ka) of the Integrated Ocean Drilling Program (IODP) Site U1428 from the northern Okinawa Trough to reconstruct the history of the Zhe-Min Uplift since the middle Pleistocene. Provenance analysis indicates that sediments from both sand and imbedded fine-grained calcareous-rich clay layers at the study site were mainly derived from the Yellow River, which for the first time indicates that the Yellow River sediments could influence the northern Okinawa Trough since at least the middle Pleistocene. Significant change of lithology at IODP Site U1428 at ~416 ka was attributed to the large-scale subsidence of the Zhe-Min Uplift, which is probably due to the rapid uplifting of Tibet during 0.52–0.38 Ma. Before ~416 ka, obstacle of the emersed Zhe-Min Uplift induced extremely severe reworking and promoted sand ridge formation in the shelf edge of southeastern Yellow Sea, and supplied sand sediments to the northern Okinawa Trough during transgression and high sea-level stages. After the subsidence of the Zhe-Min Uplift at ~416 ka, westward of tidal sand ridge and Yellow River mouth with the process of shelf transgressions favored fine-grained sediments input to the northern Okinawa Trough. Even during low sea-level stages, the flat terrain of the East Asian marginal sea shelf and low rainfall amount resulted in low discharge of Yellow River, and supplied fine-grained particles to the northern Okinawa Trough.

Published

2019

9. The Influence of Hydrothermal Fluids on the REY-Rich Deep-Sea Sediments in the Yupanqui Basin, Eastern South Pacific Ocean: Constraints from Bulk Sediment Geochemistry and Mineralogical Characteristics

Author

Tiancheng Zhou, Xiangwen Ren, Gang Yang, Miao Yu, Aimei Zhu, Mu Huang, Xuefa Shi, and Dongjie Bi

Subjects

lcsh:Mineralogy, lcsh:QE351-399.2, 010504 meteorology & atmospheric sciences, deep-sea sediment, LA-(MC)-ICP-MS, Trace element, Geochemistry, Core sample, Sediment, Geology, Pelagic sediment, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, bioapatite, 01 natural sciences, Deep sea, Hydrothermal circulation, Diagenesis, hydrothermal fluids, Seawater, 0105 earth and related environmental sciences, eastern South Pacific

Abstract

Rare earth elements (REEs) and yttrium (Y), together known as REY, are extremely enriched in deep-sea pelagic sediments, attracting much attention as a promising new REY resource. To understand the influence of hydrothermal processes on the enrichment of REY in deep-sea sediments from the eastern South Pacific Ocean, we conducted detailed lithological, bulk sediment geochemical, and in situ mineral geochemical analyses on gravity core sample S021GC17 from the Yupanqui Basin of eastern South Pacific. The REY-rich muds of S021GC17 are dark-brown to black zeolitic clays with REY contents (&Sigma, REY) ranging from 1057 to 1882 ppm (average 1329 ppm). The REY-rich muds display heavy rare earth elements (HREE) enriched patterns, with obvious depletions in Ce, and positive anomalies of Eu in Post-Archean Australian Shale (PAAS)-normalized REE diagrams. In contrast, the muds of S021GC17 show light rare earth elements (LREE) enriched patterns and positive anomalies of Ce and Eu in the seawater-normalized REE diagrams. Total REY abundances in the core show positive correlations with CaO, P2O5, Fe2O3, and MnO concentrations. In situ analyses of trace element contents by laser ablation-inductively coupled plasma&ndash, mass spectrometry (LA-ICP-MS) demonstrate that bioapatite fossils contain high REY concentrations (998 to 22,497 ppm, average 9123 ppm), indicating that they are the primary carriers of REY. The in situ Nd isotope values of bioapatites are higher than the average values of seawater in Pacific Ocean. Fe&ndash, Mn micronodules are divided into hydrogenetic and diagenetic types, which have average REY concentrations of 1586 and 567 ppm, respectively. The high contents of Fe-Mn-Ba-Co-Mo, the positive correlations between &Sigma, REY and Fe-Mn, the ratios of Fe/Ti and Al/(Al + Fe + Mn), and the LREE-enriched patterns in the REY-rich muds, combined with high Nd isotope values shown by bioapatite fossils, strongly indicate that the hydrothermal fluids have played an important role in the formation of the REY-rich sediments in the eastern South Pacific Ocean.

Published

2020

10. Cocrystal structure, thermal behavior, and DFT calculations between FOX–7 and 1,10–Phenanthroline

Author

Shuqin Fu, Jiaping Zhu, Xiangwen Ren, and Keyao Li

Subjects

010405 organic chemistry, Chemistry, Phenanthroline, Organic Chemistry, Space group, Crystal structure, 010402 general chemistry, 01 natural sciences, Cocrystal, 0104 chemical sciences, Analytical Chemistry, Inorganic Chemistry, chemistry.chemical_compound, Crystallography, Thermal stability, Single crystal, Mulliken population analysis, Spectroscopy, Monoclinic crystal system

Abstract

Cocrystal of FOX–7 (1,1-diamino-2,2-dinitroethene) and Phen (1,10-Phenanthroline) has been synthesized and characterized by X–ray crystallography. The single crystal results show that FOX–7 and its cocrystal were crystallized in the monoclinic space groups P21/n and P21/c, respectively. Thermal stability of FOX–7 and FOX–7·Phen were studied by DSC, the first exothermic peak temperatures (TP) of FOX–7 and FOX–7·Phen occurs at 223.2 and 232.7 °C, respectively; indicating that FOX–7·Phen is more stable than FOX–7. Thermokinetic parameters such as the activation energy Ea and pre-exponential factor A were 321.4 kJ mol−1 and 1.166 × 1033 s−1, respectively. DFT studies including geometry optimization, HOMO-LUMO analysis, Mulliken charge and UV–visible spectral data were also calculated by DFT-B3LYP/6-31 + G** level.

Published

2018

11. Genesis of REY-rich deep-sea sediments in the Tiki Basin, eastern South Pacific Ocean: Evidence from geochemistry, mineralogy and isotope systematics

Author

Aimei Zhu, Dongjie Bi, Tiancheng Zhou, Mu Huang, Xishan Fang, Xuefa Shi, Jihua Liu, Miao Yu, Meijuan Shi, and Xiangwen Ren

Subjects

Systematics, Isotope, 020209 energy, Geochemistry, Phillipsite, Geology, 02 engineering and technology, Sedimentation, Structural basin, 010502 geochemistry & geophysics, behavioral disciplines and activities, 01 natural sciences, Deep sea, Geochemistry and Petrology, 0202 electrical engineering, electronic engineering, information engineering, Economic Geology, Seawater, Oil shale, 0105 earth and related environmental sciences

Abstract

Deep-sea sediments in the eastern South Pacific Ocean were recently found to contain high concentrations of rare-earth elements and yttrium (REY). To understand the genesis of REY enrichment in the sediments, we performed detailed element and isotope geochemical analyses on samples from gravity core S028GC23 recovered from the Tiki Basin in the eastern South Pacific Ocean. The REY-rich sediments in core S028GC23 are dark-brown to black zeolite clays, with REY (∑REY) contents of 1136–2213 ppm (average of 1857 ppm). The ∑REY contents in the sediments are positively correlated with P2O5 and negatively correlated with Ce anomalies. The REY-rich sediments display obvious Ce depletion and positive Y anomalies in the post-Archean Australian shale (PAAS)-normalized REY diagrams. Bioapatite fossils contain the highest REY concentrations (average of 8921 ppm) among the constituents, indicating that they are the primary hosts of REY. The REY enter through the roots and diffuse to the tops in the bioapatite fossils. Fe–Mn micronodules are divided into two different types based on Ce and Y anomalies in the PAAS-normalized REY patterns, and they have average REY concentrations of 781 ppm and 937 ppm, respectively. The phillipsite has low REY contents (average of 106 ppm) and is associated with a low sedimentation rate. REY patterns and Sr-Nd isotopic signatures show that seawater was the main ore-forming fluids during the formation of REY-rich sediments. The sedimentation rate of the sediments calculated by the 230Thex activities was 0.8 mm/Ka. The REY accumulation process can be explained by two-stage fluid-bioapatite fossil interactions and small contributions of Fe-Mn micronodules in an oxidized environment with slow sedimentation rate.

Published

2021

12. Distance-gradient-based variogram and Kriging to evaluate cobalt-rich crust deposits on seamounts

Author

Xuefa Shi, Du Xiaomeng, James R. Hein, Dewen Du, Shijuan Yan, Xiangwen Ren, and Chunjuan Wang

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Seamount, Geochemistry, Mineralogy, Geology, Crust, Geostatistics, 010502 geochemistry & geophysics, Spatial distribution, 01 natural sciences, Geochemistry and Petrology, Gradient based algorithm, Kriging, Economic Geology, Variogram, Anisotropy, Geomorphology, 0105 earth and related environmental sciences

Abstract

The spatial distribution of cobalt-rich crust thicknesses on seamounts is partly controlled by water depth and slope gradients. Conventional distance–direction-based variogram have not effectively expressed the spatial self-correlation or anisotropy of the thicknesses of cobalt-rich crusts. To estimate resources in cobalt-rich crusts on seamounts using geostatistics, we constructed a new variogram model to adapt to the spatial distribution of the thicknesses of the cobalt-rich crusts. In this model, we defined the data related to cobalt-rich crusts on seamounts as three-dimensional surface random variables, presented an experimental variogram process based on the distance–gradient or distance–“relative water depth,” and provided a theoretical variogram model that follows this process. This method was demonstrated by the spatial estimation of the thicknesses of cobalt-rich crusts on a seamount, and the results indicated that the new variogram model reflects the spatial self-correlation of the thicknesses of cobalt-rich crusts well. Substituted into the Kriging equation, the new variogram model successfully estimated the spatial thickness distribution of these cobalt-rich crusts.

Published

2017

13. An integrated method for the quantitative evaluation of mineral resources of cobalt-rich crusts on seamounts

Author

Yonggang Liu, Xiangwen Ren, Shijuan Yan, Dewen Du, Xuefa Shi, and Gaowen He

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Seamount, Geochemistry, Geology, Crust, 010502 geochemistry & geophysics, 01 natural sciences, Mineral resource classification, Field (geography), Geochemistry and Petrology, Kriging, Geological survey, Economic Geology, Bathymetry, Seabed, 0105 earth and related environmental sciences

Abstract

Cobalt-rich crusts on seamounts potentially have the economic value of multiple metals. In the field of exploration, it is important to perform quantitative evaluations of mineral resources and delineate promising areas in survey regions for future mining. Accordingly, this study, based on prior knowledge, develops an integrated method to quantitatively evaluate mineral resources of cobalt-rich crusts on seamounts and gives an application example to demonstrate this method. The method includes four steps: first, defining units with certain areas and shapes on the target seamount (a 20 km2 square block in the application example) and estimating characteristic values of the cobalt-rich crust for each unit with known geological survey data using a space interpolation method such as Kriging; second, presenting several model algorithms, i.e. Regional Coverage of Crusts, Suitable Slope Percentage for Mining and Fitting Area on Slopes, to extract the corresponding regional metallogenic factors for each unit by inputting regional surveying data (such as bathymetry data) into these models; third, considering both the features and regional metallogenic factors of cobalt-rich crusts in each unit to estimate their distribution of mineral resources on the entire seamount; and last, according to the distribution of the mineral resources and international social and economic requirements (such as the regulations of the International Seabed Authority), delineating a promising area for future mining.

Published

2017

14. Geochemical characteristics and metal element enrichment in crusts from seamounts of the Western Pacific

Author

Weiyan Zhang, Yong Du, Fuyuan Zhang, Binbin Jiang, Kechao Zhu, Xiangwen Ren, Xiaoyu Zhang, and Dasong Huang

Subjects

Mineralization (geology), geography, geography.geographical_feature_category, integumentary system, 010504 meteorology & atmospheric sciences, Terrigenous sediment, Seamount, food and beverages, Mineralogy, Crust, Guyot, 010502 geochemistry & geophysics, 01 natural sciences, chemistry.chemical_compound, chemistry, Phosphorite, General Earth and Planetary Sciences, Carbonate, skin and connective tissue diseases, Geology, Carbonate compensation depth, 0105 earth and related environmental sciences

Abstract

Elemental geochemistry is an essential part of understanding mineralization mechanisms. In this paper, a data set of 544 cobalt crust samples from seamounts of the Western Pacific are used to study the enrichment characteristics of metal elements. REE normalization is utilized to reveal the origin of the crusts; effects of water depth on Co enrichment and impacts of phosphatization on mineral quality are discussed to obtain the evolution of these marine mineral deposits, which gives support to further resource assessment. Conclusions are reached as follows: 1) Elemental abundances, inter-element relationships, and shale-normalized REE patterns for phosphate-poor crusts from different locations reflect hydrogenetic origin of the crusts. EFs (enrichment coefficients) of REE exhibit exponential increase from surface sediments to phosphorite to polymetallic nodules to crusts, suggesting that the improved degree of hydrogeneous origin induces the enrichment of REE. 2) The crusts in the Western Pacific, formed through hotspot produced guyots trails, have relatively lower REE than those in the Mid-Pacific. The latter could be attributed to the peculiar submarine topography of seamounts formed by intraplate volcanism. 3) The non-phosphatized younger crust layers have 40% higher Co than the phosphatized older layers. This indicates the modification of the elemental composition in these crusts by phosphatization. A general depletion of hydroxide-dominated elements such as Co, Ni, and Mn and enrichment of P, Ca, Ba, and Sr is evident in phosphatized crusts, whereas non-phosphatized younger generation crusts are rich in terrigenous aluminosilicate detrital matter. 4) Co increases above the carbonate compensation depth (CCD) from less than 0.53% to over 0.65% in seamount regions with water depth of less than 2,500 m, suggesting the significance of the dissolution of carbonate in the sea water column to the growth and composition of crusts.

Published

2015

15. SEDIMENT PROVENANCE IDENTIFICATION AND PALEOENVIRONMENTAL CHARACTERISTICS SINCE MIS5 IN THE WESTERN SHELF AREA OF THE SOUTH YELLOW SEA.

Author

Yifang Sun, Zhaojun Song, Xiangwen Ren, Xinru Wang, Yujie Hu, and Ziwen Zhang

Abstract

The sediment provenance identification and paleoenvironmental characteristics in the western shelf area of the South Yellow Sea, are of great significance to study the environmental evolution of the Chinese Shelf Sea since the Last Glacial period and to solve the environmental geological problems in the exploitation of the shelf. In this paper, the UCC-normalized rare earth element (REE) distribution patterns, the provenance index of sediments (PI) and the correlation between 5Eu and ∑REE are used to analyze the sediment provenance since MIS5 in the western shelf area of the South Yellow Sea. Based on the analysis of mineral assemblages, sediment grain size, foraminifera and sporopollen of core NT1 and NT2, and combined with the distribution characteristics of paleochannel, the paleoenvironmental characteristics in the western shelf area in the South Yellow Sea during the marine isotope stage MIS4 and MIS2 are further studied. The results show that, in the core NT1, sediment provenances of MIS2 and MIS4 in Core NT1 mainly sourced from the Yellow River and the main sediment provenances of MIS1, MIS3 and MIS5 from the Yangtze River. In core NT2, the main sediment provenance of MIS3 period was from the Yellow River, and the main sediment provenances of MIS1, MIS2, MIS4 and MIS5 sourced from the Yangtze River. All the results incdicicated that the western shelf area of the South Yellow Sea was in a cold and low-sea-level sedimentary environment during MIS4 and MIS2, and the main vegetation types were grassland, coniferous forest and conifer-broadleaf forest. [ABSTRACT FROM AUTHOR]

Published

2021

16. CONTROLS ON THE CONCENTRATION OF CO IN FERROMANGANESE CRUSTS FROM THE MAGELLAN SEAMOUNTS, WEST PACIFIC

Author

Xiangwen Ren and James R. Hein

Subjects

geography, Oceanography, geography.geographical_feature_category, Seamount, Ferromanganese, Geology

Published

2017

17. GENESIS AND ORE-FORMING STAGES OF CO-RICH FERROMANGANESE CRUSTS FROM SEAMOUNT M OF MAGELLAN SEAMOUNTS: EVIDENCE FROM GEOCHEMISTRY AND CO CHRONOLOGY

Author

Jihua Liu, Xuefa Shi, Xiangwen Ren, Yingchun Cui, and Xuehui Lin

Subjects

Water depth, geography, geography.geographical_feature_category, Seamount, Geochemistry, Crust, Oxygen minimum zone, Ferromanganese, Geology, Chronology, Metallogeny

Abstract

17 Co-rich ferromanganese crusts from 9 sites at the Seamount M in the northwest of Magellan Seamounts were investigated geochemically with inductively coupled plasma atomic emission spectroscopy(ICP-AES) and weight method.Geochemical composition of those samples suggests that those Co-rich Fe-Mn crusts are hydrogenetic in origin and most of them were not phosphatized during formation.This paper extends the usage of Co chronology to bulk samples.The ages dated by the Co chronology suggest that those Co-rich Fe-Mn crusts mainly formed since Miocene,and one of them were phosphatized around 15 Ma when the oxygen minimum zone(OMZ),where the Co-rich Fe-Mn crust formed,immerged to the present water depth of 2 000～2 700 m.

Published

2012

18. GEOCHEMISTRY OF A MAKER OF YOUNGER DEPOSIT OF CO-RICH FERROMANGANESE CRUST FROM LINE ISLANDS

Author

Xuefa Shi, Jihua Liu, Xiangwen Ren, and Jingwu Yin

Subjects

geography, geography.geographical_feature_category, Seamount, Geochemistry, Mineralogy, Crust, Seawater, Electron microprobe, Authigenic, Ferromanganese, Chemical composition, Grain size, Geology

Abstract

A reddish-brown detrital material has been discovered,which is obviously younger than the Co-rich ferromanganese crust,from the seamount MP2 of the Line Islands.The material is fine in grain size,and occurs in the interstices between the columns of Fe-Mn oxides.Based on the observation of hand specimen and polished sections of Co-rich ferromanganese crusts from the Line Islands,it can be concluded that this reddish-brown detrital material can be used as a marker of a younger deposit in ferromanganese crusts.The reddish-brown detrital material and the Fe-Mn oxides around it were investigated geochemically by electron-probe microanalysis(EPMA).EPMA data suggest that the Co-rich ferromanganese crust is hydrogenetic in origin,and the chemical composition of the reddish-brown detrital material is characterized by Fe,Si and Al,and a lower Mn in comparison with the Fe-Mn oxides around it.Base on the geochemical characteristics and morphology of the reddish-brown detrital material,and with reference to the high primary productivity in the area around the seamount MP2,it is supposed that the reddish-brown detrital material is most probably a kind of authigenic Fe-Si-Al colloidal precipitation from seawater younger than the Co-rich ferromanganese crusts.

Published

2011

19. Role of Hydrology in the Formation of Co-rich Mn Crusts from the Equatorial N Pacific, Equatorial S Indian Ocean and the NE Atlantic Ocean

Author

Bruce W. Mountain, Xiangwen Ren, Ramesh Rajani, Geoffrey P. Glasby, V. K. Banakar, and Theckethottathil C. Vineesh

Subjects

geography, geography.geographical_feature_category, Range (biology), Seamount, chemistry.chemical_element, Geology, Oxygen minimum zone, Oxygen, Oceanography, chemistry, Geochemistry and Petrology, Oceanic crust, Thermohaline circulation, Seawater, World Ocean Circulation Experiment

Abstract

Co-rich Mn crusts from four different locations of the world ocean have been studied to understand the role of dissolved oxygen of the ambient seawater in the formation of Co-rich Mn crusts. WOCE (World Ocean Circulation Experiment) oxygen profiles of modern seawater in the Equatorial North Pacific Ocean, Equatorial South Indian Ocean and the North East Atlantic Ocean have been evaluated with respect to the occurrence of Co-rich Mn crusts at depths ranging from 1500 to 3200 m. The oxygen content at these depths varied from ∼90–240 µmol/kg. The oxygen minimum zone (OMZ), with oxygen contents in the range ∼45–100 µmol/kg, is located in the depth range 800–900 m in these regions. The age of the ocean crust on which seamounts formed is in the range 80.3–180 Ma. Profiles of the oxygen contents of seawater with depth in the oceans are shown to be extremely useful in establishing the optimum conditions for the formation of Co-rich Mn crusts. The use of WOCE oxygen profiles to study geochemical processes in the oceans is highly recommended.

Published

2010

20. Geochemistry of rare earth elements in cobalt-rich crusts from the Mid-Pacific M seamount

Author

Jihua Liu, Xuefa Shi, Yingchun Cui, and Xiangwen Ren

Subjects

geography, geography.geographical_feature_category, Chemistry, Seamount, Rare earth, Geochemistry, Flux, chemistry.chemical_element, Mineralogy, General Chemistry, Water depth, Geochemistry and Petrology, Gravimetric analysis, Seawater, Cobalt, Scavenging

Abstract

Rare earth elements (RFEs) and major elements of 25 cobalt-rich crusts obtained from different depths of Mid-Pacific M seamount were analyzed using inductively coupled plasma-atomic emission spectrometer and gravimetric method. The results showed that they were hydrogenous crusts with average Sigma REE content of 2084.69 mu g/g and the light REE (LREE)/heavy REE (HREE) ratio of 4.84. The shale-normalized PEE patterns showed positive Ce anomalies. The total content of strictly trivalent REEs increased with water depth. The Ce content and LREE/HREE ratios in Fe-Mn crusts above 2000 in were lower than those below 2000 m. The change in RE E with water depth could be explained by two processes: adsorptive scavenging by setting matters and behaviors of REE in seawater. However, the Ce abundance took no obvious correlation with water depth reflects the constant Ce flux. The Cc in crusts existed mainly as Ce(IV), implying that the oxidative-enriching process was controlled by kinetic factors.

Published

2009

21. Fine-scale compositional variations in a Co-rich Mn crust from the Marcus-Wake Seamount cluster in the western Pacific based on electron microprobe analysis (EMPA)

Author

G. P. Glasby, Jingwu Yin, Xiangwen Ren, Xuefa Shi, and Jihua Liu

Subjects

geography, geography.geographical_feature_category, Milankovitch cycles, Seamount, Flux, Mineralogy, Crust, Guyot, Electron microprobe, Oceanography, Ferromanganese, chemistry.chemical_compound, Geophysics, chemistry, Geochemistry and Petrology, Geology, EMPA

Abstract

The internal structure and composition of a 37-mm-thick Co-rich Mn crust from the Lamont Guyot in the Marcus-Wake Seamount cluster have been studied in detail by means of electron-probe microanalysis (EPMA). 184 point analyses for 16 elements were carried out at an average spacing of 0.20 mm and each point was dated using the Co-geochronometer method. Two types of variation in composition were observed in the crust: long-term trends and short-term erratic variations. The long-term trends were identified using the fifth order polynomial. Mn and Ni were shown to increase in concentration from 23.3 Ma to a maximum at about 20 Ma and then decline steadily to the Present, whereas Fe, P and Si showed the opposite trend. By contrast, Co displayed a double humped pattern with maxima at about 19 Ma and 3.5 Ma and minima at 23.3 Ma, about 11 Ma and at Present. The long-term trends in element concentrations in the crust lead us to suggest that much of the Fe in western Pacific Ocean ferromanganese crusts is aeolian in origin and derived from the deserts of central Asia. Cooling of the Asian mainland at about 20 Ma led to an increase in the flux of Fe to the oceans. This was supplemented by an additional input of Fe into the crusts as a consequence of the dissolution of biogenic CaCO3 tests at 4.5−10.5 Ma. For the short-term erratic variations, three periods of 0.61, 0.96 and 1.65 m.y. were identified by spectral analysis. The second harmonics of these periods are 1.22, 1.92 and 3.30 m.y., which may correspond to the highest-order periods for eccentricity of 1.31, 2.04 and 3.47 m.y. This suggests the possibility that the high-frequency oscillations of the time series data are linked to climatic changes controlled by the highest-order periods of the Milankovitch cycles.

Published

2007

22. Co–rich Mn crusts from the Magellan Seamount cluster: the long journey through time

Author

Geoffrey P. Glasby, Irina A. Pulyaeva, Xuefa Shi, and Xiangwen Ren

Subjects

geography, geography.geographical_feature_category, Pacific Plate, Seamount, Guyot, Environmental Science (miscellaneous), Geotechnical Engineering and Engineering Geology, Oceanography, Oxygen minimum zone, Seafloor spreading, Cretaceous, Thermal subsidence, Paleontology, Shield volcano, Earth and Planetary Sciences (miscellaneous), Geology

Abstract

The Magellan seamounts began forming as large submarine shield volcanoes south of the equator during the Cretaceous. These volcanoes formed as a cluster on the small Pacific plate in a period when tectonic stress was absent. Thermal subsidence of the seafloor led to sinking of these volcanoes and the formation of guyots as the seamounts crossed the equatorial South Pacific (10–0°S) sequentially and ocean surface temperatures became too high for calcareous organisms to survive. Guyot formation was completed between about 59 and 45 Ma and the guyots became phosphatized at about 39–34 and 27–21 Ma. Ferromanganese crusts began formation as proto-crusts on the seamounts and guyots of the Magellan Seamount cluster towards the end of the Cretaceous up to 55 Ma after the formation of the seamounts themselves. The chemical composition of these crusts evolved over time in a series of steps in response to changes in global climate and ocean circulation. The great thickness of these crusts (up to 15–20 cm) reflects their very long period of growth. The high Co contents of the outer parts of the crusts are a consequence of the increasing deep circulation of the ocean and the resulting deepening of the oxygen minimum zone with time. Growth of the Co-rich Mn crusts in the Magellan Seamount cluster can be considered to be the culmination of a long journey through time.

Published

2007

23. Fine-scale compositional variations in a Co-rich Mn crust from the Marcus-Wake Seamount cluster in the western Pacific based on electron microprobe analysis (EMPA).

Author

Xiangwen Ren, G. Glasby, Jihua Liu, Xuefa Shi, and Jingwu Yin

Subjects

*ELECTRON probe microanalysis, *SEAMOUNTS, *GEOCHRONOMETRY, *POLYNOMIALS

Abstract

Abstract  The internal structure and composition of a 37-mm-thick Co-rich Mn crust from the Lamont Guyot in the Marcus-Wake Seamount cluster have been studied in detail by means of electron-probe microanalysis (EPMA). 184 point analyses for 16 elements were carried out at an average spacing of 0.20 mm and each point was dated using the Co-geochronometer method. Two types of variation in composition were observed in the crust: long-term trends and short-term erratic variations. The long-term trends were identified using the fifth order polynomial. Mn and Ni were shown to increase in concentration from 23.3 Ma to a maximum at about 20 Ma and then decline steadily to the Present, whereas Fe, P and Si showed the opposite trend. By contrast, Co displayed a double humped pattern with maxima at about 19 Ma and 3.5 Ma and minima at 23.3 Ma, about 11 Ma and at Present. The long-term trends in element concentrations in the crust lead us to suggest that much of the Fe in western Pacific Ocean ferromanganese crusts is aeolian in origin and derived from the deserts of central Asia. Cooling of the Asian mainland at about 20 Ma led to an increase in the flux of Fe to the oceans. This was supplemented by an additional input of Fe into the crusts as a consequence of the dissolution of biogenic CaCO3 tests at 4.5−10.5 Ma. For the short-term erratic variations, three periods of 0.61, 0.96 and 1.65 m.y. were identified by spectral analysis. The second harmonics of these periods are 1.22, 1.92 and 3.30 m.y., which may correspond to the highest-order periods for eccentricity of 1.31, 2.04 and 3.47 m.y. This suggests the possibility that the high-frequency oscillations of the time series data are linked to climatic changes controlled by the highest-order periods of the Milankovitch cycles. [ABSTRACT FROM AUTHOR]

Published

2007