| Peer-Reviewed

Construction and Development of National Mineral Rock and Fossil Specimen Resource Center, China

Received: 23 August 2022     Accepted: 4 September 2022     Published: 8 September 2022
Views:       Downloads:
Abstract

National Mineral Rock and Fossil Specimen Resource Center (NMRFC) is an important infrastructure for the collection, management, sharing and preservation of geological specimen resources. It integrates the mineral rock and fossil specimens scattered in universities, scientific research institutes and museums in China in the field of geosciences in a standardized manner, establishes a specimen resource information platform by using modern information network technology, promotes the rational protection, scientific management and efficient sharing of specimen resources. By 2022, 301,790 specimen resources provided by 40 participants are shared on the website, including 125,873 fossils, 351,504 minerals, 107,843 rocks and 32,924 ores. Focusing on specimens and data, more than 200 thematic data sets and data products have been integrated, including China's typical ore deposits, China's prominent paleontological fossil groups, systematic mineralogy database, traditional Chinese medicine minerals database as well as gemstones and jade and so on. The NMRFC operates in a combination of online and offline ways, providing services for scientific and technological projects to support innovative research. It also plays an important role in gathering the resources of scientific research projects supported by national public finance. In view of the construction and sustainable development of the resource center, it is proposed to further strengthen the construction of incremental resources, comprehensively promote the construction of storage infrastructure, mine the potential value of data, and strengthen the construction of resource management capacity.

Published in Earth Sciences (Volume 11, Issue 5)
DOI 10.11648/j.earth.20221105.13
Page(s) 260-268
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2022. Published by Science Publishing Group

Keywords

Geological Specimen Resource, Mineral Rock and Fossil, National Resource Center, Resource Sharing, Platform Management

References
[1] Wang, R. D.; Yang, J. & Gao, M. X, et al. (2018). Thoughts on Strengthening and Standardizing the Management of Scientific Data in China. China Science & Technology Resources Review, 50 (2): 1-5.
[2] Atkinson, M.; Liew, C. S. & Galea M, et al. (2012). Data-intensive Architecture for Scientific Knowledge Discovery [J]. Distributed & Parallel Databases. 30 (5-6): 307-324.
[3] Wang, J. L.; Wang, M. M. & Shi L, et al. (2019). The Situation of Scientific Data Management and its Enlightenment to Earth Sciences of China. Advances in Earth Science, 34 (3): 306-315.
[4] Yuan, W. & Shi, L. (2017). Reflections on Mining and Utilization of Sci-Tech Resources Information Under Big Data. China Science & Technology Resources Review, 49 (6): 1-5.
[5] National Science and Technology Infrastructure Center. (2018). National Science Data Resource Development Report. Beijing: Scientific and Technical Documentation Press, 2019.
[6] Yang, X.; Qu, B. Q. & He Y T. (2016). Contrast Analysis and Its Revelation from Scientific Data Resource Sharing and Management on Main Countries. China Science & Technology Resources Review, 48 (6): 18-25.
[7] Xu, D. H.; Lv, X. Z. & Yuan, W. (2013). Research on the performance evaluation index system of the operation service of the national science and technology infrastructure platform. Basic Science in China, 15 (1): 40-43.
[8] Hu, Y. J.; Zhou, Q.Q.; & Zhang, J. J. (2009). Research on Performance Evaluation of National Science and Technology Infrastructure Platform Based on Multi-attribute Decision. China Science and Technology Forum, 12: 3-7.
[9] Liu, R. D.; Chu, W. B. & Zhu, Y, Q. (2012). Study on Key Problems of NSTI of China in Operation & Service Stag. Journal of Modern Information, 11 (32): 51-52.
[10] Jiang, M. N.; Zhao, Y. Y.; Liu, M. Y.; Cao, X. D. & Wei, Q. (2009). Construction and Application of Online Sharing Service Platform for the National Pathogen Resource Center. China Science & Technology Resources Review, 53 (1): 20-25.
[11] Notice of Ministry of Finance of Ministry of S & T on Publishing the List of Optimizing and Adjusting the National S & T Resources Sharing Service Platform. (2019-06-05) [2019-06-20]. http://www.most.gov.cn/mostinfo/xinxifenlei/fgzc/gfxwj/gfxwj2019/201906/t20190610_147031.htm.
[12] Yang, M.; He, M. Y. & Shi, S. (2017). Digitization and Quality Control of Geological Specimen Resources. China Science & Technology Resources Review. 49 (5): 45-51.
[13] Xie, Y.; Yang, M.; He, M. Y. & WU, Z. Y. (2017). Aggregation Standard and Experience of Scientific Specimen Resources. China Science & Technology Resources Review. 49 (5): 21-29.
[14] He, M. Y.; Yang, M. & WU, Z. Y. (2017). Construction of National Mineral Rock and Fossil Specimen Resources Sharing Infrastructure. e-Science & Application: Beijing, China. 8 (04), 24-31.
[15] Shao, M. Y.; He, M. Y. & Yang, M. (2017). Construction and Display of Palaeobiota Subject Database. e-Science & Application: Beijing, China. 8 (04), 77-82.
[16] Dong, J, K.; Yang, M.; Wu, Z. Y.; Qin, S. & Wang, Y, W. (2019). Systematic Mineralogy Data Characteristics and Database Construction. 49 (3): 727-736.
[17] Xue, S. N.; He, M. Y.; Yang, M. & WU, Z. Y. (2022). Construction and Application of Traditional Chinese Medicine Minerals Database. Earth Sciences, 11 (4): 158-170.
[18] Wang, X. L. & Xu, J. T. (2002). New Achievement in Paleontology Research -- A Brief Introduction to the Special Project of Chinese Fossils Research. China Basic science, 5: 16-21.
[19] Shu, D, G. & Chen, L. (1993) Advances in Palaeontology in the World. Journal of Northwest University. 23 (2): 177-188.
[20] Wang, D. H.; Zhang, S. H. & Xiong, X. X. (2018). Mineral Geology of China: Summary Volume of Typical Deposits. Geology Press, Beijing.
[21] He, M. Y. & Wu, G. G. (2013). Description Standard of Mineral, Rock and Ore specimen Resources and Deposit. Geology Press, Beijing.
[22] Wu, G. G. & He, M. Y. (2016). Description Standard of Invertebrate Fossil Specimen Resources. Geology Press, Beijing.
[23] Wu, G. G. & He, M. Y. (2017). Description Standard of Vertebrates, Plants, Conodonts and Paleolithic Specimen Resources. Geology Press, Beijing.
[24] Zhang, X. H. & Zhou, X. K. (2013). Traditional medicinal minerals in China. Geological Review, 59: 408.
[25] Zhang, Y. (2010). Development predicament and approaches to medical mineralogy in China. Resources and Industries, 12, 117-120.
[26] Chen, J.; Li, D. B.; Yang, Z. J. & Lu, Z. H. (2021). Research on Data Collection Management of Scientific Research Projects in Metrology Field. China Science & Technology Resources Review, 53 (4): 83-89.
[27] Zhi, F. W. & Zhao, Y. C. (2021). Analysis of Scientific Data Exchange Policy of Chinese Sci-Tech planning projects. Research on Library Science. 23: 45-52.
[28] Wu, C. L.; Liu, G.; Zhou, Q.; Zhang, X. L. & Xu, K. (2020). Fundamental Problems of Integrated Application of Big Data in Geoscience. Bulletin of Geological Science and Technology, 39 (4): 1-11.
[29] Xu, B.; Hou, Z. Q.; Griffin, W. L.; Lu, Y.; Belousova, E.; Xu, J. F. & O'Reilly, S. Y. (2021). Recycled Volatiles Determine Fertility of Porphyry Deposits in Collisional Settings. American Mineralogist, 106 (4): 656-661.
[30] Zhou, C. H.; Wang, H.; Wang, C. C. & Hou, Z. Q. (2021). Geoscience Knowledge Graph in the Big Data Era. Science China Earth Sciences, 64 (7): 1105–1114.
[31] Su, S. B.; Zhang, Y. P.; Zhang, L. L.; He, Z. Y. & Zhang, J. L. (2011). Raman on Raman spectroscopy application in quality control of traditional Chinese medicine. Chinese Journal of Experimental Traditional Medical Formulae: Beijing, China. 17, 284-286.
[32] Morrison, S. M.; Liu, C. & Eleish, A. (2017). Network Analysis of Mineralogical Systems. American Mineralogist. 102 (8): 1588-1596.
Cite This Article
  • APA Style

    Mei Yang, Mingyue He, Nan Xiao, Zhiyuan Wu. (2022). Construction and Development of National Mineral Rock and Fossil Specimen Resource Center, China. Earth Sciences, 11(5), 260-268. https://doi.org/10.11648/j.earth.20221105.13

    Copy | Download

    ACS Style

    Mei Yang; Mingyue He; Nan Xiao; Zhiyuan Wu. Construction and Development of National Mineral Rock and Fossil Specimen Resource Center, China. Earth Sci. 2022, 11(5), 260-268. doi: 10.11648/j.earth.20221105.13

    Copy | Download

    AMA Style

    Mei Yang, Mingyue He, Nan Xiao, Zhiyuan Wu. Construction and Development of National Mineral Rock and Fossil Specimen Resource Center, China. Earth Sci. 2022;11(5):260-268. doi: 10.11648/j.earth.20221105.13

    Copy | Download

  • @article{10.11648/j.earth.20221105.13,
      author = {Mei Yang and Mingyue He and Nan Xiao and Zhiyuan Wu},
      title = {Construction and Development of National Mineral Rock and Fossil Specimen Resource Center, China},
      journal = {Earth Sciences},
      volume = {11},
      number = {5},
      pages = {260-268},
      doi = {10.11648/j.earth.20221105.13},
      url = {https://doi.org/10.11648/j.earth.20221105.13},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.earth.20221105.13},
      abstract = {National Mineral Rock and Fossil Specimen Resource Center (NMRFC) is an important infrastructure for the collection, management, sharing and preservation of geological specimen resources. It integrates the mineral rock and fossil specimens scattered in universities, scientific research institutes and museums in China in the field of geosciences in a standardized manner, establishes a specimen resource information platform by using modern information network technology, promotes the rational protection, scientific management and efficient sharing of specimen resources. By 2022, 301,790 specimen resources provided by 40 participants are shared on the website, including 125,873 fossils, 351,504 minerals, 107,843 rocks and 32,924 ores. Focusing on specimens and data, more than 200 thematic data sets and data products have been integrated, including China's typical ore deposits, China's prominent paleontological fossil groups, systematic mineralogy database, traditional Chinese medicine minerals database as well as gemstones and jade and so on. The NMRFC operates in a combination of online and offline ways, providing services for scientific and technological projects to support innovative research. It also plays an important role in gathering the resources of scientific research projects supported by national public finance. In view of the construction and sustainable development of the resource center, it is proposed to further strengthen the construction of incremental resources, comprehensively promote the construction of storage infrastructure, mine the potential value of data, and strengthen the construction of resource management capacity.},
     year = {2022}
    }
    

    Copy | Download

  • TY  - JOUR
    T1  - Construction and Development of National Mineral Rock and Fossil Specimen Resource Center, China
    AU  - Mei Yang
    AU  - Mingyue He
    AU  - Nan Xiao
    AU  - Zhiyuan Wu
    Y1  - 2022/09/08
    PY  - 2022
    N1  - https://doi.org/10.11648/j.earth.20221105.13
    DO  - 10.11648/j.earth.20221105.13
    T2  - Earth Sciences
    JF  - Earth Sciences
    JO  - Earth Sciences
    SP  - 260
    EP  - 268
    PB  - Science Publishing Group
    SN  - 2328-5982
    UR  - https://doi.org/10.11648/j.earth.20221105.13
    AB  - National Mineral Rock and Fossil Specimen Resource Center (NMRFC) is an important infrastructure for the collection, management, sharing and preservation of geological specimen resources. It integrates the mineral rock and fossil specimens scattered in universities, scientific research institutes and museums in China in the field of geosciences in a standardized manner, establishes a specimen resource information platform by using modern information network technology, promotes the rational protection, scientific management and efficient sharing of specimen resources. By 2022, 301,790 specimen resources provided by 40 participants are shared on the website, including 125,873 fossils, 351,504 minerals, 107,843 rocks and 32,924 ores. Focusing on specimens and data, more than 200 thematic data sets and data products have been integrated, including China's typical ore deposits, China's prominent paleontological fossil groups, systematic mineralogy database, traditional Chinese medicine minerals database as well as gemstones and jade and so on. The NMRFC operates in a combination of online and offline ways, providing services for scientific and technological projects to support innovative research. It also plays an important role in gathering the resources of scientific research projects supported by national public finance. In view of the construction and sustainable development of the resource center, it is proposed to further strengthen the construction of incremental resources, comprehensively promote the construction of storage infrastructure, mine the potential value of data, and strengthen the construction of resource management capacity.
    VL  - 11
    IS  - 5
    ER  - 

    Copy | Download

Author Information
  • National Mineral Rock and Fossil Specimen Resource Center, China University of Geosciences (Beijing), Beijing, China

  • National Mineral Rock and Fossil Specimen Resource Center, China University of Geosciences (Beijing), Beijing, China

  • School of Foreign Languages, China University of Geosciences (Beijing), Beijing, China

  • School of Information Engineering, China University of Geosciences (Beijing), Beijing, China

  • Sections