国家重要野生植物种质资源库共享服务平台设计与实现

邱金水,蔡杰,杨娅娟,庄会富

植物遗传资源学报. 2022, 23(5): 1536-1545

PDF(20794 KB)
PDF(20794 KB)
植物遗传资源学报 ›› 2022, Vol. 23 ›› Issue (5) : 1536-1545. DOI: 10.13430/j.cnki.jpgr.20220316001
论文

国家重要野生植物种质资源库共享服务平台设计与实现

  • 邱金水1,蔡杰2, 杨娅娟2,庄会富1
作者信息 +

Design and Implementation of Sharing Service Platform for National Wild Plant Germplasm Resource Center

  • QIU Jin-Shui1, CAI Jie2, YANG Ya-Juan2, ZHUANG Hui-Fu1
Author information +
History +

摘要

国家重要野生植物种质资源库是科技部和财政部设立的31个国家生物种质和实验材料国家平台之一,目前由国内11家从事野生植物种质资源收集保藏的科研院所和高校参与建设。为了实现各参建单位在野生植物种质资源的数据汇交、资源共享和统计分析等方面进行协同工作,中国科学院昆明植物研究所中国西南野生生物种质资源库联合科技信息中心,首先对共享服务平台进行需求分析,然后对平台的架构、功能模块、核心业务流程和数据库等进行设计,并基于ASP.NET MVC框架,采用数据质量保证技术、互联互通技术、权限控制技术和安全技术等实现了国家重要野生植物种质资源库共享服务平台。该平台能有效控制种质资源的数据质量,实现了与中国科技资源共享网等相关平台的数据交互,满足了较为复杂的权限分配需求,平台的安全性较高,从而促进了各参建单位在野生植物种质资源的采集、处理、保藏和分发等方面进行协同工作,为广大科技工作者在获取野生植物种质资源的实物和数据方面提供了一个便捷的途径,促进了国家科技资源尤其是以种子为代表的植物遗传资源的共享,为提高国家战略生物资源的开发利用起到了重要作用。此外,该平台的设计与实现方法亦可为其他领域的资源共享服务平台建设提供借鉴。

Abstract

The National Wild Plant Germplasm Resource Center(NWPGRC) is one of the 31 national biological germplasm and experimental materials platforms established by the Ministry of Science and Technology and the Ministry of Finance. At present, 11 domestic research institutes and universities engaged in the collection and preservation of wild plant germplasm resources participate in the construction. In order to realize the collaborative work of all participating units in data exchange, resource sharing and statistical analysis of wild plant germplasm resources, The Germplasm Bank of Wild Species with the Science and Technology Information Center, Kunming Institute of Botany, Chinese Academy of Sciences first analyzed the needs of the shared service platform, and then designed the architecture, functional modules, core business processes and databases of the platform. Based on the ASP.NET MVC framework, the shared service platform of NWPGRC was realized by using data quality assurance technology, interconnection technology, authority control technology and security technology. The platform can effectively control the data quality of germplasm resources, realize the data interaction with relevant platforms such as China Science and technology resources sharing network, meet the more complex requirements of authority allocation, and the security of the platform is high. It not only promoted the cooperative work of the participating units in the collection, treatment, preservation and distribution of wild plant germplasm resources, but also provided a convenient way for the vast number of scientific and technological workers to obtain the material objects and data of wild plant germplasm resources, and promoted the sharing of national scientific and technological resources, especially plant genetic resources represented by seeds. It plays an important role in improving the development and utilization of national strategic biological resources. In addition, the design and implementation method of the platform can also provide reference for the construction of resource sharing service platforms in other fields.

关键词

野生植物 / 种质资源 / 共享服务平台 / 植物遗传资源;平台建设

Key words

wild plants / germplasm resources / sharing service platform / plant genetic resources / platform construction

引用本文

EndNote

Ris (Procite)

Bibtex

导出引用
邱金水,蔡杰,杨娅娟,庄会富. 国家重要野生植物种质资源库共享服务平台设计与实现. 植物遗传资源学报. 2022, 23(5): 1536-1545 https://doi.org/10.13430/j.cnki.jpgr.20220316001
QIU Jin-Shui, CAI Jie, YANG Ya-Juan, ZHUANG Hui-Fu. Design and Implementation of Sharing Service Platform for National Wild Plant Germplasm Resource Center. Journal of Plant Genetic Resources. 2022, 23(5): 1536-1545 https://doi.org/10.13430/j.cnki.jpgr.20220316001

参考文献

[1]俞德浚,郑光华,张洁.积极开展野生植物种质资源的收集、保存和研究工作的建议.植物学通报,1984(Z1):41-43.Yu D J, Zheng G H, Zhang J. Suggestions on the collection, preservation and research of wild plant germplasm resources. Chinese Bulletin of Botany,1984(Z1):41-43.
[2]李德铢,娄治平.履行国际公约建设中国西南野生生物种质资源库.中国科学院院刊,2006(1):79-81.Li D Z, Lou Z P. To implement international conventions and construct germplasm bank of wild species in southwest China. Bulletin of Chinese Academy of Sciences,2006(1):79-81.
[3]李德铢,杨湘云,王雨华,蔡杰.中国西南野生生物种质资源库.中国科学院院刊,2010,25(5):565-569.Li D Z, Yang X Y, Wang Y H, Cai J. The Germplasm Bank of Wild Species. Bulletin of Chinese Academy of Sciences,2010,25(5):565-569.
[4]司海平,方沩,唐鹏,曹永生.基于SOA的农作物种质资源调查信息系统研究.植物遗传资源学报,2010,11(5):517-521.Si H P, Fang W , Tang P, Cao Y S. Research of Crop Ger mplasm Resources Investigation Infor mation System Based on SOA. Journal of Plant Genetic Resources,2010,11(5):517-521.
[5]潘恺,方沩,陈丽娜,曹永生.基于云计算的农作物种质资源数据挖掘平台研究.植物遗传资源学报,2015,16(3):649-652.Pan K, Fang W, Chen L N, Cao Y S. Research of Crop Germplasm Resources Data Mining Platform Based on Cloud Computing. Journal of Plant Genetic Resources,2015,16(3):649-652.
[6]杨华,王国军,朱天生,林田,魏仕伟,石群芳,张前荣,王飞,刘鸿艳,罗利军,龙萍.上海农作物种质资源库管理信息系统建设.植物遗传资源学报,2019,20(2):459-465.Yang H, Wang G J, Zhu T S, Lin T, Wei Z W, Shi Q F, Zhang Q R, Wang F, Liu H Y, Luo L J, Long P. Construction of Shanghai Crop Germplasm Resources Management Information System. Journal of Plant Genetic Resources,2019,20(2):459-465.
[7]杨欣,朱银,狄佳春,徐婷婷,汪巧玲,邹淑琼,颜伟.江苏农业种质资源平台运行管理信息系统建设.植物遗传资源学报,2021,22(2):309-316.Yang X, Zhu Y, Di J C, Xu T T, Wang Q L, Zhou S Q, Yan W. Construction of Operation Management Information System for Jiangsu Agricultural Germplasm Resources Infrastructure. Journal of Plant Genetic Resources,2021,22(2):309-316.
[8]李拓径,王雨华.青藏高原植物种质资源数据库及应用平台建设.植物分类与资源学报,2013,35(3):234-240.Li T J, Wang Y H. The Plant Germplasm Database and Platform of Qinghai-Tibet Plateau. Plant Diversity,2013,35(3):234-240.
[9]吴刚,黄文娟,姚江河.塔里木盆地野生植物种质资源共享信息库构建.塔里木大学学报,2013,25(2):70-75.Wu G, Huang W J, Yao J H. The Construction of Sharing Information Databases on Wild Plants Germplasm Resources in Tarim Basin. Journal of Tarim University,2013,25(2):70-75.
[10]王秋玲,陈彬,王文全,张昭,李标,魏建和.中国药用植物种质资源迁地保护信息管理系统设计与实现.中国现代中药,2017,19(9):1207-1210.Wang Q L, Chen B, Wang W Q, Zhang Z, Li B,Wei J H. Design and Implementation of Ex-situ Conservation Information Management System for Chinese Herbal Medicinal Plant Germplasm. Modern Chinese Medicine,2017,19(9):1207-1210.
[11]于涛.“北京市植物种质资源信息管理系统”的建设.林业资源管理,2018(2):119-124.Yu T. Establishment of the Plant Germplasm Resources Information Management System of Beijing. Forest Resources Management,2018(2):119-124.
[12]孔晓蕾.植物种质资源电子信息档案的建立与应用.档案天地,2020(3):37-38.Sun X L. Establishment and application of electronic information archives of plant germplasm resources. Archives World,2020(3):37-38.
[13]孟未来,路明祥.辽宁省种质资源信息微官网(MLGRIS)设计与开发.农业经济,2019(2):83-85.Meng W L, LU M X. Design and development of The Micro official website of Liaoning Germplasm Resources Information. Agricultural Economy,2019(2):83-85.
[14]孙兴莲,杨欣,丁思惠,李宗俊.江苏省农业种质资源数据服务平台的设计与构建.江苏农业科学,2021,49(13):192-197.Sun X L, Yang X, Ding S H, Li Z J. Design and construction of agricultural germplasm resources data service platform in Jiangsu Province. Jiangsu Agricultural Sciences,2021,49(13):192-197.
[15]姜孟楠,赵元元,刘梦莹,曹旭东,魏强.国家病原微生物资源库在线共享服务平台的构建与应用.中国科技资源导刊,2021,53(1):20-25.Jiang M N, Zhao Y Y, Liu M Y, Cao X D, Wei Q. Construction and Application of Online Sharing Service Platform for the National Pathogen Resource Center. China Science Technology Resources Review,2021,53(1):20-25.
[16]Cheng Wang, Zhi Guang Huang, Hui Min Liu, Jin Gou, Li Xiao Zheng. ASP.NET Websites Longitudinal Security Theoretical System. Applied Mechanics and Materials, 2014, 2987(513-517):597-601.
[17]WEI Xianmin. Research and development of rubber tree germplasm resource information management system based on C/S and B/S integrated structure. International conference on advanced computer control. Harbin, China: IEEE, 2011.
[18]YU Hao. Platform design of sports meeting management system for regular colleges and universities based on B/S structure. Wireless Personal Communications, 2018, 102(2):1223-1232.
[19]Madyatmadja Evaristus Didik, Hakim Aditya Nur, Sembiring David Jumpa Malem. Performance testing on Transparent Data Encryption for SQL Server's reliability and efficiency. Journal of Big Data, 2021, 8(1).KENNEDY A, SYME D. Design and implementation of generics for the .NET common language runtime. ACM SIGPLAN Notices, 2001, 36(5):1-12.
[20]KENNEDY A, SYME D. Design and implementation of generics for the .NET common language runtime. ACM SIGPLAN Notices, 2001, 36(5):1-12.
PDF(20794 KB)

文章所在专题

资源与环境

55

Accesses

0

Citation

Detail
段落导航
相关文章

/