基于文献计量学的深远海地质研究分析与展望

刘娅楠; 刘森; 贾超; 胡邦琦; 宋维宇; 杨帆

doi:10.16028/j.1009-2722.2020.123

基于文献计量学的深远海地质研究分析与展望

1.
山东大学海洋研究院，青岛 266237

2.
中国地质调查局青岛海洋地质研究所，青岛 266237

基金项目: 中国地质调查局项目（DD20191010，DD20191003）

详细信息

作者简介: 刘娅楠（1997—），女，在读硕士，主要从事海洋地质方面的研究工作. E-mail：yanan_liu@mail.sdu.edu.cn

通讯作者: 刘森（1989—），男，博士，助理研究员，主要从事海岸带环境、海洋地质方面的研究工作. E-mail：sen_liu@sdu.edu.cn

中图分类号: P736

收稿日期: 2020-08-13

刊出日期: 2021-12-28

A PERSPECTIVE OF DEEP OCEAN GEOLOGICAL RESEARCH BASED ON BIBLIOMETRICS

1.
Institute of Marine Science and Technology, Shandong University, Qingdao 266237, China

2.
Qingdao Institute of Marine Geology, China Geological Survey, Qingdao 266237, China

More Information

Corresponding author: LIU Sen, sen_liu@sdu.edu.cn

Received Date: 13 August 2020

Publish Date: 28 December 2021

摘要

摘要:
深远海海洋地质的研究具有重要的科研和社会价值，是当今国际发展的一大趋势。运用CiteSpace软件对Web of Science核心数据库中相关文献进行分析，探究当前国际研究现状、研究热点和前沿。结果表明，该领域目前仍处于发展阶段并具有广阔的研究和应用前景，90年代前后为其迅速发展阶段；欧美等发达国家在该领域成果突出，而我国近年来呈现上升势头，但仍有较大的发展空间；深远海地质的文献联系不够紧密，各学科方向有待完善。其中，构造地质学和沉积学是该领域的热点研究方向，地球化学物理方法是常用的研究手段，海底峡谷是热点研究区域，全新世是研究的主要时期。
- CiteSpace /
- 海洋地质 /
- 深远海 /
- 文献计量学
Abstract:
The study of deep ocean geology, as one of the major trends of world scientific research, is critical important in both the scientific research and social development. In order to explore the research status of deep ocean geology of the world, their research hotspots and frontiers, the software of CiteSpace was selected by the authors to analyze the papers in the Web of Science Databases. The results suggest that this approach is still in the stage of development and has broad research and application potentials. It entered a rapid development stage in the years around 1990s. Developed countries such as some European countries and the United States have made outstanding achievements in the field. Although China has made great progress in recent years, there is still a long way to go. Papers on deep ocean geology are still not closely linked and improvement is required. Tectonics and sedimentology remain the hot disciplines. Geochemistry and geophysics have become the popular research methods. Submarine canyons are the hot research areas and the Holocene is the main era for research.
- CiteSpace /
- marine geology /
- deep ocean /
- bibliometrics

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图 1 1950—2020年深远海海洋地质文献发文量

Figure 1.

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图 2 深远海海洋地质各相关研究方向文献数量及占比

Figure 2.

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图 3 深远海海洋地质领域发文量前10的国家

Figure 3.

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图 4 深远海海洋地质发文国际合作关系

Figure 4.

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图 5 深远海海洋地质核心文献共被引演进图谱

Figure 5.

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图 6 关键词共现时间

Figure 6.

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表 1 1950—2020年国际深远海海洋地质学领域发文机构、作者和期刊

Table 1. Publishers, authors and periodicals in the field of deep ocean geology from 1950 to 2020

排名	期刊	机构	作者
1	Marine Geology	Centre National De La Recherche Scientifique Cnrs	CANALS M
2	Marine and Petroleum Geology	Helmholtz Association	SHI X F
3	Quaternary Science Reviews	Chinese Academy of Sciences	PIPER D J W
4	Deep Sea Research Part Ⅱ Topical Studies in Oceanography	Russian Academy of Sciences	DOWDESWELL J A
5	Sedimentary Geology	University of California System	ZHANG J
6	Deep Sea Research Part I Oceanographic Research Papers	Cnrs National Institute for Earth Sciences Astronomy Insu	MULDER T
7	Continental Shelf Research	University of Bremen	ANDREWS J T
8	Journal of Coastal Research	United States Department of the Interior	STEEL R J
9	Sedimentology	United States Geological Survey	VORREN T O
10	Quaternary International	Utrecht University	LABERG J S

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表 2 深远海海洋地质文献共被引分析

Table 2. Co-citation analysis of deep ocean geology papers

频次/次	年份	作者	题目	期刊
570	2013	REIMER P J	IntCal13 and Marine13 Radiocarbon age calibration curves 0～50 000 years cal BP	Radiocarbon
237	1998	STUIVER M	IntCal98 radiocarbon age calibration, 24 000～0 cal BP	Radiocarbon
147	2014	LAMBECK K	Sea level and global ice volumes from the Last Glacial Maximum to the Holocene	Proceedings of the National Academy of Sciences of the United States of America
140	2009	CATUNEANU O	Towards the standardization of sequence stratigraphy	Earth-Science Reviews
139	2004	HUGHEN K A	Marine 04 marine radiocarbon age calibration, 0～26 cal ka BP	Radiocarbon
128	1987	HAQ B U	Chronology of fluctuating sea levels since the Triassic	Science
121	2014	REBESCO M	Contourites and associated sediments controlled by deep-water circulation processes: State-of-the-art and future considerations	Marine Geology
101	1989	FAIRABANKS R G	A 17 000-year glacio-eustatic sea level record: influence of glacial melting rates on the Younger Dryas event and deep-ocean circulation	Nature
101	2012	TALLING P J	Subaqueous sediment density flows: Depositional processes and deposit types	Sedimentology
95	2005	MILLER K G	The phanerozoic record of global sea-level change	Science

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表 3 深远海海洋地质领域高频关键词

Table 3. High-frequency keywords in the field of deep ocean geology

序号	关键词	频次	序号	关键词	频次/次
1	evolution	2 916	11	continental margin	1 003
2	sediment	2 764	12	geochemistry	972
3	sea	2 122	13	model	967
4	basin	1 514	14	climate	960
5	stratigraphy	1 168	15	margin sediment	924
6	holocene	1 158	16	organic matter	884
7	history	1 125	17	continental shelf	875
8	ocean	1 116	18	sequence stratigraphy	859
9	sea level	1 092	19	water	851
10	record	1 070	20	variability	831

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参考文献(32)

[1]	左书华. 现代海洋地质学及其发展[J]. 海洋地质动态,2004,20(12):14-18,37-38. doi: 10.3969/j.issn.1009-2722.2004.12.004
[2]	周华. 海洋地质学成就与发展前景[C]//2008—2009年地质学学科发展报告: 中国地质学会, 2008.
[3]	李强. 基于文献计量学分析2016年度岩溶学研究热点[J]. 地球科学进展,2017,32(5):535-545. doi: 10.11867/j.issn.1001-8166.2017.05.0535
[4]	张灿灿,孙才志. 基于CiteSpace的水足迹文献计量分析[J]. 生态学报,2018,38(11):4064-4076.
[5]	袁世全, 李修松, 萧钧, 等. 中国百科大辞典[M]. 北京: 华夏出版社, 1990.
[6]	CHEN C. CiteSpace II: Detecting and visualizing emerging trends and transient patterns in scientific literature[J]. Journal of the Association for Information ence & Technology,2014,57(3):359-377.
[7]	段晓勇,孔祥淮,印萍,等. 全球海洋地球化学调查进展[J]. 海洋地质前沿,2020,36(7):1-10.
[8]	杨慧良,陆凯,褚宏宪. 海洋地质地球物理调查技术方法发展趋势探讨[J]. 海洋地质前沿,2019,35(9):1-5.
[9]	KULP J L,CARR D R. Surface area of deep-sea sediments[J]. Journal of Geology,1952,60(2):148-159. doi: 10.1086/625945
[10]	MILLIMAN J D,SYVITSKI J P M. Geomorphic tectonic control of sediment discharge to the ocean:the importance of small mountainous rivers[J]. Journal of Geology,1992,100(5):525-544. doi: 10.1086/629606
[11]	HE Q,MCKENZIE J A,OBERHANSLI H. Stable-isotope and percentage of carbonate data for upper cretaceous lower tertiary sediments from Deep-Sea Drilling Project Site-524,Cape Basin,South-Atlantic[J]. Initial Reports of the Deep Sea Drilling Project,1984,73:749-754.
[12]	丁陆彬,何思源,闵庆文. 应用CiteSpace对生态学科meta分析的文献计量学和可视化分析[J]. 生态学报,2019,39(24):9416-9423.
[13]	WHITE H D,MCCAIN K W. Visualizing a discipline: an author co-citation analysis of information science, 1972—1995[J]. Journal of the American Society for Information Science,1998,49(4):327-355.
[14]	MCCAIN K W. Mapping authors in intellectual space: a technical overview[J]. Journal of the Association for Information ence & Technology,2010,41(6):433-443.
[15]	魏瑞斌. 基于关键词的情报学研究主题分析[J]. 情报科学,2006,24(9):1400-1404. doi: 10.3969/j.issn.1007-7634.2006.09.027
[16]	REIMER P J,BARD E,BAYLISS A,et al. IntCal13 and marine 13 radiocarbon age calibration curves 0–50 000 years cal BP[J]. Radiocarbon,2013,55(4):1869-1887. doi: 10.2458/azu_js_rc.55.16947
[17]	STUIVER M,REIMER P J,BARD E,et al. IntCal98 radiocarbon age calibration, 24 000–0 cal BP[J]. Radiocarbon,1998,40(3):1041-1083. doi: 10.1017/S0033822200019123
[18]	HUGHEN K A,BAILLIE M G L,BARD E,et al. Marine radiocarbon age calibration, 0-26 cal kyr BP[J]. Radiocarbon,2004,46(3):1059-1086. doi: 10.1017/S0033822200033002
[19]	LAMBECK K,ROUBY H,PURCELL A,et al. Sea level and global ice volumes from the Last Glacial Maximum to the Holocene[J]. Proceedings of the National Academy of Sciences of the United States of America,2014,11(43):15296-15303.
[20]	HAQ B U, HARDENBOL J, VAIL P R. Chronology of fluctuating sea levels since the Triassic[J]. Science,1987,235(4793):1156-1167. doi: 10.1126/science.235.4793.1156
[21]	MILLER K G,KOMINZ M A,BROWNING J V,et al. The Phanerozoic record of global sea-level change[J]. Science,2005,310(5752):1293-1298. doi: 10.1126/science.1116412
[22]	CATUNEANU O,ABREUB V,BHATTACHARYA J P,et al. Towards the standardization of sequence stratigraphy[J]. Earth-Science Reviews,2009,92(1-2):1-33. doi: 10.1016/j.earscirev.2008.10.003
[23]	REBESCO M,HERNANDEZ-MOLINA F J,VAN ROOIJ D,et al. Contourites and associated sediments controlled by deep-water circulation processes: state of the art and future considerations[J]. Marine Geology,2014,352(SI):111-154.
[24]	FAIRBANKS R G. A 17 000-Year Glacio-Eustatic sea-level record-influence of Glacial melting rates on the Younger Dryas Event and deep-ocean circulation[J]. Nature,1989,342(6250):637-42. doi: 10.1038/342637a0
[25]	TALLING P J,MASSON D G,SUMNER E J. Subaqueous sediment density flows: depositional processes and deposit typ-es[J]. Sedimentology,2012,59(7):1937-2003. doi: 10.1111/j.1365-3091.2012.01353.x
[26]	李杰, 陈超美. CiteSpace科技文本挖掘及可视化[M]. 北京: 首都经济贸易大学出版社, 2016.
[27]	汪品先. 深海沉积与地球系统[J]. 海洋地质与第四纪地质,2009,29(4):1-11.
[28]	王绍武,闻新宇. 末次冰期冰盛期[J]. 气候变化研究进展,2011,7(5):381-382.
[29]	FALKOWSKI P,SCHOLES R J,BOYLE E,et al. The global carbon cycle: a test of our knowledge of earth as a system[J]. Science,2000,290(5490):291-296. doi: 10.1126/science.290.5490.291
[30]	REGNIER P,FRIEDLINGSTEIN P,CIAIS P,et al. Anthropogenic perturbation of the carbon fluxes from land to ocean[J]. Nature Geoscience,2013,6(8):597-607. doi: 10.1038/ngeo1830
[31]	POSAMENTIER H W, JERVEY M T, VAIL P R. Eustatic controls on clastic depositional-conceptual framework[M]. 1988: 109-124.
[32]	韩喜彬,李家彪,龙江平,等. 我国海底峡谷研究进展[J]. 海洋地质动态,2010,26(2):41-48. doi: 10.3969/j.issn.1009-2722.2010.02.007