Research Progress Analysis Regarding Rainfall-Runoff Relationships Based on Bibliometrics and Visual Methods

Yi Qi; Wang Ruifang; Dou Xiaodong; Gao Yuting; Wang Changhao; Yang Lu

doi:10.13961/j.cnki.stbctb.2022.03.036

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Research Progress Analysis Regarding Rainfall-Runoff Relationships Based on Bibliometrics and Visual Methods

- Research Progress Analysis Regarding Rainfall-Runoff Relationships Based on Bibliometrics and Visual Methods
- Bulletin of Soiland Water Conservation Vol. 42, Issue 3, Pages: 284-295(2022)
- 作者机构：
  
  1. 云南大学地球科学学院,云南,昆明,650500
  2. 云南省气象服务中心,云南,昆明,650034
  3. 中国气象局横断山区(低纬高原)灾害性天气研究中心,云南,昆明,650034
- 作者简介：
- 基金信息：
- DOI：10.13961/j.cnki.stbctb.2022.03.036
  CLC： P333
- Published：2022
- 稿件说明：
移动端阅览
Yi Qi, Wang Ruifang, Dou Xiaodong, et al. Research Progress Analysis Regarding Rainfall-Runoff Relationships Based on Bibliometrics and Visual Methods[J]. Bulletin of Soiland Water Conservation, 2022, 42(3): 284-295.
DOI：

Yi Qi, Wang Ruifang, Dou Xiaodong, et al. Research Progress Analysis Regarding Rainfall-Runoff Relationships Based on Bibliometrics and Visual Methods[J]. Bulletin of Soiland Water Conservation, 2022, 42(3): 284-295. DOI： 10.13961/j.cnki.stbctb.2022.03.036.

摘要

[目的] 分析国内外降雨产流研究方法与模拟技术、关键影响因素、研究重点及热点、发展趋势，充实陆面水文过程、土壤侵蚀机理研究的理论基础，为区域水资源管理实践提供决策依据。[方法] 以国内外近50 a的828篇有关降雨产流的期刊论文为基础，借助CiteSpace可视化软件对国内外降雨产流研究的知识图谱结构进行梳理和分析。[结果] ①降雨产流研究始终聚焦于降雨—入渗—产流—侵蚀关系的研究及坡面产流的模拟，研究方法包含降雨模拟、数理统计、示踪技术等。坡面产流的模拟已开发出大量适用于不同环境条件的产汇流模型，研究方法与模拟技术日趋先进与精准，但在完善模拟试验的技术手段，以及借助人工智能（AI），3S技术来构建适用的区域产汇流耦合模型等方面仍需开展大量的后续研究工作。②对降雨产流关键影响因素即地表形态、降雨特征和土壤性质的研究持续深化，但对微地形特征、区域次降雨过程时空变化等对降雨产流的影响研究，和不同土壤类型间及同种土壤类型在不同自然环境下的地表产流对比研究等还有待全面推进。③国内研究重点多为借助人工降雨试验平台开展土壤/植被分布单一的局域性产汇流影响因素研究，国外则多为结合水文模型与3S技术进行流域尺度的产流过程及其时空变异和地表微地形影响的研究，研究尺度趋向于宏观和微观的全面与纵深发展。近期降雨产流研究的热点集中于喀斯特、径流小区、枯落物、降雨特征、地下水补给、水文连通性、坡度、土壤理化性质、水管理等方面。[结论] 未来应在加强喀斯特地区、干旱与半干旱地区等生态脆弱区的降雨产流和水土保持/水文/水管理专题研究的基础上，进一步突出学科交叉与技术集成水平优势，从而促进区域水土资源的可持续利用与人地协调发展。

Abstract

[Objective] The research methods and simulation technology

crucial influencing factors

research focuses

hotspots

and future research directions for rainfall-runoff relationships in China and overseas were analyzed in order to enrich the theoretical basis for the study of land surface hydrological processes and soil erosion mechanisms

and also provide the basis for decision-making regarding regional water resource management practices.[Methods] Based on 828 core journal papers regarding rainfall and runoff in China and abroad during the past 50 years

the CiteSpace visualization software was used for sorting and analyzing the knowledge domain map structure of rainfall-runoff research studies.[Results] ① The study of rainfall-runoff relationships has always focused on the relationship between rainfall

infiltration

surface runoff

and erosion

as well as on the simulation of slope runoff. Research methods have included rainfall simulation

mathematical statistical methods

tracer techniques

etc. In terms of slope runoff simulation

a large number of runoff and confluence models suitable for different environmental conditions have been developed. Although the research methods and simulation techniques have become increasingly advanced

and accurate

follow-up research still needs to be optimized regarding the technical means of simulation testing and the method of applying artificial intelligence (AI) and 3S technology to build a practical regional runoff and confluence coupling model. ② Research studies on the key factors influencing rainfall-runoff relationships

namely surface morphology

rainfall characteristics

and soil properties

have continuously become more in-depth. However

research studies regarding the influence of micro-topographic features and temporal and spatial variations of regional individual rainfall processes on rainfall-runoff relationships

and the comparative studies of surface runoff between different soil types and the same soil types in different natural environments still need to be comprehensively advanced. ③ Most of the domestic research studies have focused on the factors influencing local runoff and confluence under a single soil/vegetation condition through the use of an artificial rainfall simulator. In foreign countries

hydrological models and 3S technology have mostly been combined to study basin scale surface runoff processes

their spatial-temporal variation

and the impact of surface micro-topography. The research scale tends to be comprehensive and in-depth regarding development at both macro-scale and micro-scale. Recently

the research hotspots of rainfall-runoff relationships have focused on karst

runoff plots

forest litter

rainfall characteristics

groundwater recharge

hydrological connectivity

slope

soil physical and chemical properties

water management

etc.[Conclusion] In the future

the advantages of interdisciplinary and technological integration should be further highlighted by strengthening thematic research studies on rainfall-runoff relationships with soil and water conservation

hydrology

and water management in ecologically fragile areas such as karst

arid

and semi-arid areas in order to promote the sustainable utilization of regional water and soil resources and the coordinated development between man and land.

关键词

Keywords

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