首页 > 过刊浏览>2022年第42卷第4期 >87-93. DOI:10.3880/j.issn.1006-7647.2022.04.015
PDF HTML阅读 XML下载 导出引用 引用提醒
黄河源区水源涵养能力研究综述
作者:
作者单位:

(1.长沙理工大学水利与环境工程学院,湖南 长沙410114;2.武汉大学水资源与水电工程科学国家重点实验室,湖北 武汉430072;3.黄河水利科学研究院,河南 郑州450003 )

作者简介:

周冰玉(1998—),女,硕士研究生,主要从事高原湿地水文研究。E-mail: zby19980102@163.com

中图分类号:

TV147

基金项目:

国家自然科学基金 (51979012, 51978120,U2243214)


A review on water conservation capacity in Yellow River source region
Author:
Affiliation:

(1.School of Hydraulic and Environmental Engineering, Changsha University of Science & Technology, Changsha 410114, China;2.State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University, Wuhan 430072, China;3.Yellow River Institute of Hydraulic Research, Zhengzhou 450003, China)

  • 摘要
    • | |
  • 访问统计
    • |
  • 参考文献
    • |
  • 相似文献
    • |
  • 引证文献
    • |
  • 文章评论
    摘要:

    黄河源区是黄河流域的主要产流区和水源涵养区,近年来源区径流量呈下降趋势,气温、降水、辐射、潜在蒸散发等是影响水源涵养的主要气候因素,草地退化、湿地萎缩、冻土消融也使得水源涵养单元受到显著影响。为科学认识和理解黄河源区水源涵养功能对湿地保护、水资源调蓄的重要意义,总结了水源涵养功能及其评估方法,阐述了黄河源区生态景观演变过程和泥炭地储水量研究现状,分析了不同水源涵养单元对源区水源涵养能力的影响。指出融合多种研究手段、方法,多尺度、多过程、多要素揭示黄河源区水源涵养变化机理是未来黄河源区水源涵养功能研究的发展方向。

    参考文献
    [1] 龚诗涵,肖洋,郑华,等.中国生态系统水源涵养空间特征及其影响因素[J].生态学报,2017,37(7): 2455-2462.(GONG Shihan,XIAO Yang,ZHENG Hua,et al.Spatial patterns of ecosystem water conservation in China and its impact factors analysis[J].Acta Ecologica Sinica,2017,37(7): 2455-2462.(in Chinese))
    [2] 陈琼,张镱锂,刘峰贵,等.黄河流域河源区土地利用变化及其影响研究综述[J].资源科学,2020,42(3): 446-459.(CHEN Qiong,ZHANG Yili,LIU Fenggui,et al.A review of land use change and its influence in the source region of Yellow River[J].Resources Science,2020,42(3): 446-459.(in Chinese))
    [3] 王根绪,沈永平,钱鞠,等.高寒草地植被覆盖变化对土壤水分循环影响研究[J].冰川冻土,2003(6): 653-659.(WANG Genxu,SHEN Yongping,QIAN Ju,et al.Study on the influence of vegetation change on soil moisture cycle in alpine meadow[J].Journal of Glaciology and Geocryology,2003(6): 653-659.(in Chinese))
    [4] ZENG Mengxiu,ZHU Cheng,SONG Yougui,et al.Paleoenvironment change and its impact on carbon and nitrogen accumulation in the Zoige Wetland,northeastern Qinghai-Tibetan Plateau over the past 14,000 years[J].Geochemistry Geophysics Geosystems,2017,18(4): 1775-1792.
    [5] LUO Dongliang,JIN Huijun,LU Lanzhi,et al.Spatiotemporal changes in extreme ground surface temperatures and the relationship with air temperatures in the Three-River Source Regions during 1980-2013[J].Theoretical & Applied Climatology,2016,123(3/4): 885-897.
    [6] 鲁瀚友,李志威,胡旭跃,等.若尔盖高原径流量变化与储水量计算[J].水资源与水工程学报,2019(6):12-19.(LU Hanyou,LI Zhiwei,HU Xuyue,et al.Estimation of runoff change and water storage in Zoige Plateau[J].Journal of Water Resources & Water Engineering,2019(6):12-19.(in Chinese))
    [7] WANG Taihua,YANG Hanbo,YANG Dawen,et al.Quantifying the streamflow response to frozen ground degradation in the source region of the Yellow River within the Budyko framework[J].Journal of Hydrology,2018,558: 301-313.
    [8] 吴燕锋,章光新.流域湿地水文调蓄功能研究综述[J].水科学进展,2021,32(3): 458-469.(WU Yanfeng,ZHANG Guangxin.A review of hydrological regulation functions of watershed wetlands[J].Advances in Water Science,2021,32(3): 458-469.(in Chinese))
    [9] 王道席,田世民,蒋思奇,等.黄河源区径流演变研究进展[J].人民黄河,2020,42(9): 90-95.(WANG Daoxi,TIAN Shimin,JIANG Siqi,et al.Research progress of the evolution of runoff in the source area of the Yellow River[J].Yellow River,2020,42(9): 90-95.(in Chinese))
    [10] 左其亭,王娇阳,杨峰,等.水源涵养相关概念辨析及水源涵养能力计算方法[J].水利水电科技进展,2022,42(2):13-19.(ZUO Qiting, WANG Jiaoyang, YANG Feng, et al.Concept analysis of water conservation and calculation methods of water conservation capacity[J].Advances in Science and Technology of Water Resources,2022,42(2):13-19.(in Chinese))
    [11] SHI Yafeng,SHEN Yongping,KANG Ersi,et al.Recent and future climate change in northwest China[J].Climatic Change,2007,80(3/4): 379-393.
    [12] 乔飞,富国,徐香勤.三江源区水源涵养功能评估[J].环境科学研究,2018,31(6): 1010-1018.(QIAO Fei,FU Guo,XU Xiangqin,et al.Assessment of water conservation function in the Three-River Headwaters Region[J].Research of Environmental Sciences,2018,31(6): 1010-1018.(in Chinese))
    [13] 刘宥延,刘兴元,张博,等.基于InVEST模型的黄土高原丘陵区水源涵养功能空间特征分析[J].生态学报,2020,40(17): 6161-6170.(LIU Youyan,LIU Xingyuan,ZHANG Bo,et al.Spatial features analysis of water conservation function in the hilly areas of the Loess Plateau based on InVEST model[J].Acta Ecologica Sinica,2020,40(17): 6161-6170.(in Chinese))
    [14] 苑跃,张亮,崔林林.若尔盖高原生态系统水源涵养功能时空变化特征[J].生态学杂志,2020,39(8): 2713-2723.(YUAN Yue,ZHANG Liang,CUI Linlin.Spatiotemporal variations of water conservation capacity in Ruoergai Plateau[J].Chinese Journal of Ecology,2020,39(8): 2713-2723.(in Chinese))
    [15] 刘光生,王根绪,张伟.三江源区气候及水文变化特征研究[J].长江流域资源与环境,2012,21(3): 302-308.(LIU Guangsheng,WANG Genxu,ZHANG Wei.Research on climate and runoff variation characteristics in the Three-River Headwaters Region[J].Resources and Environment in the Yangtze Basin,2012,21(3): 302-308.(in Chinese))
    [16] 吴晗,董增川,蒋飞卿,等.黄河源区气候变化特性分析[J].水资源与水工程学报,2018,29(6): 1-7.(WU Han,DONG Zengchuan,JIANG Feiqing,et al.Analysis of climate change in the source regions of the Yellow River[J].Journal of Water Resources & Water Engineering,2018,29(6): 1-7.(in Chinese))
    [17] ZHOU Degang,HUANG Ronghui.Response of water budget to recent climatic changes in the source region of the Yellow River[J].Chinese Science Bulletin,2012(17): 2155-2162.
    [18] 侯晓臣,孙伟,李建贵,等.森林生态系统水源涵养能力计量方法研究进展与展望[J].干旱区资源与环境,2018,32(1): 121-127.(HOU Xiaochen,SUN Wei,LI Jiangui,et al.The progress of research and forecast on the quantification of the forest water conservation capacity[J].Journal of Arid Land Resources and Environment,2018,32(1): 121-127.(in Chinese))
    [19] 王晓学,沈会涛,李叙勇,等.森林水源涵养功能的多尺度内涵、过程及计量方法[J].生态学报,2013,33(4): 1019-1030.(WANG Xiaoxue,SHEN Huitao,LI Xuyong,et al.Concepts,processes and quantification methods of the forest water conservation at the multiple scales[J].Acta Ecologica Sinica,2013,33(4): 1019-1030.(in Chinese))
    [20] 王玉纯,赵军,付杰文,等.石羊河流域水源涵养功能定量评估及空间差异[J].生态学报,2018,38(13): 4637-4648.(WANG Yuchun,ZHAO Jun,FU Jiewen,et al.Quantitative assessment of water conservation function and spatial pattern in Shiyang River basin[J].Acta Ecologica Sinica,2018,38(13): 4637-4648.(in Chinese))
    [21] JIN Huijun,HE Ruixia,CHENG Guodong,et al.Changes in frozen ground in the source area of the Yellow River on the Qinghai-Tibet Plateau,China,and their eco-environmental impacts[J].Environmental Research Letters,2009,4(4): 045206.
    [22] 蒋宗立,刘时银,郭万钦,等.黄河源区阿尼玛卿山典型冰川表面高程近期变化[J].冰川冻土,2018,40(2): 231-237.(JIANG Zongli,LIU Shiyin,GUO Wanqin,et al.Recent surface elevation changes of three representative glaciers in Anyêmaqên Mountains,source region of Yellow River[J].Journal of Glaciology and Geocryology,2018,40(2): 231-237.(in Chinese))
    [23] 孙华方,李希来,金立群,等.生物土壤结皮对黄河源区人工草地植被与土壤理化性质的影响[J].草地学报,2020,28(2): 509-520.(SUN Huafang,LI Xilai,JIN Liqun,et al.Effects of biological soil crusts on the physical and chemical properties of soil and vegetation of artificial grassland in the Yellow River source zone[J].Acta Agrestia Sinica,2020,28(2): 509-520.(in Chinese))
    [24] 游宇驰,李志威,李希来.1990—2011年若尔盖高原土地覆盖变化[J].水利水电科技进展,2018,38 (2): 62-69.(YOU Yuchi,LI Zhiwei,LI Xilai.Land cover change in Zoige plateau during 1990-2011[J].Advances in Science and Technology of Water Resources,2018,38(2):62-69.(in Chinese))
    [25] 刘彩红,朱西德,白彦芳.近50年来黄河源区流量对气候变化的响应及其未来变化趋势预测[J].资源科学,2011,33(7): 1236-1241.(LIU Caihong,ZHU Xide,BAI Yanfang.A study on runoff response to climate change and its prediction in the headwater region of the Yellow River over the recent 50 years[J].Resources Science,2011,33(7): 1236-1241.(in Chinese))
    [26] 王欢,李栋梁,蒋元春.1956—2012年黄河源区流量演变的新特征及其成因[J].冰川冻土,2014,36(2): 403-412.(WANG Huan,LI Dongliang,JIANG Yuanchun.Characteristics and reasons of the runoff variation in source regions of the Yellow River during 1956-2012[J].Journal of Glaciology and Geocryology,2014,36(2): 403-412.(in Chinese))
    [27] 蒋冲,李芬,高艳妮,等.1956—2012年三江源区河流流量变化及成因[J].环境科学研究,2017,30(1): 30-39.(JIANG Chong,LI Fen,GAO Yanni,et al.Streamflow variation in the Three-River Headwaters region during 1956-2012[J].Research of Environmental Sciences,2017,30(1): 30-39.(in Chinese))
    [28] 张建云,刘九夫,金君良,等.青藏高原水资源演变与趋势分析[J].中国科学院院刊,2019,34(11): 1264-1273.(ZHANG Jianyun,LIU Jiufu,JIN Junliang,et al.Evolution and trend of water resources in Qinghai-Tibet Plateau[J].Bulletin of Chinese Academy of Sciences,2019,34(11): 1264-1273.(in Chinese))
    [29] LI Zhiwei,GAO Peng.Impact of natural gullies on groundwater hydrology in the Zoige peatland,China[J].Journal of Hydrology: Regional Studies,2019,21: 25-39.
    [30] LUO Dongliang,JIN Huijun,JIN Xiaoying,et al.Elevation-dependent thermal regime and dynamics of frozen ground in the Bayan Har Mountains,northeastern Qinghai-Tibet Plateau,southwest China[J].Permafrost and Periglacial Processes,2018,29(4): 257-270.
    [31] 刘红玉,白云芳.若尔盖高原湿地资源变化过程与机制分析[J].自然资源学报,2006,21(5): 810-818.(LIU Hongyu,BAI Yunfang.Changing process and mechanism of wetland resources in Ruoergai Plateau,China[J].Journal of Natural Resources,2006,21(5): 810-818.(in Chinese))
    [32] 游宇驰,李志威,黄草,等.1990—2016年若尔盖高原荒漠化时空变化分析[J].生态环境学报,2017,26(10): 1671-1680.(YOU Yuchi,LI Zhiwei,HUANG Cao,et al.Spatial-temporal evolution characteristics of land desertification in the Zoige Plateau in 1990-2016[J].Ecology and Environmental Sciences,2017,26(10): 1671-1680.(in Chinese))
    [33] LAN Yongchao,ZHAO Guohui ,ZHANG Yaonan,et al.Response of runoff in the source region of the Yellow River to climate warming[J].Quaternary International,2010,226: 60-65.
    [34] CHEN Huai,YANG Gang,PENG Changhui,et al.The carbon stock of alpine peatlands on the Qinghai-Tibetan Plateau during the Holocene and their future fate[J].Quaternary Science Reviews,2014,95: 151-158.
    [35] LI Zhiwei,GAO Peng,YOU Yuchi.Characterizing hydrological connectivity of artificial ditches in Zoige peatlands of Qinghai-Tibet Plateau[J].Water,2018,10(10): 1364.
    [36] LI Zhiwei,WANG Zhaoyin,BRIERLEY G,et al.Shrinkage of the ruoergai swamp and changes to landscape connectivity,Qinghai-Tibet Plateau[J].Catena,2015,126: 155-163.
    [37] 鲁瀚友,李志威,胡旭跃.基于VMOD模型的若尔盖泥炭沼泽地下水数值模拟[J].生态与农村环境学报,2019,35(4): 442-450.(LU Hanyou,LI Zhiwei,HU Xuyue.Numerical simulation of local peatland groundwater in the Zoige Plateau using the Visual MODFLOW[J].Journal of Ecology and Rural Environment,2019,35(4): 442-450.(in Chinese))
    [38] LI Zhiwei,GAO Peng,LU Hanyou.Dynamic changes of groundwater storage and flows in a disturbed alpine peatland under variable climatic conditions[J].Journal of Hydrology,2019,575: 557-568.
    [39] 税伟,白剑平,简小枚,等.若尔盖沙化草地恢复过程中土壤特性及水源涵养功能[J].生态学报,2017,37(1): 277-285.(SHUI Wei,BAI Jianping,JIAN Xiaomei,et al.Changes in water conservation and soil physicochemical properties during the recovery of desertified grassland in Zoige,China[J].Acta Ecologica Sinica,2017,37(1): 277-285.(in Chinese))
    [40] 谢亚军,谢永宏,陈心胜,等.湿地土壤水源涵养功能研究进展[J].湿地科学,2012,10(1): 109-115.(XIE Yajun,XIE Yonghong,CHEN Xinsheng,et al.Function of water conservation of wetland soil: a review[J].Wetland Science,2012,10(1): 109-115.(in Chinese))
    [41] BALLARD C E,MCLNTYRE N,WHEATER H S.Hydrological modelling of drained blanket peatland[J].Journal of Hydrology,2011,407: 81-93.
    [42] LI Zhiwei,GAO Peng.Characterizing spatially variable water table depths in a disturbed Zoige peatland watershed[J].Journal of Hydro-environment Research,2020,29: 70-79.
    [43] LUSCOMBE D J,ANDERSON K,GRAND-CLEMENT E,et al.How does drainage alter the hydrology of shallow degraded peatlands across multiple spatial scales?[J].Journal of Hydrology,2016,541: 1329-1339.
    [44] LI Binquan,YU Zhongbo,LIANG Zhongmin,et al.Effects of climate variations and human activities on runoff in the Zoige Alpine Wetland in the eastern edge of the Tibetan Plateau[J].Journal of Hydrologic Engineering,2014,19(5): 1026-1035.
    [45] CHENG Guodong,ZHAO Lin,LI Ren,et al.Characteristic,changes and impacts of permafrost on Qinghai-Tibet Plateau[J].Chinese Science Bulletin,2019,64(27): 2783-2795.
    [46] 王生廷,盛煜,曹伟,等.基于地貌分类的黄河源区多年冻土层地下冰储量估算[J].水科学进展,2017,28(6): 801-810.(WANG Shengting,SHENG Yu,CAO Wei,et al.Estimation of permafrost ice reserves in the source area of the Yellow River using landform classification[J].Advances in Water Science,2017,28(6): 801-810.(in Chinese))
    [47] CHENG Guodong,JIN Huijun.Permafrost and groundwater on the Qinghai-Tibet Plateau and in northeast China[J].Hydrogeology Journal,2013,21(1): 5-23.
    [48] 罗栋梁,金会军,吕兰芝,等.黄河源区多年冻土活动层和季节冻土冻融过程时空特征[J].科学通报,2014,59(14): 1327-1336.(LUO Dongliang,JIN Huijun,LYU Lanzhi,et al.Temporal and spatial characteristics of freezing and thawing process of permafrost active layer and seasonal frozen soil in the source region of the Yellow River[J].Chinese Science Bulletin,2014,59(14): 1327-1336.(in Chinese))
    [49] SHENG Yu,MA Shuai,CAO Wei,et al.Spatiotemporal changes of permafrost in the headwater area of the Yellow River under a changing climate[J].Land Degradation & Development,2020,31(1): 133-152.
    [50] 彭轩明,吴青柏,田明中.黄河源区地下水位下降对生态环境的影响[J].冰川冻土,2003(6): 667-671.(PENG Xuanming,WU Qingbai,TIAN Mingzhong.The effect of groundwater table lowering on ecological environment in the headwaters of the Yellow River[J].Journal of Glaciology and Geocryology,2003(6): 667-671.(in Chinese))
    [51] LUO Dongliang,JIN Huijun,BENSE V F,et al.Hydrothermal processes of near-surface warm permafrost in response to strong precipitation events in the headwater area of the Yellow River,Tibetan Plateau[J].Geoderma,2020,376: 114531.
    [52] MA Qiang,JIN Huijun,BENSE V F,et al.Impacts of degrading permafrost on streamflow in the source area of Yellow River on the Qinghai-Tibet Plateau,China[J].Advances in Climate Change Research,2019,10(4): 225-239.
    网友评论
    网友评论
    分享到微博
    发 布
引用本文

周冰玉,李志威,田世民,等.黄河源区水源涵养能力研究综述[J].水利水电科技进展,2022,42(4):87-93.(ZHOU Bingyu, LI Zhiwei, TIAN Shimin, et al. A review on water conservation capacity in Yellow River source region[J]. Advances in Science and Technology of Water Resources,2022,42(4):87-93.(in Chinese))

复制
分享
文章指标
  • 点击次数:512
  • 下载次数: 1905
  • HTML阅读次数: 0
  • 引用次数: 0
历史
  • 收稿日期:2021-11-22
  • 在线发布日期: 2022-07-07

总访问量:7186616    今日访问:315

水利水电科技进展 ® 2025 版权所有
通讯地址:南京 河海大学《水利水电科技进展》编辑部邮政编码:210098电话:025-83786335
网址:https://jour.hhu.edu.cn/slsdkjjz/home E-mail:jz@hhu.edu.cn
技术支持:北京勤云科技发展有限公司