HYDROCHEMICAL CHARACTERISTICS AND POSSIBLE CONTROLS OF THE SURFACE WATER IN LAKE BAIYANGDIAN BASIN

YUAN Xiao-min; LIU Qiang; MA Xiao-jing; SUN Ying-shan; YAN Si-rui; LI Miao

doi:10.13205/j.hjgc.202010001

Volume 38 Issue 10

Nov. 2020

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YUAN Xiao-min, LIU Qiang, MA Xiao-jing, SUN Ying-shan, YAN Si-rui, LI Miao. HYDROCHEMICAL CHARACTERISTICS AND POSSIBLE CONTROLS OF THE SURFACE WATER IN LAKE BAIYANGDIAN BASIN[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(10): 1-6. doi: 10.13205/j.hjgc.202010001

Citation:

YUAN Xiao-min, LIU Qiang, MA Xiao-jing, SUN Ying-shan, YAN Si-rui, LI Miao. HYDROCHEMICAL CHARACTERISTICS AND POSSIBLE CONTROLS OF THE SURFACE WATER IN LAKE BAIYANGDIAN BASIN[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(10): 1-6. doi: 10.13205/j.hjgc.202010001

Citation:

YUAN Xiao-min, LIU Qiang, MA Xiao-jing, SUN Ying-shan, YAN Si-rui, LI Miao. HYDROCHEMICAL CHARACTERISTICS AND POSSIBLE CONTROLS OF THE SURFACE WATER IN LAKE BAIYANGDIAN BASIN[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(10): 1-6. doi: 10.13205/j.hjgc.202010001

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HYDROCHEMICAL CHARACTERISTICS AND POSSIBLE CONTROLS OF THE SURFACE WATER IN LAKE BAIYANGDIAN BASIN

doi: 10.13205/j.hjgc.202010001

1. State Key Laboratory of Water Environment Simulation, School of Environment, Beijing Normal University, Beijing 100875, China;
2. Key Laboratory for Water and Sediment Sciences, Ministry of Education, School of Environment, Beijing Normal University, Beijing 100875, China;
3. School of Geography and Tourism, Qufu Normal University, Rizhao 276826, China;
4. School of Water Resources and Environment, University of Jinan, Ji'nan 250358, China

Received Date: 2020-05-21

Abstract

Abstract

To explore the characteristics and sources of surface water hydrochemistry in semi-arid areas, we analyzed the main ion composition characteristics and sources of surface water in Lake Baiyangdian basin, using hrochemical technics such as Piper Triangular diagrams and Gibbs water-rock model. The results showed that the pH of the surface water in the Lake Baiyangdian basin varied from 7.56 to 8.23, which was weakly alkaline. And the total dissolved solids, was 100 mg/L to 650 mg/L in different regions of the basin, ranking as Lake Baiyangdian > downstream > dpstream. The cations in the surface water of Lake Baiyangdian basin were mainly Na⁺ and Ca²⁺, which accounted for 76.60% of the total cations. And the anions were mainly HCO₃^-, which accounted for about 61.52% of total anions. The water chemistry types of surface water were HCO₃-Ca in upstream, and HCO₃·SO₄·Cl-Na·Ca in downstream and Lake Baiyangdian. The hydrogeochemical process of Lake Baiyangdian basin was controlled by both human activities and natural functions. For natural sources, the ions of the surface water of the Lake Baiyangdian basin originated from rock weathering, carbonate weathering and silicate weathering mainly, which also affected by evaporation-crystallization.
- semi-arid areas,
- Lake Baiyangdian basin,
- hydrochemical characteristic,
- human activity

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References

李瑞,张飞,高宇潇,等. 艾比湖区域地表水水化学特征干湿季变化及其控制因素[J]. 冰川冻土,2016,38(5):1394-1403.

ASARE-DONKOR N K, OFOSU J O, ADIMADO A A. Hydrochemical characteristics of surface water and ecological risk assessment of sediments from settlements within the Birim River basin in Ghana[J]. Environmental Systems Research, 2018, 7(1):9.

王锴. 红碱淖流域土地利用与土地覆被变化对地下水补给的影响[D]. 西安:长安大学, 2019.

CATHERINE CHAGUÉ-GOFF, ALAN F M, KATHARINE J M. Hydrological processes and chemical characteristics of low-alpine patterned wetlands, south-central New Zealand[J]. Journal of Hydrology, 2010, 385(1):105-119.

姚鹏,卢国平.拒马河的水化学、同位素特征及其指示意义[J].环境化学, 2017, 36(7):1525-1536.

FENTA N, MARC V C, ALEMU Y, et al. Recharge-discharge relations of groundwater in volcanic terrain of semi-humid tropical highlands of ethiopia:the case of Infranz Springs, in the Upper Blue Nile[J]. Water, 2020, 12(3):853.

QUENET M, CELLE-JEANTON H, VOLDOIRE J O, et al. Coupling hydrodynamic, geochemical and isotopic approaches to evaluate oxbow connection degree to the main stream and to adjunct alluvial aquifer[J]. Journal of Hydrology, 2019, 577:123936.

张涛, 王明国, 张智印,等. 然乌湖流域地表水水化学特征及控制因素[J]. 环境科学, 41(9):4003-4010.

郭亚文, 田富强, 胡宏昌,等. 南小河沟流域地表水和地下水的稳定同位素和水化学特征及其指示意义[J]. 环境科学, 2020, 41(2):682-690.

CABEZAS A, GARCIA M, GALLARDO B, et al. The effect of anthropogenic disturbance on the hydrochemical characteristics of riparian wetlands at the Middle Ebro River (NE Spain)[J]. Hydrobiologia, 2009, 617:101-116.

孔晓乐, 王仕琴, 丁飞,等. 基于水化学和稳定同位素的白洋淀流域地表水和地下水硝酸盐来源[J]. 环境科学, 2018, 39(6):2624-2631.

王为东. 芦苇型水陆交错带中根孔结构及其影响下的水化学研究[D]. 北京:中国科学院研究生院(生态环境研究中心), 2002.

陈毅. 白洋淀流域平原区地下水-孔隙水的水化学特征和水文地球化学过程[D]. 北京:中国地质大学, 2018.

刘园园. 白洋淀湿地生态系统的演变分析及健康评价[D]. 保定:河北农业大学, 2019.

温静,黄大庄.白洋淀流域景观结构和格局时空变化规律及其与地形因子关系[J].河北农业大学学报,2020,43(3):86-95.

魏兴, 周金龙, 乃尉华,等. 新疆喀什三角洲地下水化学特征及演化规律[J]. 环境科学, 2019, 40(9):4042-4051.

Gibbs R J. Mechanisms controlling world water chemistry[J]. Science, 1970, 170:1088-1090.

袁悦. 半干旱区内陆湖流域水化学特征研究[D]. 西安:长安大学, 2019.

管春兴. 玛纳斯河流域地表水-地下水转化的水化学及同位素证据[D]. 西安:长安大学, 2019.

郭苗, 张飞, 张海威,等.艾比湖流域地表水水化学特征及空间变异特征分析[J]. 环境工程, 2017, 35(7):146-151.

LI Z J, YANG Q C, YANG Y S, et al. Isotopic and geochemical interpretation of groundwater under the influences of anthropogenic activities[J]. Journal of Hydrology, 2019, 576:685-697.

陈新永, 田在锋, 胡晓波,等. 网箱养殖对白洋淀草型湖泊水质的影响[J]. 水生态学杂志, 2011, 32(1):61-65.

李再兴, 孙悦, 张艺冉,等. 白洋淀冰封期沉积物中氮赋存形态及分布特征[J]. 环境工程, 2019, 37(12):29-33.

石锦丽, 王博欣, 王靖. 河北省河湖生态水量保障的实践与思索[J]. 水利发展研究, 2019, 19(1):40-42.

张雪梅. 河北省引黄补淀输水管理工作回顾[J]. 河北水利, 2015(5):36-37.

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