琼东北滨海浅层地下水水质变化特征分析

路剑飞; 甘华阳; 张顺枝; 黄向青

doi:10.13471/j.cnki.acta.snus.2016.01.023

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琼东北滨海浅层地下水水质变化特征分析

研究论文 | 更新时间：2023-12-11

- 琼东北滨海浅层地下水水质变化特征分析
- Analysis of water quality fluctuations in coastal shallow groundwater at NE Hainan
- 中山大学学报(自然科学版)(中英文) 2016年55卷第1期页码：137-148
- 作者机构：
  
  国土资源部广州海洋地质调查局,广东,广州,510760
- 作者简介：
- 基金信息：
- DOI：10.13471/j.cnki.acta.snus.2016.01.023
  中图分类号：
- 纸质出版日期：2016，
  
  网络出版日期：2016-1-25，
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路剑飞, 甘华阳, 张顺枝, 等. 琼东北滨海浅层地下水水质变化特征分析[J]. 中山大学学报(自然科学版)(中英文), 2016,55(1):137-148.

LU Jianfei, GAN Huayang, ZHANG Shunzhi, et al. Analysis of water quality fluctuations in coastal shallow groundwater at NE Hainan[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2016,55(1):137-148.
路剑飞, 甘华阳, 张顺枝, 等. 琼东北滨海浅层地下水水质变化特征分析[J]. 中山大学学报(自然科学版)(中英文), 2016,55(1):137-148. DOI： 10.13471/j.cnki.acta.snus.2016.01.023.

LU Jianfei, GAN Huayang, ZHANG Shunzhi, et al. Analysis of water quality fluctuations in coastal shallow groundwater at NE Hainan[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2016,55(1):137-148. DOI： 10.13471/j.cnki.acta.snus.2016.01.023.

摘要

利用海南东北部滨海地区浅层地下水的短期逐时（相邻大、小潮期共52 h）水质检测数据和长期逐时（1 a）电导率监测数据，分析研究了该区滨海浅层地下水的短期和长期水质变化特征，研究结果表明：① 研究区浅层地下水中阴、阳离子的变化主要表现为Na

和Cl

的变化，两者具有准同步的变化特征，是导致TDS变化的主要原因。CO

在地下水中的含量极低或是根本不存在。地下水中阳离子之间均具有正相关性，但不同调查位置相关性强弱和受潮期的影响程度不同；阴离子之间的相关性随潮期的不同往往存在正、负相关性的转化。② 该区浅层地下水对土壤的碱化危害程度由北向东逐渐增大，由中等偏低危害逐步增大为中等偏高危害。海水入侵强度则表现为中等-重度海水入侵，且大潮期尤为严重。矿化度的分析结果表明，研究区浅层地下水介于微咸水和咸水之间。③ 研究时段内，研究区地下水的电导率与矿化度、电导率与Na

+Cl

之间均存在唯一的线性对应关系，且不受潮期的影响，意味着通过监测地下水电导率的长期变化间接实现水体矿化度及Na

和Cl

的长期监测是可行的，对于长期实时水质监测及海水入侵地下水监测具有十分重要的意义。④ 研究区浅层地下水电导率的长周期变化规律和日周变化的概率分布特征随位置不同差异明显。⑤ 就长期变化而言，该区浅层地下水矿化度的变幅差异要远小于Na

+Cl

的变幅差异，南渡江河口区的淡水大量外泄冲咸作用和偶尔的咸水入侵很可能是导致研究区北部浅层地下水中Na

+Cl

剧烈变化的直接原因。

Abstract

Based on shortterm (52 h in consecutive spring and neap tidal cycles) hourly water quality data and longterm hourly electrical conductivity monitoring data of coastal shallow groundwater in northeastern part of Hainan

shortterm and longterm water quality fluctuations are analyzed. The results indicate that: ① Na

and Cl

are chief ions in shallow groundwater in the research area and vary with quasi-synchronization

which bring about major changes of TDS. Extremely low amount of CO

can be found in shallow groundwater. Mutual relations of cation are all positive correlated with distinct intensity at different sites

and are apparently influenced by tidal cycles. Different types of tidal cycles also lead to interchange between positive and negative correlations among anion. ② Soil alkalization degree caused by shallow groundwater increases from the north to the east

from lowmedium level to mediumhigh level. Intensity of seawater intrusion keeps a medium-high level

especially at the spring tidal cycle. Results from water mineralization imply that water quality of the study area is classified between brackish water and salt water. ③ During study period

electrical conductivity vs. mineralization

and electrical conductivity vs.Na

+Cl

both obey individual linear correlation rules and can be hardly affected in different tidal cycles

which means that long-term monitoring of water mineralization

and Cl

can be possible. Also

it means a lot to longterm monitoring of water quality and seawater intrusion. ④ Long-term fluctuations and probability distributions of electrical conductivity follow respective rules which depend more on locations. ⑤ More sharper changes can exist in the amount of Na

and Cl

than in water mineralization from a long-term view. A great quantity of fresh water discharged from estuary of the Nandu River and occasional seawater intrusions may be the immediate causes for changes in the contents of Na

and Cl

in shallow groundwater of northern study area.

关键词

海南滨海地区浅层地下水水质

Keywords

Hainancoastal areashallow groundwaterwater quality

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