利用水中氚值与地下水年龄分布特征和多年平均更新速率,分析安阳河中下游流域地下水更新能力。应用MGMTP重建研究区1953—2016年大气降水氚值,应用集中参数模型(LPMs)计算地下水年龄,采用Le Gal La Shalle等提出的方法估算潜水与泉水多...利用水中氚值与地下水年龄分布特征和多年平均更新速率,分析安阳河中下游流域地下水更新能力。应用MGMTP重建研究区1953—2016年大气降水氚值,应用集中参数模型(LPMs)计算地下水年龄,采用Le Gal La Shalle等提出的方法估算潜水与泉水多年平均更新速率。研究结果表明:(1)潜水与泉水由近20多年来大气降水补给。潜水样点受局部水文地质条件控制,补给径流条件差异明显。(2)小南海泉平均滞留时间23 a,多年平均更新速率3.6%,水量呈不断衰减趋势。(3)安阳河冲洪积扇扇后缘为补给区,受地表水渗漏与大气降水入渗补给,更新能力较强。扇中部至京港澳高速路地带为现代地下水,年龄40~60 a。扇前缘为现代与次现代地下水的混合水,年龄大于60 a,更新能力较弱。(4)剥蚀岗丘与冲洪积平原深层承压水为较老地下水,更新能力极弱。因此,对小南海泉域的保护需要加强,并在短时期内能取得明显成效。受南水北调中线水源补给及限量地下水开采影响,安阳市区地下水降落漏斗大幅度缩减。展开更多
The clear identification and quantification of the factors affecting groundwater systems is crucial for protecting groundwater resources and ensuring safety in agricultural production.The Lower Yellow River(LYR)is a s...The clear identification and quantification of the factors affecting groundwater systems is crucial for protecting groundwater resources and ensuring safety in agricultural production.The Lower Yellow River(LYR)is a suspended river that replenishes groundwater continuously due to clear differences in the water head,especially in the Xinxiang section.Since its construction,the Xiaolangdi Reservoir has reversed the LYR’s deposition.To accurately determine the factors influencing the groundwater level(GWL),the study area was divided into five subzones based on hydrogeology.A dynamic factor model(DFM),variational mode decomposition(VMD),and a multiple linear regression model were used to identify and quantify the factors influencing the GWL.The impact of the suspended river on the groundwater before and after the construction of the Xiaolangdi Reservoir was examined.The results show that:(1)The rate of decrease in the GWL was 8.53×10^(–4)m/month,and the rate of decrease in the Yellow River water level(RWL)was 4.63×10^(–4)m/month.(2)Mountain front recharge(MFR)(scale=3 months)and precipitation(scale=9 months)were the dominant factors in subzones I and II,accounting for more than 40%of the fluctuation in the GWL.Subzone III was dominated by exploitation(scale=7 months)and precipitation(scale=12months),accounting for 28.43%,and 23.44%of changes in the GWL,respectively.In subzone IV,agricultural irrigation(scale=12 months)was the major factor,accounting for32.47%of GWL changes,while in subzone V,the RWL(scale=12 months)accounted for52.52%of these changes.(3)The Xiaolangdi Reservoir has increased the lateral seepage of the suspended river and altered the inter-annual distribution.The results of this study can provide a valuable reference for controlling groundwater overexploitation and ensuring water supply security.展开更多
文摘利用水中氚值与地下水年龄分布特征和多年平均更新速率,分析安阳河中下游流域地下水更新能力。应用MGMTP重建研究区1953—2016年大气降水氚值,应用集中参数模型(LPMs)计算地下水年龄,采用Le Gal La Shalle等提出的方法估算潜水与泉水多年平均更新速率。研究结果表明:(1)潜水与泉水由近20多年来大气降水补给。潜水样点受局部水文地质条件控制,补给径流条件差异明显。(2)小南海泉平均滞留时间23 a,多年平均更新速率3.6%,水量呈不断衰减趋势。(3)安阳河冲洪积扇扇后缘为补给区,受地表水渗漏与大气降水入渗补给,更新能力较强。扇中部至京港澳高速路地带为现代地下水,年龄40~60 a。扇前缘为现代与次现代地下水的混合水,年龄大于60 a,更新能力较弱。(4)剥蚀岗丘与冲洪积平原深层承压水为较老地下水,更新能力极弱。因此,对小南海泉域的保护需要加强,并在短时期内能取得明显成效。受南水北调中线水源补给及限量地下水开采影响,安阳市区地下水降落漏斗大幅度缩减。
基金The Foundation of High-level Talents of Zhengzhou University,No.13432340370,No.134-32340364,No.135-32340122Project of the Ecological Environment Monitoring and Safety Center of Henan Province,No.SJCAQ-HT-2023-036。
文摘The clear identification and quantification of the factors affecting groundwater systems is crucial for protecting groundwater resources and ensuring safety in agricultural production.The Lower Yellow River(LYR)is a suspended river that replenishes groundwater continuously due to clear differences in the water head,especially in the Xinxiang section.Since its construction,the Xiaolangdi Reservoir has reversed the LYR’s deposition.To accurately determine the factors influencing the groundwater level(GWL),the study area was divided into five subzones based on hydrogeology.A dynamic factor model(DFM),variational mode decomposition(VMD),and a multiple linear regression model were used to identify and quantify the factors influencing the GWL.The impact of the suspended river on the groundwater before and after the construction of the Xiaolangdi Reservoir was examined.The results show that:(1)The rate of decrease in the GWL was 8.53×10^(–4)m/month,and the rate of decrease in the Yellow River water level(RWL)was 4.63×10^(–4)m/month.(2)Mountain front recharge(MFR)(scale=3 months)and precipitation(scale=9 months)were the dominant factors in subzones I and II,accounting for more than 40%of the fluctuation in the GWL.Subzone III was dominated by exploitation(scale=7 months)and precipitation(scale=12months),accounting for 28.43%,and 23.44%of changes in the GWL,respectively.In subzone IV,agricultural irrigation(scale=12 months)was the major factor,accounting for32.47%of GWL changes,while in subzone V,the RWL(scale=12 months)accounted for52.52%of these changes.(3)The Xiaolangdi Reservoir has increased the lateral seepage of the suspended river and altered the inter-annual distribution.The results of this study can provide a valuable reference for controlling groundwater overexploitation and ensuring water supply security.