Ammonium Reactive Migration Process and Functional Bacteria Response along Lateral Runoff Path under Groundwater Exploitation

Li, Meng; Shi, Jinping; Zhai, Yuanzheng; Zuo, Rui; Wang, Jinsheng; Guo, Xiaohong; Teng, Yanguo; Gao, Jian; Xu, Li; Guo, Bingchi

doi:10.3390/su14148609

Sustainability

2022

DOI: 10.3390/su14148609

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Ammonium Reactive Migration Process and Functional Bacteria Response along Lateral Runoff Path under Groundwater Exploitation

Meng Li

Jinping Shi

Yuanzheng Zhai

et al.

Abstract: In order to elucidate the importance of biogeochemical interactions between NH4+ and aquifer media in groundwater runoff paths, a dynamic monitoring section in the riverbank zone, which is most sensitive to environmental characteristics and perpendicular to the flow direction of the Songhua River in northeastern China, was selected for field experiments in this study. The results indicated that the NH4+ concentration decreased gradually along the groundwater runoff path under exploitation conditions. The NH4+ … Show more

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2024

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The impact of future changes in climate variables and groundwater abstraction on basin-scale groundwater availability

Rusli,

Bense,

Mustafa

et al. 2024

Hydrol. Earth Syst. Sci.

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Abstract. Groundwater is under pressure from a changing climate and increasing anthropogenic demands. In this study, we project the effect of these two processes onto future groundwater status. Climate projections of Representative Concentration Pathway 4.5 (RCP4.5) and Representative Concentration Pathway 8.5 (RCP8.5) from the Coupled Model Intercomparison Project Phase 6 (CMIP6) drive a one-way coupled fully distributed hydrological and groundwater model. In addition, three plausible groundwater abstraction scenarios with diverging predictions from increasing, constant, and decreasing volumes and spatial distributions are used. Groundwater status projections are assessed for short-term (2030), mid-term (2050), and long-term (2100) periods. We use the Bandung groundwater basin as our case study; it is located 120 km from the current capital city of Indonesia, Jakarta, which is currently scheduled for relocation. It is selected as the future anthropogenic uncertainties in the basin, related to the projected groundwater abstraction, are in agreement with our developed scenarios. Results show that changes in the projected climate input, including intensifying rainfall and rising temperature, do not propagate notable changes in groundwater recharge. At the current unsustainable groundwater abstraction rate, the confined piezometric heads are projected to drop by maxima of 7.14, 15.25, and 29.51 m in 2030, 2050, and 2100, respectively. When groundwater abstraction expands in proportion to present population growth, the impact is worsened almost 2-fold. In contrast, if groundwater abstraction decreases because of the relocated capital city, groundwater storage starts to show replenishment potential. As a whole, projected groundwater status changes are dominated by anthropogenic activity and less so by changes in climatic forcing. The results of this study are expected to show and inform responsible parties in operational water management about the issue of the impact of projected climate forcing and anthropogenic activity on future groundwater status.

show abstract

The impact of future changes in climate variables and groundwater abstraction on basin-scale groundwater availability

Rusli,

Bense,

Mustafa

et al. 2024

Hydrol. Earth Syst. Sci.

View full text Add to dashboard Cite

show abstract

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Ammonium Reactive Migration Process and Functional Bacteria Response along Lateral Runoff Path under Groundwater Exploitation

Cited by 1 publication

References 59 publications

The impact of future changes in climate variables and groundwater abstraction on basin-scale groundwater availability

The impact of future changes in climate variables and groundwater abstraction on basin-scale groundwater availability

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