期刊
JOURNAL OF HYDROLOGY
卷 388, 期 1-2, 页码 121-130出版社
ELSEVIER
DOI: 10.1016/j.jhydrol.2010.04.034
关键词
Karst hydrogeochemistry; Carbon isotope; Karst spring; Land use and land cover change; Paired catchment study
资金
- Hundred Talents Program of Chinese Academy of Sciences
- foundation of the Chinese Academy of Sciences for Innovation [kzcx2-yw-306]
- National Natural Science Foundation of China [40872168]
- Ministry of Science and Technology of China [2005DIB3J067]
Rainfall, spring stage, water temperature. pH and conductivity in the paired karst spring catchments of Chenqi and Dengzhanhe, which shared the same climatic condition but different land use/land cover (LULC) at Puding, Guizhou Province, SW China, were monitored by two high-resolution multi-parameter auto-recordable instrument of CTDP300 during the hydrological year of September 2007-September 2008 Other monthly hydrogeochemical and carbon isotopic (delta C-13) variations in the paired karst catchments during the same hydrological year were also investigated A thermodynamic model was used to link the continuous data to monthly hydrogeochemical data allowing the calculation of CO2 partial pressure (pCO(2)) and calcite saturation index (SIC) on a continuous basis The primary study objective was to understand how the karst processes and karst hydrogeochemistry respond to different LULC, which is essential to assessing the karst-related carbon cycle. Marked seasonal and storm-scale variations were found for pH, conductivity, pCO(2), SIC, and delta C-13 of the two springs, indicating that both springs were dynamic and variable systems. However, there were differences in the magnitude and direction of the variations of these features between the two springs. The higher pCO(2) and HCO3- concentration and lower pH, SIC, and delta C-13 in Chenqi spring than those in Dengzhanhe spring tend to be related to the difference in LULC between Chenqi and Dengzhanhe spring catchments: in the Chenqi spring catchment, there was larger soil cover and the paddy land was located in the discharge area, both of which produced and kept more CO2 (a major driving agent for the karst processes) and lower delta C-13 in the soil-aquifer system, while in the Dengzhanhe spring catchment area, there was larger bare carbonate rock occurrence and the paddy land was located mainly in the recharge area Moreover. the pH increased and pCO(2) decreased generally in Chenqi spring after rainfall, possibly due to more carbonate dissolution in the larger soil cover rich in limestone fragments in the spring catchment, while the pH decreased and pCO(2) increased generally in Dengzhanhe spring after rainfall All these differences show that soil cover and land use pattern played important roles in the karst processes In other words, the karst hydrogeochemistry and the karst-related carbon cycle could be regulated effectively by different LULC In addition, the higher concentrations of Ca2+, SO42-, Mg2+ and conductivity of Dengzhanhe spring were due to the dissolution of more gypsum and dolomite minerals in the strata of Dengzhanhe spring catchment Therefore, the karst hydrogeochemical parameters, including pH. conductivity. HCO3-, Ca2+, Mg2+, SO42-, pCO(2), SIC, and delta C-13(DIC), could serve as good indicators of different LULC and the other environmental changes. (C) 2010 Elsevier B V. All rights reserved.
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