DOI: 10.5194/hess-18-3109-2014
Scopus记录号: 2-s2.0-84922474537
论文题名: A comparison of particle-tracking and solute transport methods for simulation of tritium concentrations and groundwater transit times in river water
作者: Gusyev M ; A ; , Abrams D ; , Toews M ; W ; , Morgenstern U ; , Stewart M ; K
刊名: Hydrology and Earth System Sciences
ISSN: 10275606
出版年: 2014
卷: 18, 期: 8 起始页码: 3109
结束页码: 3119
语种: 英语
Scopus关键词: Calibration
; Catchments
; Computer simulation
; Convolution
; Groundwater
; Rivers
; Runoff
; Solute transport
; Tritium
; Convolution integrals
; Mean transit time
; Particle tracking
; Precipitation measurement
; Solute transport model
; Transit-time distributions
; Tritium concentration
; Tritium measurements
; Water resources
; baseflow
; catchment
; comparative study
; concentration (composition)
; flow modeling
; particle motion
; river water
; simulation
; solute transport
; tritium
; water quality
; Lake Taupo
; New Zealand
; North Island
; Waikato
英文摘要: The purpose of this study is to simulate tritium concentrations and groundwater transit times in river water with particle-tracking (MODPATH) and compare them to solute transport (MT3DMS) simulations. Tritium measurements in river water are valuable for the calibration of particle-tracking and solute transport models as well as for understanding of watershed storage dynamics. In a previous study, we simulated tritium concentrations in river water of the western Lake Taupo catchment (WLTC) using a MODFLOW-MT3DMS model (Gusyev et al., 2013). The model was calibrated to measured tritium in river water at baseflows of the Waihaha, Whanganui, Whareroa, Kuratau, and Omori river catchments of the WLTC. Following from that work we now utilized the same MODFLOW model for the WLTC to calculate the pathways of groundwater particles (and their corresponding tritium concentrations) using steady-state particle tracking MODPATH model. In order to simulate baseflow tritium concentrations with MODPATH, transit time distributions (TTDs) are necessary to understand the lag time between the entry and discharge points of a tracer and are generated for the river networks of the five WLTC outflows. TTDs are used in the convolution integral with an input tritium concentration time series obtained from the precipitation measurements. The resulting MODPATH tritium concentrations yield a very good match to measured tritium concentrations and are similar to the MT3DMS-simulated tritium concentrations, with the greatest variation occurring around the bomb peak. MODPATH and MT3DMS also yield similar mean transit times (MTTs) of groundwater contribution to river baseflows, but the actual shape of the TTDs is strikingly different. While both distributions provide valuable information, the methodologies used to derive the TTDs are fundamentally different and hence must be interpreted differently. With the current MT3DMS model settings, only the methodology used with MODPATH provides the true TTD for use with the convolution integral. © Author(s) 2014. Citation statistics:
资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/78165
Appears in Collections: 气候变化事实与影响
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作者单位: GNS Science, Avalon, Lower Hutt, 5011, New Zealand; Illinois State Water Survey, Champaign, IL 61820, United States; Aquifer Dynamics and GNS Science, P.O. Box 30368, Lower Hutt, New Zealand
Recommended Citation:
Gusyev M,A,, Abrams D,et al. A comparison of particle-tracking and solute transport methods for simulation of tritium concentrations and groundwater transit times in river water[J]. Hydrology and Earth System Sciences,2014-01-01,18(8)