Climate Change Induced Precipitation Effects on Water Resources in the Peace Region of British Columbia, Canada

Saha, Gopal Chandra

doi:10.3390/cli3020264

Cited by 9 publications

(6 citation statements)

References 38 publications

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“…Various studies have successfully applied GSSHA model to a wide range of watershed scales for predicting hydrological response particularly during extreme storm events [10][11][12]22,23]. The fully distributed GSSHA model is based on a structured grid and uses physically-based partial diffusive wave equations for two-dimensional overland flow (Explicit and Alterative Direction Explicit (ADE)) and one-dimensional channel flow (up-gradient explicit).…”

Section: Model Descriptionsmentioning

confidence: 99%

Comparison of SWAT and GSSHA for High Time Resolution Prediction of Stream Flow and Sediment Concentration in a Small Agricultural Watershed

Sith

Nadaoka

2017

Hydrology

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Abstract:In this study, two hydrologic models, the Gridded Surface Subsurface Hydrologic Analysis (GSSHA) and the Soil and Water Assessment Tool (SWAT), were applied to predict stream flow and suspended sediment concentration (SSC) in a small agricultural watershed in Ishigaki Island, Japan, in which the typical time scale of flood event was several hours. The performances of these two models were compared in order to select the right model for the study watershed. Both models were calibrated and validated against hourly stream flow and SSC for half-month periods of 15 to 31 May 2011 and 17 March to 7 April 2013, respectively. The results showed that both models successfully estimated hourly stream flow and SSC in a satisfactory way. For the short-term simulations, the GSSHA model performed slightly better in simulating stream flow as compared to SWAT during both calibration and validation periods. GSSHA only gave better accuracy when predicting SSC during calibration, while SWAT performed slightly better during validation. For long-term simulations, both models yielded comparable results for long-term stream flow and SSC with acceptable agreement. However, SWAT predicted the overall variation of long-term SSC better than GSSHA.

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Section: Model Descriptionsmentioning

confidence: 99%

Comparison of SWAT and GSSHA for High Time Resolution Prediction of Stream Flow and Sediment Concentration in a Small Agricultural Watershed

Sith

Nadaoka

2017

Hydrology

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“…This scenario will likely occur if the society does not make any efforts to cut GHG emissions. Future climate change scenarios assessed for two decades were used in a number of climate change impacts studies on water resources [42][43][44]. However, in order to be consistent with the forecast of future number of hydraulically fractured wells in Alberta until 2036, in the study conducted by Johnson et al [45], the period of 2021-2036 (less than two decades) was used in this study.…”

Section: Climate Scenariosmentioning

confidence: 99%

Integrated Surface Water and Groundwater Analysis under the Effects of Climate Change, Hydraulic Fracturing and its Associated Activities: A Case Study from Northwestern Alberta, Canada

Saha

Quinn

2020

Hydrology

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This study assessed how hydraulic fracturing (HF) (water withdrawals from nearby river water source) and its associated activities (construction of well pads) would affect surface water and groundwater in 2021–2036 under changing climate (RCP4.5 and RCP8.5 scenarios of the CanESM2) in a shale gas and oil play area (23,984.9 km2) of northwestern Alberta, Canada. An integrated hydrologic model (MIKE-SHE and MIKE-11 models), and a cumulative effects landscape simulator (ALCES) were used for this assessment. The simulation results show an increase in stream flow and groundwater discharge in 2021–2036 under both RCP4.5 and RCP8.5 scenarios with respect to those under the base modeling period (2000–2012). This occurs because of the increased precipitation and temperature predicted in the study area under both RCP4.5 and RCP8.5 scenarios. The results found that HF has very small (less than 1%) subtractive impacts on stream flow in 2021–2036 because of the large size of the study area, although groundwater discharge would increase minimally (less than 1%) due to the increase in the gradient between groundwater and surface water systems. The simulation results also found that the construction of well pads related to HF have very small (less than 1%) additive impacts on stream flow and groundwater discharge due to the non-significant changes in land use. The obtained results from this study provide valuable information for effective long-term water resources decision making in terms of seasonal and annual water extractions from the river, and allocation of water to the oil and gas industries for HF in the study area to meet future energy demand considering future climate change.

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“…It is usually measured as the rain volume which falls to the Earth per area unit per time unit. The rainfall rate can be used in many applications, such as water and energy cycle assessment, environmental and agricultural issues, weather forecasting, monitoring climate change, hydrological applications and natural disaster management [9,10].…”

Section: Introductionmentioning

confidence: 99%

An Analysis of Total Water Storage Changes Obtained from GRACE FO Observations over the Venezia Islands Area Supported with Additional Data

Biryło

Rzepecka

2021

GaEE

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The Venezia Islands are a very special area from the hydrological point of view due to its water mass changes. Regular floods results in the need for the regular monitoring of water mass changes. For this purpose, a Gravity Recovery and Climate Experiment mission (GRACE) can be used as a source of data. The aim of the paper is to compare the latest results of the new GRACE FO observations. The comparisons were carried out all over Venezia Island using the L3 level, RL06 release data obtained with spherical harmonics degree and order extension of up to 120, by the three most important computational centres: JPL, GFZ, CSR. Results are compared to an average month values of precipitation and evapotranspiration and tide gauge data in the nearby area. Based on the research, no dependence between TWS and evapotranspiration and evapotranspiration change were found.

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Climate Change Induced Precipitation Effects on Water Resources in the Peace Region of British Columbia, Canada

Cited by 9 publications

References 38 publications

Comparison of SWAT and GSSHA for High Time Resolution Prediction of Stream Flow and Sediment Concentration in a Small Agricultural Watershed

Comparison of SWAT and GSSHA for High Time Resolution Prediction of Stream Flow and Sediment Concentration in a Small Agricultural Watershed

Integrated Surface Water and Groundwater Analysis under the Effects of Climate Change, Hydraulic Fracturing and its Associated Activities: A Case Study from Northwestern Alberta, Canada

An Analysis of Total Water Storage Changes Obtained from GRACE FO Observations over the Venezia Islands Area Supported with Additional Data

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