Assessing the Effects of Climate Change in a Semiarid Basin Utilizing a Fully Distributed Hydrologic Model: A Case Study of Beaver Creek, Arizona.

abstract: The North American Monsoon (NAM) is characterized by high inter- and intra-seasonal variability, and potential climate change effects have been forecasted to increase this variability. The potential effects of climate change to the hydrology of the southwestern U.S. is of interest as they...

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Other Authors: Hawkins, Gretchen A. (Author), Vivoni, Enrique R. (Advisor), Semken, Steven (Committee member), Mays, Larry W. (Committee member), Arizona State University (Publisher)
Format: Master Thesis
Language:English
Published: 2012
Subjects:
Hydrologic sciences
Water resources management
Climate change
hydrologic modeling
monsoon
tRIBS
Beaver Creek
Online Access:http://hdl.handle.net/2286/R.I.15198
id ftarizonastateun:item:15198
record_format openpolar
spelling ftarizonastateun:item:15198 2023-05-15T15:41:03+02:00 Assessing the Effects of Climate Change in a Semiarid Basin Utilizing a Fully Distributed Hydrologic Model: A Case Study of Beaver Creek, Arizona. Hawkins, Gretchen A. (Author) Vivoni, Enrique R. (Advisor) Semken, Steven (Committee member) Mays, Larry W. (Committee member) Arizona State University (Publisher) 2012 121 pages http://hdl.handle.net/2286/R.I.15198 eng eng http://hdl.handle.net/2286/R.I.15198 http://rightsstatements.org/vocab/InC/1.0/ All Rights Reserved Hydrologic sciences Water resources management Climate change hydrologic modeling monsoon tRIBS Masters Thesis 2012 ftarizonastateun 2018-06-23T22:55:26Z abstract: The North American Monsoon (NAM) is characterized by high inter- and intra-seasonal variability, and potential climate change effects have been forecasted to increase this variability. The potential effects of climate change to the hydrology of the southwestern U.S. is of interest as they could have consequences to water resources, floods, and land management. I applied a distributed watershed model, the Triangulated Irregular Network (TIN)-based Real-time Integrated Basin Simulator (tRIBS), to the Beaver Creek basin in Arizona. This sub-basin of the Verde River is representative of the regional topography, land cover, and soils distribution. As such, it can serve to illustrate the utility of distributed models for change assessment studies. Model calibration was performed utilizing radar-based NEXRAD data, and comparisons were done to two additional sources of precipitation data: ground-based stations and the North American Land Data Assimilation System (NLDAS). Comparisons focus on the spatiotemporal distributions of precipitation and stream discharge. Utilizing the calibrated model, I applied scenarios from the HadCM3 General Circulation Model (GCM) which was dynamically downscaled by the Weather Research and Forecast (WRF) model, to refine the representation of Arizona's regional climate. Two time periods were examined, a historical 1990-2000 and a future 2031-2040, to evaluate the hydrologic consequence in the form of differences and similarities between the decadal averages for temperature, precipitation, stream discharge and evapotranspiration. Results indicate an increase in mean air temperature over the basin by 1.2 ºC. The average decadal precipitation amounts increased between the two time periods by 2.4 times that of the historical period and had an increase in variability that was 3 times the historical period. For the future period, modeled streamflow discharge in the summer increased by a factor of 3. There was no significant change in the average evapotranspiration (ET). Overall trends of increase precipitation and variability for future climate scenarios have a more significant effect on the hydrologic response than temperature increases in the system during NAM in this study basin. The results from this study suggest that water management in the Beaver Creek will need to adapt to higher summer streamflow amounts. Dissertation/Thesis M.S. Civil and Environmental Engineering 2012 Master Thesis Beaver Creek Arizona State University: ASU Digital Repository
institution Open Polar
collection Arizona State University: ASU Digital Repository
op_collection_id ftarizonastateun
language English
topic Hydrologic sciences
Water resources management
Climate change
hydrologic modeling
monsoon
tRIBS
spellingShingle Hydrologic sciences
Water resources management
Climate change
hydrologic modeling
monsoon
tRIBS
Assessing the Effects of Climate Change in a Semiarid Basin Utilizing a Fully Distributed Hydrologic Model: A Case Study of Beaver Creek, Arizona.
topic_facet Hydrologic sciences
Water resources management
Climate change
hydrologic modeling
monsoon
tRIBS
description abstract: The North American Monsoon (NAM) is characterized by high inter- and intra-seasonal variability, and potential climate change effects have been forecasted to increase this variability. The potential effects of climate change to the hydrology of the southwestern U.S. is of interest as they could have consequences to water resources, floods, and land management. I applied a distributed watershed model, the Triangulated Irregular Network (TIN)-based Real-time Integrated Basin Simulator (tRIBS), to the Beaver Creek basin in Arizona. This sub-basin of the Verde River is representative of the regional topography, land cover, and soils distribution. As such, it can serve to illustrate the utility of distributed models for change assessment studies. Model calibration was performed utilizing radar-based NEXRAD data, and comparisons were done to two additional sources of precipitation data: ground-based stations and the North American Land Data Assimilation System (NLDAS). Comparisons focus on the spatiotemporal distributions of precipitation and stream discharge. Utilizing the calibrated model, I applied scenarios from the HadCM3 General Circulation Model (GCM) which was dynamically downscaled by the Weather Research and Forecast (WRF) model, to refine the representation of Arizona's regional climate. Two time periods were examined, a historical 1990-2000 and a future 2031-2040, to evaluate the hydrologic consequence in the form of differences and similarities between the decadal averages for temperature, precipitation, stream discharge and evapotranspiration. Results indicate an increase in mean air temperature over the basin by 1.2 ºC. The average decadal precipitation amounts increased between the two time periods by 2.4 times that of the historical period and had an increase in variability that was 3 times the historical period. For the future period, modeled streamflow discharge in the summer increased by a factor of 3. There was no significant change in the average evapotranspiration (ET). Overall trends of increase precipitation and variability for future climate scenarios have a more significant effect on the hydrologic response than temperature increases in the system during NAM in this study basin. The results from this study suggest that water management in the Beaver Creek will need to adapt to higher summer streamflow amounts. Dissertation/Thesis M.S. Civil and Environmental Engineering 2012
author2 Hawkins, Gretchen A. (Author)
Vivoni, Enrique R. (Advisor)
Semken, Steven (Committee member)
Mays, Larry W. (Committee member)
Arizona State University (Publisher)
format Master Thesis
title Assessing the Effects of Climate Change in a Semiarid Basin Utilizing a Fully Distributed Hydrologic Model: A Case Study of Beaver Creek, Arizona.
title_short Assessing the Effects of Climate Change in a Semiarid Basin Utilizing a Fully Distributed Hydrologic Model: A Case Study of Beaver Creek, Arizona.
title_full Assessing the Effects of Climate Change in a Semiarid Basin Utilizing a Fully Distributed Hydrologic Model: A Case Study of Beaver Creek, Arizona.
title_fullStr Assessing the Effects of Climate Change in a Semiarid Basin Utilizing a Fully Distributed Hydrologic Model: A Case Study of Beaver Creek, Arizona.
title_full_unstemmed Assessing the Effects of Climate Change in a Semiarid Basin Utilizing a Fully Distributed Hydrologic Model: A Case Study of Beaver Creek, Arizona.
title_sort assessing the effects of climate change in a semiarid basin utilizing a fully distributed hydrologic model: a case study of beaver creek, arizona.
publishDate 2012
url http://hdl.handle.net/2286/R.I.15198
genre Beaver Creek
genre_facet Beaver Creek
op_relation http://hdl.handle.net/2286/R.I.15198
op_rights http://rightsstatements.org/vocab/InC/1.0/
All Rights Reserved
_version_ 1766373916796780544

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