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Use of AWRA-L and AWRA-R in the bioregional assessment program

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

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Use of AWRA-L and AWRA-R in the bioregional assessment program. / Viney, Neil R.; Zhang, Yongqiang; Peña Arancibia, Jorge et al.
Proceedings of the 36th Hydrology and Water Resources Symposium, Hobart, Australia. Engineers Australia, 2015. p. 1163-1170.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Viney, NR, Zhang, Y, Peña Arancibia, J, Wang, B, Marvanek, S, Karim, F, Gilfedder, M, Aryal, S, Shi, X, Yang, A, Peeters, L, Crosbie, R & Vaze, J 2015, Use of AWRA-L and AWRA-R in the bioregional assessment program. in Proceedings of the 36th Hydrology and Water Resources Symposium, Hobart, Australia. Engineers Australia, pp. 1163-1170.

APA

Viney, N. R., Zhang, Y., Peña Arancibia, J., Wang, B., Marvanek, S., Karim, F., Gilfedder, M., Aryal, S., Shi, X., Yang, A., Peeters, L., Crosbie, R., & Vaze, J. (2015). Use of AWRA-L and AWRA-R in the bioregional assessment program. In Proceedings of the 36th Hydrology and Water Resources Symposium, Hobart, Australia (pp. 1163-1170). Engineers Australia.

Vancouver

Viney NR, Zhang Y, Peña Arancibia J, Wang B, Marvanek S, Karim F et al. Use of AWRA-L and AWRA-R in the bioregional assessment program. In Proceedings of the 36th Hydrology and Water Resources Symposium, Hobart, Australia. Engineers Australia. 2015. p. 1163-1170

Author

Viney, Neil R. ; Zhang, Yongqiang ; Peña Arancibia, Jorge et al. / Use of AWRA-L and AWRA-R in the bioregional assessment program. Proceedings of the 36th Hydrology and Water Resources Symposium, Hobart, Australia. Engineers Australia, 2015. pp. 1163-1170

Bibtex

@inproceedings{2c54c6489df24b588e28b4edbb23ff1a,
title = "Use of AWRA-L and AWRA-R in the bioregional assessment program",
abstract = "The Australian government is undertaking a program of bioregional assessments (BAs) in order to better understand the potential impacts of coal seam gas (CSG) and large coal mining developments on water resources and water-related assets. The aim of the program is to strengthen the science underpinning decision making on CSG and large coal mining developments. A key component of this work is in providing credible, consistent estimates of the impact of CSG and coal mining developments on river flows. The aim of surface water modelling in bioregional assessments is to provide information on flow characteristics at locations in the stream networks that are relevant for key assets and receptors. In particular, the modelling needs to account for changes in flow regime that relate directly to the impacts of future coal mining and coal seam gas extraction. This paper reviews some of the candidate models for achieving these outcomes and outlines some of the practical considerations behind the resulting choice of modelling tools. AWRA-L and AWRA-R have been chosen as the modelling tools to generate these river flow responses. Fluxes from the landscape (predominantly surface runoff, interflow and baseflow) are modelled using AWRA-L. These fluxes are then accumulated and routed through the river network using AWRA-R.",
author = "Viney, {Neil R.} and Yongqiang Zhang and {Pe{\~n}a Arancibia}, Jorge and Bill Wang and Steve Marvanek and Fazlul Karim and Mat Gilfedder and Santosh Aryal and Xiaogang Shi and Ang Yang and Luk Peeters and Russell Crosbie and Jai Vaze",
year = "2015",
language = "English",
pages = "1163--1170",
booktitle = "Proceedings of the 36th Hydrology and Water Resources Symposium, Hobart, Australia",
publisher = "Engineers Australia",

}

RIS

TY - GEN

T1 - Use of AWRA-L and AWRA-R in the bioregional assessment program

AU - Viney, Neil R.

AU - Zhang, Yongqiang

AU - Peña Arancibia, Jorge

AU - Wang, Bill

AU - Marvanek, Steve

AU - Karim, Fazlul

AU - Gilfedder, Mat

AU - Aryal, Santosh

AU - Shi, Xiaogang

AU - Yang, Ang

AU - Peeters, Luk

AU - Crosbie, Russell

AU - Vaze, Jai

PY - 2015

Y1 - 2015

N2 - The Australian government is undertaking a program of bioregional assessments (BAs) in order to better understand the potential impacts of coal seam gas (CSG) and large coal mining developments on water resources and water-related assets. The aim of the program is to strengthen the science underpinning decision making on CSG and large coal mining developments. A key component of this work is in providing credible, consistent estimates of the impact of CSG and coal mining developments on river flows. The aim of surface water modelling in bioregional assessments is to provide information on flow characteristics at locations in the stream networks that are relevant for key assets and receptors. In particular, the modelling needs to account for changes in flow regime that relate directly to the impacts of future coal mining and coal seam gas extraction. This paper reviews some of the candidate models for achieving these outcomes and outlines some of the practical considerations behind the resulting choice of modelling tools. AWRA-L and AWRA-R have been chosen as the modelling tools to generate these river flow responses. Fluxes from the landscape (predominantly surface runoff, interflow and baseflow) are modelled using AWRA-L. These fluxes are then accumulated and routed through the river network using AWRA-R.

AB - The Australian government is undertaking a program of bioregional assessments (BAs) in order to better understand the potential impacts of coal seam gas (CSG) and large coal mining developments on water resources and water-related assets. The aim of the program is to strengthen the science underpinning decision making on CSG and large coal mining developments. A key component of this work is in providing credible, consistent estimates of the impact of CSG and coal mining developments on river flows. The aim of surface water modelling in bioregional assessments is to provide information on flow characteristics at locations in the stream networks that are relevant for key assets and receptors. In particular, the modelling needs to account for changes in flow regime that relate directly to the impacts of future coal mining and coal seam gas extraction. This paper reviews some of the candidate models for achieving these outcomes and outlines some of the practical considerations behind the resulting choice of modelling tools. AWRA-L and AWRA-R have been chosen as the modelling tools to generate these river flow responses. Fluxes from the landscape (predominantly surface runoff, interflow and baseflow) are modelled using AWRA-L. These fluxes are then accumulated and routed through the river network using AWRA-R.

M3 - Conference contribution/Paper

AN - SCOPUS:84974688576

SP - 1163

EP - 1170

BT - Proceedings of the 36th Hydrology and Water Resources Symposium, Hobart, Australia

PB - Engineers Australia

ER -