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Tropical cyclone effects on rapid runoff responses: quantifying with new continuous-time transfer function models

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter (peer-reviewed)

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Tropical cyclone effects on rapid runoff responses: quantifying with new continuous-time transfer function models. / Chappell, Nick A; Bonell, Mike; Barnes, Chris et al.
Revisiting Experimental Catchment Studies in Forest Hydrology: proceedings of a workhop held in Melbourne in 2011. ed. / Ashley A. Webb; Mike Bonell; Leon Bren; Patrick N.J. Lane; Don McGuire; Daniel G. Neary; Jami Nettles; David F. Scott; John Stednik; Yanhui Wang. Wallingford: IAHS Press, 2012. p. 82-93 (IAHS Red Book Series; Vol. 353).

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter (peer-reviewed)

Harvard

Chappell, NA, Bonell, M, Barnes, C & Tych, W 2012, Tropical cyclone effects on rapid runoff responses: quantifying with new continuous-time transfer function models. in AA Webb, M Bonell, L Bren, PNJ Lane, D McGuire, DG Neary, J Nettles, DF Scott, J Stednik & Y Wang (eds), Revisiting Experimental Catchment Studies in Forest Hydrology: proceedings of a workhop held in Melbourne in 2011. IAHS Red Book Series, vol. 353, IAHS Press, Wallingford, pp. 82-93. <http://iahs.info/redbooks/a353/iahs_353_0082.pdf>

APA

Chappell, N. A., Bonell, M., Barnes, C., & Tych, W. (2012). Tropical cyclone effects on rapid runoff responses: quantifying with new continuous-time transfer function models. In A. A. Webb, M. Bonell, L. Bren, P. N. J. Lane, D. McGuire, D. G. Neary, J. Nettles, D. F. Scott, J. Stednik, & Y. Wang (Eds.), Revisiting Experimental Catchment Studies in Forest Hydrology: proceedings of a workhop held in Melbourne in 2011 (pp. 82-93). (IAHS Red Book Series; Vol. 353). IAHS Press. http://iahs.info/redbooks/a353/iahs_353_0082.pdf

Vancouver

Chappell NA, Bonell M, Barnes C, Tych W. Tropical cyclone effects on rapid runoff responses: quantifying with new continuous-time transfer function models. In Webb AA, Bonell M, Bren L, Lane PNJ, McGuire D, Neary DG, Nettles J, Scott DF, Stednik J, Wang Y, editors, Revisiting Experimental Catchment Studies in Forest Hydrology: proceedings of a workhop held in Melbourne in 2011. Wallingford: IAHS Press. 2012. p. 82-93. (IAHS Red Book Series).

Author

Chappell, Nick A ; Bonell, Mike ; Barnes, Chris et al. / Tropical cyclone effects on rapid runoff responses: quantifying with new continuous-time transfer function models. Revisiting Experimental Catchment Studies in Forest Hydrology: proceedings of a workhop held in Melbourne in 2011. editor / Ashley A. Webb ; Mike Bonell ; Leon Bren ; Patrick N.J. Lane ; Don McGuire ; Daniel G. Neary ; Jami Nettles ; David F. Scott ; John Stednik ; Yanhui Wang. Wallingford : IAHS Press, 2012. pp. 82-93 (IAHS Red Book Series).

Bibtex

@inbook{a91dfb5f4d254fcb855f91450fd2d556,
title = "Tropical cyclone effects on rapid runoff responses: quantifying with new continuous-time transfer function models",
abstract = "The South Creek Experimental Catchment (Queensland, Australia) was the first forest hydrological study established within cyclone-affected areas of the humid tropics to address runoff processes or surface–groundwater interactions. From the outset it was believed that the very flashy nature of the responses within this area of Queensland was at least partly attributed to rainfall characteristics associated with tropical cyclones. This study quantifies the impact on the dynamic response characteristics of very flashy streamflow responses to rainfall from a sequence of tropical cyclones relative to those associated with local convective events. To achieve this we have applied state-of-the-art time-series modelling methods to South Creek data and to that from a basin not directly affected by tropical cyclones but where the soils and slopes are comparable. For both datasets our analyses best captured the rainfall–runoff responses with second-order continuous-time transfer functions where 60% of the streamflow was associated with a fast pathway. While the recession time constant (TC) of this fast pathway was 75 minutes for the basin with rainstorms produced by local convective events (namely the Baru Experimental Catchment in Malaysian Borneo), the TC was only 21 minutes at South Creek. With an identical model structure and an identical value describing the rainfall–runoff nonlinearity, this shows quantitatively that for a unit rainfall input (sampled on a sub-hourly basis), the basin affected by tropical cyclones produced flashier stream responses in comparison to that only affected by localised tropical thunderstorms.",
author = "Chappell, {Nick A} and Mike Bonell and Chris Barnes and Wlodzimierz Tych",
year = "2012",
language = "English",
isbn = "978-1-907161-31-5",
series = "IAHS Red Book Series",
publisher = "IAHS Press",
pages = "82--93",
editor = "Webb, {Ashley A.} and Mike Bonell and Leon Bren and Lane, {Patrick N.J.} and Don McGuire and Neary, {Daniel G.} and Jami Nettles and Scott, {David F. } and John Stednik and Yanhui Wang",
booktitle = "Revisiting Experimental Catchment Studies in Forest Hydrology",

}

RIS

TY - CHAP

T1 - Tropical cyclone effects on rapid runoff responses: quantifying with new continuous-time transfer function models

AU - Chappell, Nick A

AU - Bonell, Mike

AU - Barnes, Chris

AU - Tych, Wlodzimierz

PY - 2012

Y1 - 2012

N2 - The South Creek Experimental Catchment (Queensland, Australia) was the first forest hydrological study established within cyclone-affected areas of the humid tropics to address runoff processes or surface–groundwater interactions. From the outset it was believed that the very flashy nature of the responses within this area of Queensland was at least partly attributed to rainfall characteristics associated with tropical cyclones. This study quantifies the impact on the dynamic response characteristics of very flashy streamflow responses to rainfall from a sequence of tropical cyclones relative to those associated with local convective events. To achieve this we have applied state-of-the-art time-series modelling methods to South Creek data and to that from a basin not directly affected by tropical cyclones but where the soils and slopes are comparable. For both datasets our analyses best captured the rainfall–runoff responses with second-order continuous-time transfer functions where 60% of the streamflow was associated with a fast pathway. While the recession time constant (TC) of this fast pathway was 75 minutes for the basin with rainstorms produced by local convective events (namely the Baru Experimental Catchment in Malaysian Borneo), the TC was only 21 minutes at South Creek. With an identical model structure and an identical value describing the rainfall–runoff nonlinearity, this shows quantitatively that for a unit rainfall input (sampled on a sub-hourly basis), the basin affected by tropical cyclones produced flashier stream responses in comparison to that only affected by localised tropical thunderstorms.

AB - The South Creek Experimental Catchment (Queensland, Australia) was the first forest hydrological study established within cyclone-affected areas of the humid tropics to address runoff processes or surface–groundwater interactions. From the outset it was believed that the very flashy nature of the responses within this area of Queensland was at least partly attributed to rainfall characteristics associated with tropical cyclones. This study quantifies the impact on the dynamic response characteristics of very flashy streamflow responses to rainfall from a sequence of tropical cyclones relative to those associated with local convective events. To achieve this we have applied state-of-the-art time-series modelling methods to South Creek data and to that from a basin not directly affected by tropical cyclones but where the soils and slopes are comparable. For both datasets our analyses best captured the rainfall–runoff responses with second-order continuous-time transfer functions where 60% of the streamflow was associated with a fast pathway. While the recession time constant (TC) of this fast pathway was 75 minutes for the basin with rainstorms produced by local convective events (namely the Baru Experimental Catchment in Malaysian Borneo), the TC was only 21 minutes at South Creek. With an identical model structure and an identical value describing the rainfall–runoff nonlinearity, this shows quantitatively that for a unit rainfall input (sampled on a sub-hourly basis), the basin affected by tropical cyclones produced flashier stream responses in comparison to that only affected by localised tropical thunderstorms.

M3 - Chapter (peer-reviewed)

SN - 978-1-907161-31-5

T3 - IAHS Red Book Series

SP - 82

EP - 93

BT - Revisiting Experimental Catchment Studies in Forest Hydrology

A2 - Webb, Ashley A.

A2 - Bonell, Mike

A2 - Bren, Leon

A2 - Lane, Patrick N.J.

A2 - McGuire, Don

A2 - Neary, Daniel G.

A2 - Nettles, Jami

A2 - Scott, David F.

A2 - Stednik, John

A2 - Wang, Yanhui

PB - IAHS Press

CY - Wallingford

ER -