Disentangling atmospheric, hydrological, and coupling uncertainties in compound flood modeling within a coupled Earth system model

Feng, Dongyu; Tan, Zeli; Engwirda, Darren; Wolfe, Jonathan D.; Xu, Donghui; Liao, Chang; Bisht, Gautam; Benedict, James J.; Zhou, Tian; Deb, Mithun; Li, Hong-Yi; Leung, L. Ruby

doi:https://doi.org/10.5194/nhess-25-3619-2025

Articles | Volume 25, issue 9

https://doi.org/10.5194/nhess-25-3619-2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Methodological innovations for the analysis and management...

https://doi.org/10.5194/nhess-25-3619-2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 25, issue 9

Research article

|

26 Sep 2025

Research article |

| 26 Sep 2025

Disentangling atmospheric, hydrological, and coupling uncertainties in compound flood modeling within a coupled Earth system model

Dongyu Feng, Zeli Tan, Darren Engwirda, Jonathan D. Wolfe, Donghui Xu, Chang Liao, Gautam Bisht, James J. Benedict, Tian Zhou, Mithun Deb, Hong-Yi Li, and L. Ruby Leung

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Cumulative views and downloads (calculated since 24 Sep 2024)

Month	HTML	PDF	XML	Total
Sep 2024	70	10	26	106
Oct 2024	81	23	87	191
Nov 2024	32	9	48	89
Dec 2024	11	7	52	70
Jan 2025	27	14	88	129
Feb 2025	18	2	12	32
Mar 2025	11	10	2	23
Apr 2025	10	9	0	19
May 2025	7	5	1	13
Jun 2025	32	21	3	56
Jul 2025	23	10	1	34
Aug 2025	156	22	4	182
Sep 2025	465	14	2	481

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Short summary

Our study explores how riverine and coastal flooding during hurricanes is influenced by the interaction of atmosphere, land, river, and ocean conditions. Using an advanced Earth system model, we simulate Hurricane Irene to evaluate how meteorological and hydrological uncertainties affect flood modeling. Our findings reveal the importance of a multi-component modeling system, how hydrological conditions play critical roles in flood modeling, and greater flood risks if multiple factors are present.


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