The Ensemble Framework For Flash Flood Forecasting (EF5) v1.2: description and case study

Flamig, Zachary L.; Vergara, Humberto; Gourley, Jonathan J.

doi:10.5194/gmd-13-4943-2020

Cited by 31 publications

(23 citation statements)

References 33 publications

(41 reference statements)

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“…Combined with our previous study that underlies the importance of infiltration and initial soil moisture for flood inundation modeling, we highly recommend taking into consideration the initial soil moisture state, as it has not been well-recognized in the hydraulic model community. This can be achieved via three ways: 1) warm up the model for a relatively long period prior to the simulation period (Chen et al, 2020); 2) parameterize the initial soil moisture and calibrate it, similar to the way we treat initial in-channel water depth (Xue et al, 2013); 3) approximate it using observations or other model simulations, like what has been done in the real case study in Section 3.2 (Flamig, Vergara, & Gourley, 2020). The first approach is ideal because it eliminates uncertainties in parameterization (such as equifinality) or error propagation from observations/simulations to models; it is, however, the most computationally expensive approach for hydraulic modeling compared to the other two.…”

Section: Discussionmentioning

confidence: 99%

“…Hydrologic modeling is so far a common approach to deliver timely flood information for the sake of scalability and efficiency (Gourley et al, 2017). Yet, conventional hydrologic models bear large uncertainties in such developed regions, which is mainly due to 1) simplified representation of terrain (Dullo et al, 2021) and 2) one-dimensional routing that raises issues in flat regions (Flamig, Vergara, & Gourley, 2020;Getirana & Paiva, 2013;Li et al, 2021b). On the other hand, hydraulic models do not excel in representing hydrologic processes.…”

Section: Crest-imap Modelmentioning

confidence: 99%

“…CREST-iMAP inherits the previous version of the CREST model, which simulates saturation excess runoff as the primary runoff generation process (Wang et al, 2011;Xue et al, 2013;Flamig, Vergara, & Gourley, 2020). The schematic model structure is depicted in Figure 2.…”

Section: [Insert Figure 2 Here]mentioning

confidence: 99%

“…These soil-related a-priori parameters can be approximated from a look-up table at an individual grid cell basis (Chow, Maidment, & Mays, 1988). There are also CONUS-wide optimized parameter sets that are configured for operational flood monitoring systems (Flamig, Vergara, & Gourley, 2020). The impervious area ratio, IM from 0% to 100%, is obtained directly from the NLCD dataset; the manning's n coefficient is derived from the LULC via a look-up table.…”

Section: [Insert Figure 2 Here]mentioning

confidence: 99%

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Can the re-infiltration process be ignored for flood inundation mapping and prediction during extreme storms?

Chen

Gao

et al. 2021

Preprint

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Coupled Hydrologic & Hydraulic (H&H) models have been widely applied to simulate both discharge and flood inundation due to their complementary advantages, yet the H&H models oftentimes suffer from one-way and weak coupling and particularly disregarded run-on infiltration or re-infiltration. This could compromise the model accuracy, such as under-prediction (over-prediction) of subsurface water contents (surface runoff). In this study, we examine the H&H model performance differences between the scenarios with and without re-infiltration process in extreme events¬ – 100-year design rainfall and 500-year Hurricane Harvey event – from the perspective of flood depth, inundation extent, and timing. Results from both events underline that re-infiltration manifests discernable impacts and non-negligible differences for better predicting flood depth and extents, flood wave timings, and inundation durations. Saturated hydraulic conductivity and antecedent soil moisture are found to be the prime contributors to such differences. For the Hurricane Harvey event, the model performance is verified against stream gauges and high water marks, from which the re-infiltration scheme increases the Nash Sutcliffe Efficiency score by 140% on average and reduces maximum depth differences by 17%. This study highlights that the re-infiltration process should not be disregarded even in extreme flood simulations. Meanwhile, the new version of the H&H model – the Coupled Routing and Excess STorage inundation MApping and Prediction (CREST-iMAP) Version 1.1, which incorporates such two-way coupling and re-infiltration scheme, is released for public access.

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Section: Discussionmentioning

confidence: 99%

Section: Crest-imap Modelmentioning

confidence: 99%

Section: [Insert Figure 2 Here]mentioning

confidence: 99%

Section: [Insert Figure 2 Here]mentioning

confidence: 99%

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Can the re-infiltration process be ignored for flood inundation mapping and prediction during extreme storms?

Chen

Gao

et al. 2021

Preprint

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“…It is a distributed hydrologic model whose primary purposes are (1) flood simulation and forecasting, (2) evaluating the hydrologic utility of satellite precipitation datasets, and (3) water resources management (Xue et al, 2013;Tang et al, 2016;Gourley et al, 2017;Chen et al, 2020;Li et al, 2021b). Owing to its relatively simple structure and computationally efficient simulation, the CREST model has been promoted by the NOAA NSSL for real-time flash flood forecasting over the continental U.S. and its territories (Gourley et al, 2017;Flamig et al, 2020). As shown in Fig.…”

Section: Crest Modelmentioning

confidence: 99%

CREST-VEC: A framework towards more accurate and realistic flood simulation across scales

Gao

Chen

et al. 2022

Preprint

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Abstract. Large-scale (i.e., continental and global) hydrologic simulation is an appealing yet challenging topic for the hydrologic community. First and foremost, model efficiency and scalability (flexibility in resolution and discretization) have to be prioritized. Then, sufficient model accuracy and precision are required to provide useful information for water resources applications. This study presents a hydrologic modeling framework – CREST-VEC (Coupled Routing and Excess STorage – VECtor-based routing) that combines a gridded water balance model and a newly developed vector-based routing scheme. First, in contrast to a conventional fully gridded model, this framework can significantly reduce the computational cost by at least ten times, based on experiments at regional (0.07 sec/step vs. 0.002 sec/step) and continental scales (0.35 sec/step vs. 7.2 sec/step). This provides adequate time efficiency for generating operational ensemble streamflow forecasts and even probabilistic estimates across scales. Second, the performance using the new vector-based routing is improved, with the median-aggregated NSE (Nash-Sutcliffe Efficiency) score increased from -0.06 to 0.13 over the United States. Third, with the lake module incorporated, the NSE score is further improved by 62.5 % and the systematic bias is reduced by 36.7 %. Lastly, over 20 % of the false alarms on two-year floods in the US can be mitigated with the lake module enabled, at the expense of only missing 2.3 % more events. This study demonstrated the advantages of the proposed hydrological modeling framework that could provide a solid basis for continental and global scale water modeling at fine resolution. Furthermore, the use of ensemble forecasts can be incorporated into this framework; and thus, optimized streamflow prediction with quantified uncertainty information can be achieved at operational fashion for stakeholders and decision-makers.

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Multisensor Remote Sensing and the Multidimensional Modeling of Extreme Flood Events

Chen¹,

Li²,

Gao³

2022

Geophysical Monograph Series

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The Ensemble Framework For Flash Flood Forecasting (EF5) v1.2: description and case study

Cited by 31 publications

References 33 publications

Can the re-infiltration process be ignored for flood inundation mapping and prediction during extreme storms?

Can the re-infiltration process be ignored for flood inundation mapping and prediction during extreme storms?

CREST-VEC: A framework towards more accurate and realistic flood simulation across scales

Multisensor Remote Sensing and the Multidimensional Modeling of Extreme Flood Events

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