Lateral terrestrial water flow contribution to summer precipitation at continental scale – A comparison between Europe and West Africa with <scp>WRF‐Hydro</scp>‐tag ensembles

Arnault, Joël; Fersch, Benjamin; Rummler, Thomas; Zhang, Zhenyu; Quenum, Gandome Mayeul L. D.; Wei, Jianhui; Graf, Maximilian; Laux, Patrick; Kunstmann, Harald

doi:10.1002/hyp.14183

Cited by 26 publications

(32 citation statements)

References 83 publications

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“…These estimates of continental recycling appears to be high compared to previous estimates for other African regions (e.g., Arnault et al., 2021), which might point to potential biases in the Lagrangian source analysis. However, a previous intercomparison study between different methodologies by Winschall et al.…”

Section: Resultsmentioning

confidence: 50%

“…These estimates of continental recycling appears to be high compared to previous estimates for other African regions (e.g., Arnault et al, 2021), which might point to potential biases in the Lagrangian source analysis. However, a previous intercomparison study between different methodologies by Winschall et al (2014) has shown that, at least for one case study, our trajectory method yields similar results as other numerical water tagging approaches and that the methodological uncertainties associated with the latter can also be large.…”

Section: Moisture Sourcesmentioning

confidence: 50%

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Precipitation Over Southern Africa: Moisture Sources and Isotopic Composition

et al. 2022

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Southern Africa, with the Namib, Kalahari, and Karoo, comprises vast arid areas (Figure 1), which, under contemporary climate change, receive specific attention due to particular vulnerability patterns (Sietz et al., 2011). These dry lands are considered more prone to precipitation changes (Franchi et al., 2020;Schlaepfer et al., 2017) and amplifying weather extremes such as droughts and floods, than African landscapes with a humid climate (IPCC, 2021). This is not unambiguous, as it has been discussed controversially whether changes in observed daily precipitation (frequency, intensity, and total) over Africa can be regarded as statistically significant over the last at least 30 years and thus allow future predictions (

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Section: Resultsmentioning

confidence: 50%

Section: Moisture Sourcesmentioning

confidence: 50%

Precipitation Over Southern Africa: Moisture Sources and Isotopic Composition

et al. 2022

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“…The choice of WSM6, ACM2, Noah-MP, and waiving of cumulus parameterization is a constraint of WRF-Hydro-iso in its current version. It is noted that this physics setup with a grid-spacing of 5 km proved to give reasonable results for summer precipitation in Europe and West Africa (Arnault et al, 2021).…”

Section: Model Setupmentioning

confidence: 75%

“…As in Arnault et al (2021), the version of WRF-Hydro-tag considered in this study is based on the WRF version 4.0 and the hydrological module of WRF-Hydro version 5.0, and the selected physics parameterization options are the six-class WSM6 microphysics scheme of Hong and Lim (2006), the ACM2 atmospheric turbulence scheme of Pleim (2007), and the Noah-MP community Noah land surface model (LSM) with multi-parameterization options of Niu et al (2011). WRF-Hydro-tag can be run with subsurface, overland, and channel flow routing, as well as a bucket model to estimate baseflow (Gochis et al, 2018).…”

Section: About Wrf-hydro-tagmentioning

confidence: 99%

A Joint Soil‐Vegetation‐Atmospheric Modeling Procedure of Water Isotopologues: Implementation and Application to Different Climate Zones With WRF‐Hydro‐Iso

Arnault

Jung²,

Haese

et al. 2021

J Adv Model Earth Syst

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Water isotopologues, namely water molecules that contain an isotope of oxygen or hydrogen, are natural tracers that characterize the Earth's water cycle in the present and past days (Gat, 1996), which is the reason why their observation and modeling has been raising the interest of the scientific community for many decades (e.g., Dansgaard, 1954;Joussaume et al., 1984;Steen-Larsen et al., 2017). In this work, the focus is on modeling the isotopic fractionation processes in the coupled land-atmosphere regional water cycle. This is developed and achieved with the coupled atmospheric-hydrological regional modeling system WRF-Hydro (Gochis et al., 2018). The objective is to evaluate the benefit of using WRF-Hydro for representing water isotopologues.

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“…Indirectly, indications of possible hydrological impact produced by larger‐scale (continental) application of a fully coupled approach were provided by Arnault et al (2021), who, however, detected a slight precipitation increase. The atmosphere‐land‐ocean coupled system applied by Lewis and Dadson (2021) over the whole United Kingdom showed its ability to predict broad‐scale features of river streamflow even without using proper calibration procedures.…”

Section: Contributionsmentioning

confidence: 99%

Preface – special issue on “coupled atmosphere‐hydrological processes: Novel system developments and cross‐compartment evaluations”

Senatore

Gochis

Kunstmann

et al. 2022

Hydrological Processes

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Water and energy fluxes between the land surface and the atmospheric boundary layer entail complex interactions (Betts et al., 1996;Fisher & Koven, 2020). Comprehensive process-based modelling of all major intertwined fluxes, related non-linear feedbacks and scale-dependent properties is a cutting-edge approach to advance the understanding of the interaction of water with both the atmospheric and the land surface system, which requires compartment-crossing strategies. The need for dynamically coupling different model compartments was foreseen already decades ago and grew parallel with increasing technological opportunities, like high-performance computing advances, development of efficient couplers and the availability of comprehensive earth observation datasets. Eagleson (1986) already claimed that the solution to multiple hydrological problems at the local scale requires "global scale dynamic modelling of the coupled ocean-atmosphere-land surface".Twenty years later, Beven (2007) suggested that dynamic "coupling between atmospheric forcing, catchment response, river runoff and coastal interaction with tidally dominated sea levels" can be crucial for flood protection. Such increasing awareness led hydrologists to overcome previous disciplinary boundaries and decisively become intimate with atmospheric sciences.Today, coupled atmosphere-hydrological models address the challenge by describing the water-and energy cycle from groundwater across the land surface to the top of the atmosphere. The new | Soil moistureprecipitation feedbackThe special Issue presents three articles addressing the issue of soil moistureprecipitation feedback at the catchment scale and one at

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Lateral terrestrial water flow contribution to summer precipitation at continental scale – A comparison between Europe and West Africa with WRF‐Hydro‐tag ensembles

Cited by 26 publications

References 83 publications

Precipitation Over Southern Africa: Moisture Sources and Isotopic Composition

Precipitation Over Southern Africa: Moisture Sources and Isotopic Composition

A Joint Soil‐Vegetation‐Atmospheric Modeling Procedure of Water Isotopologues: Implementation and Application to Different Climate Zones With WRF‐Hydro‐Iso

Preface – special issue on “coupled atmosphere‐hydrological processes: Novel system developments and cross‐compartment evaluations”

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