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FIND: A Synthetic weather generator to control drought Frequency, Intensity, and Duration

Publication ,  Journal Article
Zaniolo, M; Fletcher, S; Mauter, M
Published in: Environmental Modelling and Software
January 1, 2024

Water systems worldwide are experiencing climate change-induced shifts in drought properties like frequency, intensity, and duration, affecting water security and reliability. To develop and test effective drought preparedness plans, researchers often use synthetic weather generators to create hydrological scenarios that explore drought variability beyond historical records. Existing weather generators typically allow users to adjust streamflow statistics like percentiles or temporal correlation but do not directly control drought properties of frequency, intensity, and duration. To fill this gap, we propose FIND (Frequency, INtensity, and Duration) synthetic weather generator. FIND incorporates a standardized drought index to directly and independently control drought frequency, intensity, and duration in generated streamflow time series while preserving observed hydrological variability. Use cases for FIND include (i) water systems analysis applications that seek to train and test drought strategies under historical and plausible future drought conditions, and (ii) bottom-up vulnerability studies relating system vulnerability outcomes to specific changes in drought properties of frequency, intensity, and duration. We demonstrate FIND's versatility through three experiments: replicating historically observed drought properties, generating streamflow scenarios for multiple sites preserving correlation between their drought conditions, and generating a set of scenarios with direct and independent changes in drought properties. FIND source code is openly available for applications beyond the scope of this paper.

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Published In

Environmental Modelling and Software

DOI

ISSN

1364-8152

Publication Date

January 1, 2024

Volume

172

Related Subject Headings

  • Environmental Engineering
 

Citation

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Zaniolo, M., Fletcher, S., & Mauter, M. (2024). FIND: A Synthetic weather generator to control drought Frequency, Intensity, and Duration. Environmental Modelling and Software, 172. https://doi.org/10.1016/j.envsoft.2023.105927
Zaniolo, M., S. Fletcher, and M. Mauter. “FIND: A Synthetic weather generator to control drought Frequency, Intensity, and Duration.” Environmental Modelling and Software 172 (January 1, 2024). https://doi.org/10.1016/j.envsoft.2023.105927.
Zaniolo M, Fletcher S, Mauter M. FIND: A Synthetic weather generator to control drought Frequency, Intensity, and Duration. Environmental Modelling and Software. 2024 Jan 1;172.
Zaniolo, M., et al. “FIND: A Synthetic weather generator to control drought Frequency, Intensity, and Duration.” Environmental Modelling and Software, vol. 172, Jan. 2024. Scopus, doi:10.1016/j.envsoft.2023.105927.
Zaniolo M, Fletcher S, Mauter M. FIND: A Synthetic weather generator to control drought Frequency, Intensity, and Duration. Environmental Modelling and Software. 2024 Jan 1;172.
Journal cover image

Published In

Environmental Modelling and Software

DOI

ISSN

1364-8152

Publication Date

January 1, 2024

Volume

172

Related Subject Headings

  • Environmental Engineering