Physically based maximization of precipitation over American river watershed in California

K. Ishida; S. Jang; N. Ohara; S. Kure; M. L. Kavvas

doi:10.1061/9780784412947.117

Physically based maximization of precipitation over American river watershed in California

K. Ishida, S. Jang, N. Ohara, S. Kure, M. L. Kavvas

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

A 72-hour precipitation in a storm event over the American River Watershed (ARW) in California is maximized using a physically-based numerical model for a regional atmosphere. A storm event over ARW is caused by a high-moisture atmosphere coming from the Pacific Ocean, called «atmospheric river.» Moreover, the path of an atmospheric river affects the amount of precipitation over the ARW. Therefore, the contribution of an atmospheric river to 72-hour precipitation over ARW is maximized by spatially shifting the atmospheric conditions for the numerical atmospheric model. In this study, this methodology is applied to the 1997 January storm event, one of the severest storm events over the ARW. Consequently, the 72-hour precipitation is maximized by shifting the atmospheric conditions southward by 6.0 degrees and westward by 1.0 degree, and the maximized value results in 568 mm. The results show that a historical storm event had the capability to cause higher precipitation, and the presented methodology is effective for the estimation of maximum precipitation over the ARW.

Original language	English
Title of host publication	World Environmental and Water Resources Congress 2013
Subtitle of host publication	Showcasing the Future - Proceedings of the 2013 Congress
Publisher	American Society of Civil Engineers (ASCE)
Pages	1198-1201
Number of pages	4
ISBN (Print)	9780784412947
DOIs	https://doi.org/10.1061/9780784412947.117
Publication status	Published - 2013
Event	World Environmental and Water Resources Congress 2013: Showcasing the Future - Cincinnati, OH, United States Duration: 2013 May 19 → 2013 May 23

Publication series

Name	World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress

Other

Other	World Environmental and Water Resources Congress 2013: Showcasing the Future
Country/Territory	United States
City	Cincinnati, OH
Period	13/5/19 → 13/5/23

ASJC Scopus subject areas

Water Science and Technology

Access to Document

10.1061/9780784412947.117

Cite this

Ishida, K., Jang, S., Ohara, N., Kure, S., & Kavvas, M. L. (2013). Physically based maximization of precipitation over American river watershed in California. In World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress (pp. 1198-1201). (World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress). American Society of Civil Engineers (ASCE). https://doi.org/10.1061/9780784412947.117

Physically based maximization of precipitation over American river watershed in California. / Ishida, K.; Jang, S.; Ohara, N. et al.

World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress. American Society of Civil Engineers (ASCE), 2013. p. 1198-1201 (World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Ishida, K, Jang, S, Ohara, N, Kure, S & Kavvas, ML 2013, Physically based maximization of precipitation over American river watershed in California. in World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress. World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress, American Society of Civil Engineers (ASCE), pp. 1198-1201, World Environmental and Water Resources Congress 2013: Showcasing the Future, Cincinnati, OH, United States, 13/5/19. https://doi.org/10.1061/9780784412947.117

Ishida K, Jang S, Ohara N, Kure S, Kavvas ML. Physically based maximization of precipitation over American river watershed in California. In World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress. American Society of Civil Engineers (ASCE). 2013. p. 1198-1201. (World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress). doi: 10.1061/9780784412947.117

Ishida, K. ; Jang, S. ; Ohara, N. et al. / Physically based maximization of precipitation over American river watershed in California. World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress. American Society of Civil Engineers (ASCE), 2013. pp. 1198-1201 (World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress).

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abstract = "A 72-hour precipitation in a storm event over the American River Watershed (ARW) in California is maximized using a physically-based numerical model for a regional atmosphere. A storm event over ARW is caused by a high-moisture atmosphere coming from the Pacific Ocean, called «atmospheric river.» Moreover, the path of an atmospheric river affects the amount of precipitation over the ARW. Therefore, the contribution of an atmospheric river to 72-hour precipitation over ARW is maximized by spatially shifting the atmospheric conditions for the numerical atmospheric model. In this study, this methodology is applied to the 1997 January storm event, one of the severest storm events over the ARW. Consequently, the 72-hour precipitation is maximized by shifting the atmospheric conditions southward by 6.0 degrees and westward by 1.0 degree, and the maximized value results in 568 mm. The results show that a historical storm event had the capability to cause higher precipitation, and the presented methodology is effective for the estimation of maximum precipitation over the ARW.",

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PY - 2013

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AB - A 72-hour precipitation in a storm event over the American River Watershed (ARW) in California is maximized using a physically-based numerical model for a regional atmosphere. A storm event over ARW is caused by a high-moisture atmosphere coming from the Pacific Ocean, called «atmospheric river.» Moreover, the path of an atmospheric river affects the amount of precipitation over the ARW. Therefore, the contribution of an atmospheric river to 72-hour precipitation over ARW is maximized by spatially shifting the atmospheric conditions for the numerical atmospheric model. In this study, this methodology is applied to the 1997 January storm event, one of the severest storm events over the ARW. Consequently, the 72-hour precipitation is maximized by shifting the atmospheric conditions southward by 6.0 degrees and westward by 1.0 degree, and the maximized value results in 568 mm. The results show that a historical storm event had the capability to cause higher precipitation, and the presented methodology is effective for the estimation of maximum precipitation over the ARW.

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Physically based maximization of precipitation over American river watershed in California

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