Column Relative Humidity and Primary Condensation Rate as Two Useful Supplements to Atmospheric River Analysis

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dc.contributor.author

Mo, Ruping

So, Rita

Brugman, Melinda M.

Mooney, Curtis

Liu, Anthony Q.

Jakob, Matthias

Castellan, Armel

Vingarzan, Roxanne

dc.date.accepted

2021-10-16

dc.date.accessioned

2023-11-17T16:00:27Z

dc.date.available

2023-11-17T16:00:27Z

dc.date.issued

2021-10-19

dc.date.submitted

2021-01-22

dc.description.abstract - en

Landfalling atmospheric rivers (ARs) frequently trigger heavy and sometimes prolonged precipitation, especially in regions with favored orographic enhancement. The presence and strength of ARs are often described using the integrated water vapor (IWV) and the integrated vapor transport (IVT). However, the associated precipitation is not directly correlated with these two variables. Instead, the intensity of precipitation is mainly determined by the net convergence of moisture flux and the initial degree of saturation of the air column. In this study, a simple algorithm is proposed for estimating the heavy precipitation attributable to the IVT convergence. Bearing a strong resemblance to the Kuo-Anthes parameterization scheme for cumulus convection, the proposed algorithm calculates the large-scale primary condensation rate (PCR) as a proportion of the IVT convergence, with a reduction to account for the general moistening in the atmosphere. The amount of reduction is determined by the column relative humidity (CRH), which is defined as the ratio of IWV to its saturation counterpart. Our analysis indicates that the diagnosable PCR compares well to the forecast precipitation rate given by a numerical weather prediction model. It is also shown that the PCR in an air column with CRH urn:x-wiley:00431397:media:wrcr25616:wrcr25616-math-0001 0.50 is negligibly small. The usefulness of CRH and PCR as two complements to standard AR analysis is illustrated in three case studies. The potential application of PCR to storm classification is also explored.

dc.identifier.doi

https://doi.org/10.1029/2021WR029678

dc.identifier.issn

0043-1397

1944-7973

dc.identifier.uri

https://open-science.canada.ca/handle/123456789/1297

dc.language.iso

en

dc.publisher

American Geophysical Union

dc.rights.openaccesslevel - en

Gold

dc.rights.openaccesslevel - fr

Or

dc.subject - en

Nature and environment

Science and technology

Climate

dc.subject - fr

Nature et environnement

Sciences et technologie

Climat

dc.subject.en - en

Nature and environment

Science and technology

Climate

dc.subject.fr - fr

Nature et environnement

Sciences et technologie

Climat

dc.title - en

Column Relative Humidity and Primary Condensation Rate as Two Useful Supplements to Atmospheric River Analysis

dc.type - en

Article

dc.type - fr

Article

local.article.journalissue

11

local.article.journaltitle

Water Resources Research

local.article.journalvolume

57

local.pagination

24 pages

local.peerreview - en

Yes

local.peerreview - fr

Oui

local.requestdoi

No

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