Fog water flux at a canopy top: Direct measurement versus one-dimensional model

Klemm O, Wrzesinsky T, Scheer C

Research article (journal)

Abstract

A one-dimensional model [Lovett, 1984. Rates and mechanisms of cloud water deposition to a subalpine balsam fir forest. Atmospheric Environment 18, 361-371] to quantify fog water deposition was compared with results of long term (13 months) measurements of turbulent exchange with the eddy covariance method at a mountainous site in Central Europe. Turbulent exchange is mainly deposition and dominates over sedimentation at that site, therefore eddy covariance is a suitable tool in quantifying fog water deposition. The model can be operated with use of the measured droplet size distribution (DSD), with a DSD as parameterized from liquid water content (LWC) data, or with the measured visibility (VIS) as a quantitative indicator for fog. The latter is the easier measurement and therefore preferable for long-term applications. We compared the fog water deposition on a monthly basis. If VIS data are used as model input, the overall underestimate of the measurement is -23% as compared to the measurements. Using LWC and the parameterized DSD as input, the deviation is +37%. All deviations are highly significant. (c) 2005 Elsevier Ltd. All rights reserved.

Details about the publication

JournalAtmospheric Environment
Volume39
Issue29
Page range5375-5386
StatusPublished
Release year2005 (30/09/2005)
Language in which the publication is writtenEnglish
Keywordseddy covariance fog deposition liquid water content Lovett model Norway spruce spruce-fir forests dry deposition acid deposition fichtelgebirge mountains advection europe fssp

Authors from the University of Münster

Klemm, Otto
Professur für Klimatologie (Prof. Klemm)