To evaluate the effect of soil moisture deficit on the restriction of evapo
ration from bare soil surfaces, the process of evaporation in dry soil was
investigated from field observations at a fallow site and a sand dune site.
Analysis of the surface energy balance showed that soil drying affects not
only the inter-diurnal variation of energy fluxes, but also their diurnal
variation. In addition, the relationship between the surface resistance (r(
s)) and soil water content (theta) of surface soil was found to be differen
t between inter-diurnal and diurnal time scales. Stable isotopic analysis o
f soil water showed that liquid water transport from deeper soil layers sto
ps at the bottom boundary of the dry surface layer (DSL) and that vapor wat
er transport is dominant in the DSL. In addition, diurnal variations in wat
er content and soil air humidity suggest that evaporation and condensation
occurs alternatively within the DSL with diurnal cycle due to cyclic change
in solar radiation and soil temperature. From these observational results,
a conceptual model of the dynamics of the evaporation zone in dry sandy so
ils is presented. In the model, the evaporation zone consists of two sub-zo
nes: a narrow sub-zone around the bottom boundary of the DSL, and a relativ
ely wide sub-zone within the DSL. The former is active through a day and mo
ves vertically with the development/reduction of the DSL at both diurnal an
d inter-diurnal time scales. The latter acts as evaporation zone only in th
e morning and acts as condensation zone in the late afternoon and at night.
The dynamic behavior of the evaporation zone and those related to the form
of water content profile can explain the difference in the r(s)-theta rela
tionship between inter-diurnal and diurnal time scales. (C) 1999 Elsevier S
cience B.V. All rights reserved.