Abstract
The Negev desert is characterized by an arid climate (annual mean
precipitation is 90 mm) with sea breeze carrying moisture from the
Mediterranean Sea during the afternoon regularly. Non-rainfall water
inputs (NRWIs) are thus of great importance to the hydrometeorology and
the ecological functioning of the region. The small magnitude of NRWIs
challenges attempts to quantify these processes. The aim of this
research was to test commonly used micrometeorological methods to
quantify the energy balance components during the deposition and
evaporation of NRWIs. A fully equipped micrometeorological station was
set up near the Blaustein Institutes for Desert Research of the
Ben-Gurion University of the Negev (30o 51' 35.6" N; 34o 46' 24.8" E)
during September-October 2014. Net-radiation was measured with a 4-way
net radiometer, and soil heat flux was quantified by the calorimetric
method in three replicates. Latent heat was measured using an
eddy-covariance (EC) and compared to a micro-lysimeter (ML); sensible
heat flux was measured with an EC and a surface layer scintillometer
(SLS). Sensible heat fluxes measured by the EC and the SLS showed good
agreement. EC latent heat fluxes were in good agreement with those
derived by the ML. Nevertheless, derivation of latent heat flux from the
SLS measurements through the energy balance equation showed a relatively
large deviation from the directly measured latent heat flux. This
deviation is likely attributed to measurement errors of the soil heat
flux.
Original language | English GB |
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Pages (from-to) | 6923 |
Journal | Geophysical Research Abstracts |
Volume | 17 |
State | Published - 1 Apr 2015 |
Externally published | Yes |