Within the framework of BALTEX regular measurements made at about 4,200 rai
n gauge sites have been collected by the BALTEX Meteorological Data Centre.
This network of rain gauges is about 10 times denser than the synoptic net
work; here it is used for the objective analysis of daily precipitation fie
lds on the grids of the mesoscale models developed in the research project
NEWBALTIC during the pilot period PIDCAP (August to October 1995). The obse
rvations were corrected for systematic measuring errors with the Dynamic Co
rrection Model. Its main purpose is to correct for the wind-induced losses
which is the largest error. The correction formulae use the synoptic observ
ations of wind speed, temperature and rain intensity at the rain gauge stat
ion considered. For non-synoptic stations the values of the closest synopti
c station are used as estimates; the mean distance of the synoptic stations
within the drainage basin is 30 km. For evaporation and wetting losses, wh
ich represent the second largest error of the precipitation measurements, c
limatological corrections are applied. The formulae in the Dynamic Correcti
on Model take instrument-specific properties into account; these comprise H
ELLMANN UNSHIELDED, SMHI SHIELDED, H&H-90 SHIELDED and TRETJAKOV SHIELDED.
The spatial distribution of corrected precipitation values were objectively
analysed according to Rubel (1998). They yield daily gridded precipitation
fields over the drainage basin which are systematically higher than the un
corrected fields. The corresponding increase of the freshwater input into t
he Baltic Sea drainage basin is 4.7% in August, 5.8% in September and 9.1%
in October 1995; Finally, the perspective for further developments and the
generation of a ten-year data base of the BALTEX main intensive observation
al and modelling period BRIDGE is introduced.