Bibcode
Castro-Almazán, J. A.; Pérez-Jordán, G.; Muñoz-Tuñón, C.
Referencia bibliográfica
Atmospheric Measurement Techniques, Volume 9, Issue 9, 2016, pp.4759-4781
Fecha de publicación:
9
2016
Número de citas
5
Número de citas referidas
5
Descripción
A semiempirical method for estimating the error and optimum number of
sampled levels in precipitable water vapour (PWV) determinations from
atmospheric radiosoundings is proposed. Two terms have been considered:
the uncertainties in the measurements and the sampling error. Also, the
uncertainty has been separated in the variance and covariance
components. The sampling and covariance components have been modelled
from an empirical dataset of 205 high-vertical-resolution radiosounding
profiles, equipped with Vaisala RS80 and RS92 sondes at four different
locations: Güímar (GUI) in Tenerife, at sea level, and the
astronomical observatory at Roque de los Muchachos (ORM, 2300 m a.s.l.)
on La Palma (both on the Canary Islands, Spain), Lindenberg (LIN) in
continental Germany, and Ny-Ålesund (NYA) in the Svalbard Islands,
within the Arctic Circle. The balloons at the ORM were launched during
intensive and unique site-testing runs carried out in 1990 and 1995,
while the data for the other sites were obtained from radiosounding
stations operating for a period of 1 year (2013-2014). The PWV values
ranged between ˜ 0.9 and ˜ 41 mm. The method sub-samples the
profile for error minimization. The result is the minimum error and the
optimum number of levels. The results obtained in the four
sites studied showed that the ORM is the driest of the four locations
and the one with the fastest vertical decay of PWV. The exponential
autocorrelation pressure lags ranged from 175 hPa (ORM) to 500 hPa
(LIN). The results show a coherent behaviour with no biases as a
function of the profile. The final error is roughly proportional to PWV
whereas the optimum number of levels (N0) is the reverse. The
value of N0 is less than 400 for 77 % of the profiles and the
absolute errors are always < 0.6 mm. The median relative error is
2.0 ± 0.7 % and the 90th percentile
P90 = 4.6 %. Therefore, whereas a radiosounding samples at
least N0 uniform vertical levels, depending on the water
vapour content and distribution of the atmosphere, the error in the PWV
estimate is likely to stay below ≈ 3 %, even for dry conditions.