1.1
1
94132924
info:srw/schema/1/example-v1.1
xml:ISO19139:F
de.dkrz.wdcc.iso3607582
series
BNSClim_meteo_v2
Dr. Annika Jahnke-Bornemann
University of Hamburg / ICDC
http://icdc.zmaw.de
author
Remon Sadikni
University of Hamburg / ICDC
http://icdc.zmaw.de
author
Dr. Annika Jahnke-Bornemann
University of Hamburg / ICDC
http://icdc.zmaw.de
pointOfContact
Dr. Annika Jahnke-Bornemann
University of Hamburg / ICDC
http://icdc.zmaw.de
originator
2019-12-02T01:31:56
ISO 19115
ISO 19139 / DKRZ ISO Simple Profile V1.0
http://doi.org/doi:10.1594/WDCC/BNSClim_meteo_v2
<gco:CharacterString>BNSClim meteorological part (Version 2)</gco:CharacterString>
BNSClim meteorological part (Version 2)
2018-05-25
creation
```
None
```

```
Baltic and North Sea Climatology meteorological part (Version 2.0)
```

doi:10.1594/WDCC/BNSClim_meteo_v2
Dr. Annika Jahnke-Bornemann
University of Hamburg / ICDC
http://icdc.zmaw.de
originator
doi:10.1594/WDCC/BNSClim_meteo_v2
This is the Baltic and North Sea Climatology (BNSC) for the Baltic Sea and the North Sea in the range 47 ° N to 66 ° N and 15 ° W to 30 ° E. It is the follow-up project to the KNSC climatology. The climatology was first made available to the public in March 2018 by ICDC and is published here in a slightly revised version 2. It contains the monthly averages of mean air pressure at sea level, and air temperature, and dew point temperature at 2 meter height. It is available on a 1 ° x 1 ° grid for the period from 1950 to 2015.
For the calculation of the mean values, all available quality-controlled data of the DWD (German Meteorological Service) of ship observations and buoy measurements were taken into account during this period. Additional dew point values were calculated from relative humidity and air temperature if available. Climatologies were calculated for the WMO standard periods 1951-1980, 1961-1990, 1971-2000 and 1981-2010 (monthly mean values). As a prerequisite for the calculation of the 30-year-climatology, at least 25 out of 30 (five-sixths) valid monthly means had to be present in the respective grid box. For the long-term climatology from 1950 to 2015, at least four-fifths valid monthly means had to be available.
Two methods were used (in combination) to calculate the monthly averages, to account for the small number of measurements per grid box and their uneven spatial and temporal distribution:
1. For parameters with a detectable annual cycle in the data (air temperature, dew point temperature), a 2nd order polynomial was fitted to the data to reduce the variation within a month and reduce the uncertainty of the calculated averages. In addition, for the mean value of air temperature, the daily temperature cycle was removed from the data. In the case of air pressure, which has no annual cycle, in version 2 per month and grid box no data gaps longer than 14 days were allowed for the calculation of a monthly mean and standard deviation. This method differs from KNSC and BNSC version 1, where mean and standard deviation were calculated from 6-day windows means.
2. If the number of observations fell below a certain threshold, which was 20 observations per grid box and month for the air temperature as well as for the dew point temperature, and 500 per box and month for the air pressure, data from the adjacent boxes was used for the calculation. The neighbouring boxes were used in two steps (the nearest 8 boxes, and if the number was still below the threshold, the next sourrounding 16 boxes) to calculate the mean value of the center box. Thus, the spatial resolution of the parameters is reduced at certain points and, instead of 1 ° x 1 °, if neighboring values are taken into account, data from an area of 5 ° x 5 ° can also be considered, which are then averaged into a grid box value. This was especially used for air pressure, where the 24 values of the neighboring boxes were included in the averaging for most grid boxes.
The mean value, the number of measurements, the standard deviation and the number of grid boxes used to calculate the mean values are available as parameters in the products.
The calculated monthly and annual means were allocated to the centers of the grid boxes:
Latitudes: 47.5, 48.5, ...
Longitudes: -14.5, -13.5, …
In order to remove any existing values over land, a land-sea mask was used, which is also provided in 1 ° x 1 ° resolution.
In this version 2 of the BNSC, a slightly different database was used, than for the KNSC, which resulted in small changes (less than 1 K) in the means and standard deviations of the 2-meter air temperature and dew point temperature. The changes in mean sea level pressure values and the associated standard deviations are in the range of a few hPa, compared to the KNSC. The parameter names and units have been adjusted to meet the CF 1.6 standard.
Dr. Annika Jahnke-Bornemann
University of Hamburg / ICDC
http://icdc.zmaw.de
author
Remon Sadikni
University of Hamburg / ICDC
http://icdc.zmaw.de
author
Dr. Annika Jahnke-Bornemann
University of Hamburg / ICDC
http://icdc.zmaw.de
pointOfContact
eng
-15.0
30.0
47.0
66.0
1950-01-01
2015-12-31
792
0001-01-01
0001-12-31
1
1950-01-01
2015-12-31
1
1961-01-01
1990-12-31
1
1971-01-01
2000-12-31
1
1981-01-01
2010-12-31
1
air_pressure
modelResult
hPa
air_pressure
modelResult
hPa
air_pressure
modelResult
hPa
air_pressure
modelResult
hPa
air_pressure
modelResult
hPa
air_temperature
modelResult
K
air_temperature
modelResult
K
air_temperature
modelResult
K
air_temperature
modelResult
K
air_temperature
modelResult
K
dew_point_temperature
modelResult
K
dew_point_temperature
modelResult
K
dew_point_temperature
modelResult
K
dew_point_temperature
modelResult
K
dew_point_temperature
modelResult
K
land_area_fraction
modelResult
1
sea_binary_mask
modelResult
1
NetCDF
network Common Data Format
distributor
Mb
85
http://doi.org/doi:10.1594/WDCC/BNSClim_meteo_v2
series
]]>
1
1.1
de.dkrz.wdcc.iso3607582
1
5
xml
https://sru.dwd.de/SRU2JDBC/